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Users Manual I | Users Manual | 3.00 MiB | May 08 2005 | |||
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1 | Attestation Statements | May 08 2005 | ||||||
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1 | Test Report | May 08 2005 | ||||||
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1 | Users Manual I | Users Manual | 3.00 MiB | May 08 2005 |
Cosmed does not assume the liability for interpretation mistakes of this documentation or for casual or consequential damages in connection with the provision, representation or use of this documentation. No parts of this manual may be reproduced or transmitted in any form without the express permission of COSMED Srl. COSMED Software can be installed only in one device. Excel is a registered trademark of Microsoft Corporation. DBIII is a registered trademark of Bordland International Inc. Lotus 123 is a registered trademark of Lotus Development Corporation . K4 b2 User manual, XII Edition 01/2005 Copyright 1998 COSMED Copyright 2003 COSMED COSMED Srl - Italy http://www.cosmed.it Part N. C01508-02-91 Table of contents Getting started 13 Important notices ........................................................................... 14 Intended use..............................................................................14 Warnings...................................................................................14 Contraindication ............................................................................. 16 Contraindications for the Spirometer tests................................16 Absolute contraindications .............................................16 Relative contraindications ..............................................16 Contraindications for Bronchial provocation tests ...................16 Absolute contraindications .............................................16 Relative contraindications ..............................................16 Contraindications for Exercise testing......................................16 Environmental condition of use...................................................... 17 Safety and conformity..................................................................... 18 Safety..............................................................................18 EMC ...............................................................................18 Telemetry .......................................................................18 Quality Assurance ..........................................................18 Medical Device Directive (CE mark).............................18 FCC (only USA version)................................................18 Keynotes ......................................................................................... 19 Typographic keynotes...............................................................19 Graphic keynotes ......................................................................19 System overview ............................................................................. 20 Portable Unit (PU) ....................................................................20 Telemetry Data Transmission, Receiver Unit (RU) .................20 Battery Charger Unit (CU) .......................................................20 Flowmeter.................................................................................21 Gas analysers ............................................................................21 PC Software..............................................................................21 Before starting................................................................................ 22 Checking the packing contents .................................................22 K4 b2 standard packaging...............................................22 Warranty registration..................................................................... 23 Register the product via software...................................23 How to contact COSMED..............................................23 Complain, feedback and suggestions .............................23 Options/Accessories ....................................................................... 24 Accessories ...............................................................................24 Options......................................................................................24 Telemetry data transmission...........................................24 Spirometry Kit................................................................24 2 - K4 b2 User Manual PC configuration required...............................................................25 Technical features ...........................................................................26 Portable Unit ..................................................................26 Receiver Unit .................................................................26 Battery charger Unit.......................................................26 Flowmeter ......................................................................26 Oxygen Sensor (O2) .......................................................26 Carbon Dioxide Sensor (CO2) ........................................26 Humidity absorber..........................................................26 Power Supply .................................................................26 Environmental Sensors...................................................26 Measurements 27 Pulmonary function tests and measured parameters ....................28 Breath by Breath exercise testing .............................................28 Indirect Calorimetry .................................................................28 Lactate Threshold (V-Slope) ....................................................28 O2 Kinetics...............................................................................29 Spirometry Tests (option).........................................................29 FVC - Forced Vital Capacity .........................................29 VC/IVC - Slow Vital Capacity and Ventilatory pattern.29 MVV - Maximum Voluntary Ventilation ......................30 Bronchoprovocation Response.......................................30 Installation 31 Installation sequence......................................................................32 Battery Charger Unit ................................................................32 Check voltage.................................................................32 Turn the Unit on.............................................................32 Charge the batteries........................................................32 Battery low.....................................................................33 Portable Unit.............................................................................33 Warm up.........................................................................34 Warming-up the unit by main power .............................34 Turning on/off the portable unit.....................................34 Connect the rechargeable battery ...................................34 Receiver Unit............................................................................35 Turning on/off the receiver unit .....................................35 Receiver unit power supply............................................35 Calibration Gas Cylinder..........................................................35 Connecting the K4 b2 to the patient................................................36 Assemble the mask and the flowmeter.....................................36 Using the "Ultimate Seal".........................................................36 Apply the seal to the mask .............................................37 To remove seal on mask.................................................37 Assembling the flowmeter for spirometry tests........................37 Index - 3 Calibration Fixing the K4 b2 to the patient..................................................38 Connecting the K4 b2 to the PC....................................................... 39 Connect the Portable Unit to the PC.........................................39 Connect the Receiver Unit to the PC........................................39 Software installation ...................................................................... 40 Installing the software...............................................................40 Run the software.......................................................................40 PC port configuration ...............................................................40 Software main features .................................................................. 41 Display......................................................................................41 Tool bar.....................................................................................41 Show/hide the toolbar.....................................................41 Dialog windows ........................................................................41 Use of the keyboard........................................................41 Use of the mouse ............................................................41 Scroll bars.................................................................................41 On line help ..............................................................................41 Software version .......................................................................41 43 Gas calibration procedures ............................................................ 44 Running the Calibration program .............................................44 Log file .....................................................................................44 Setting reference values............................................................44 Set the reference values using the PC software..............44 Set the reference values using the Portable Unit ............45 Room air calibration .................................................................45 Room air calibration using the PC software...................45 Room air calibration using the Portable Unit .................45 Reference gas calibration..........................................................45 The calibration unit ........................................................46 Reference gas calibration using the PC software ...........46 Reference gas calibration using the Portable Unit..........46 Gas delay calibration ................................................................47 Delay calibration using the PC software ........................47 Delay calibration using the Portable Unit ......................47 Print the calibration report........................................................48 Edit the calibration factors........................................................48 Turbine calibration ......................................................................... 49 Assembling the flowmeter for calibration.....................49 Calibrating the turbine ..............................................................49 Turbine calibration using the PC software .....................49 Turbine calibration using the Portable Unit ...................50 Checking the system signals .......................................................... 51 The control panel ......................................................................51 Using the control panel...................................................51 4 - K4 b2 User Manual Operating modes 53 K4 b2 Operating modes ..................................................................54 Holter Data Recorder................................................................54 Telemetry Data Transmission (option).....................................54 Serial (Laboratory) Station .......................................................54 Portable Unit User Interface diagram ............................................55 Holter Data Recorder Mode ............................................................56 Operating sequence ..................................................................56 Warming-up the system .................................................56 Enter new patient............................................................56 Calibrate and start the test ..............................................56 Stop the test ....................................................................57 Transferring test to PC ...................................................57 Telemetry Data Transmission Mode ...............................................58 Operating sequence ..................................................................58 Warming-up the system .................................................58 Connect the receiver unit to the PC................................58 Enable transmission .......................................................58 Enter new patient............................................................58 Enable reception on PC..................................................59 Calibrate and start the test ..............................................59 Stop the test ....................................................................60 Transferring test to PC ...................................................60 Serial Mode .....................................................................................61 Operating sequence ..................................................................61 Warming-up the system .................................................61 Connect the Portable unit to the PC ...............................61 Calibrate the system .......................................................61 Enter patient data............................................................61 Start the test....................................................................62 Stop the test ....................................................................62 Database Management 63 Exercise testing patient's database.................................................64 Enter a new patient ...................................................................64 Find a patient ............................................................................64 Edit patient data........................................................................64 Delete a patient .........................................................................64 Uploading tests from the Portable Unit..........................................65 Archive maintenance ......................................................................66 Reorganise the archive .............................................................66 Delete the archive .....................................................................66 Delete a test ..............................................................................66 Backup and restore ...................................................................66 Backup............................................................................66 Restore............................................................................66 Index - 5 Spirometry patient's database ....................................................... 67 Patient Card ....................................................................67 Visit Card .......................................................................67 Test Card ........................................................................68 Import/export a Tests card........................................................68 Diagnosis Database...................................................................68 Spirometry program settings ......................................................... 69 Graphs ............................................................................69 Serial port .......................................................................69 Units of measurements ...................................................69 Using extra fields............................................................69 Customise the fields .......................................................69 Exercise testing 71 Recommendations for the exercise testing .................................... 72 The evaluation of the cardiorespiratory function......................72 Precautions................................................................................72 Laboratory ......................................................................72 Ending the test................................................................72 Preparing the patient.................................................................72 Before testing .................................................................72 Patient assent ..................................................................73 Ending the test................................................................73 Real time test.................................................................................. 74 Start a test .......................................................................74 Abort the test without saving data..................................74 End the test saving data..................................................74 View data in real-time ..............................................................74 View graphs in real-time ................................................74 Parameters to view....................................................................74 Manual protocol........................................................................75 Enter Load and Phase.....................................................75 Set the markers ...............................................................75 Automatic protocol ...................................................................75 Modify the load during the test ......................................75 Set the BPM alarm....................................................................75 Enter the BPM................................................................75 Data management ......................................................................... 76 Viewing data.............................................................................76 View data in table form..................................................76 Creating graphs.........................................................................76 View data in graph form.................................................76 Customise the graphs......................................................77 Switch from graph to data and vice versa ......................77 Viewing predicted values .........................................................78 View predicted values ....................................................78 6 - K4 b2 User Manual Anaerobic (Lactate) Threshold detection .................................78 View the Lactate Threshold ...........................................78 Detect the Lactate Threshold..........................................78 Customise graphs for the LT viewing ............................78 Fittings......................................................................................79 Fit a graph with a linear regression ................................79 Fit a graph with a Mono-exponential regression............79 Calculate the "Mean Value"...........................................80 Oxygen Kinetic.........................................................................80 Run the O2 Kinetic function ..........................................80 Information about the Test .......................................................81 View the Information .....................................................81 Modify the information ..................................................81 Summary...................................................................................81 View the summary .........................................................81 Print the data.............................................................................81 Print the current window................................................82 Print the report................................................................82 View the report .........................................................................82 Data Editing ....................................................................................83 Editing values and input numerical values.....................83 Data filtering ..................................................................83 Using the User fields......................................................84 Deleting steps.................................................................84 Advanced Editing...........................................................84 Restore the original test..................................................85 Overwrite the original test..............................................85 Customise the desktop..............................................................85 Customise the display colours........................................85 Smart edit..................................................................................85 Apply the graphical noise suppression...........................85 Apply the threshold noise suppression...........................85 Customise the parameters.........................................................86 Create a new parameter..................................................86 Create a new predicted parameter ...................................86 Exporting data ..........................................................................87 Export a test....................................................................87 DDE with Excel .............................................................87 Creating Test Protocols ...................................................................88 Create a new protocol.....................................................88 Software configuration ...................................................................89 Data viewing.............................................................................89 Select the parameters to view.........................................89 Select the parameters to view during the test.................89 Sort the parameters.........................................................89 Steady State ..............................................................................89 Index - 7 Customise the Steady State detection criteria ................89 Printout reports .............................................................................. 90 Set up the printout ..........................................................90 Select parameters to be printed.......................................90 Customise the printout header........................................90 Electronic reports (*.pdf) ...............................................91 Print the current window ..........................................................91 Print the customised report .......................................................91 Events management during exercise testing ................................. 92 Flow Volume loops...................................................................92 Flow Volume loop during the test..................................92 O2, CO2 vs Time......................................................................92 O2, CO2 vs Time during the test....................................92 O2 Saturation (optional) ...........................................................93 O2 Saturation during the test..........................................93 Spirogram .................................................................................93 Spirogram during the test ...............................................93 View the events after the test....................................................93 Raw data ...................................................................................93 Save Raw data ................................................................94 Resting Metabolic Rate Test 95 Metabolism ..................................................................................... 96 Total Metabolic Rate ................................................................96 Resting Metabolic Rate (RMR) ................................................96 Importance to measure RMR....................................................96 Measure of the rest metabolic rate with indirect calorimetry ...96 How to perform a RMR test .....................................................96 Recommendations .......................................................................... 97 Resting metabolic rate test using the face mask .......................97 Resting metabolic rate test using the canopy option.................97 Performing a test using the face mask .......................................... 98 Calibrations...............................................................................98 How to prepare a patient...........................................................98 Start the test ..............................................................................98 Viewing the test ........................................................................99 How to modify the average interval .......................................100 Print ........................................................................................100 Performing a test using the canopy option .................................. 102 Calibrations.............................................................................102 How to prepare the canopy and the patient.............................102 Replacement of the power plug....................................102 Connecting the Canopy ................................................102 How to prepare the patient ...........................................103 Performing the test..................................................................103 Viewing the test ......................................................................104 8 - K4 b2 User Manual How to modify the average interval .......................................104 Print ........................................................................................104 Sub-maximal Exercise Testing 105 Introduction...................................................................................106 Pre-test screening....................................................................106 Sub-maximal exercise testing.......................................................107 Considerations with sub-maximal exercise testing.................107 Staffing ...................................................................................108 Test termination......................................................................108 Considerations for accuracy ..........................................................109 Performing the test .......................................................................110 An example of testing protocol ..............................................110 Spirometry 111 Setting spirometry options............................................................112 Spirometry ..............................................................................112 Automatic Interpretation ..............................................112 Quality control .............................................................112 Parameters manager................................................................113 Predicted values manager .......................................................113 Predicteds set................................................................113 Set the current predicted...............................................114 Formula definition........................................................114 Page set-up..............................................................................115 Spirometry tests ............................................................................116 Forced Vital Capacity (pre)............................................................117 Recommendations ..................................................................117 Perform a FVC (pre) test ........................................................117 Test encouragement................................................................117 Perform the FVC test with the encouragement ............118 Slow Vital Capacity........................................................................119 Perform a SVC test.................................................................119 Maximum Voluntary Ventilation...................................................120 Perform a MVV test ...............................................................120 Bronchial Provocation Test ...........................................................121 Bronchodilator test .................................................................121 Methacholine and Histamine Bronchial provocation Tests....121 Perform the test.......................................................................122 Bronchial Provocation protocols Database.............................122 Enter a new Bronchial provocation protocol in the archive ..........................................................................122 Viewing results..............................................................................123 Tests of the current patient...........................................123 Delete a test ..................................................................123 Printing results..............................................................................124 Printing Reports......................................................................124 Index - 9 Printing the active window .....................................................124 To print the active window...........................................124 Printing a series of reports ......................................................124 Electronic reports (*.pdf)........................................................124 Export data..............................................................................125 Export a test..................................................................125 External devices 127 GPS ............................................................................................... 128 GPS initialisation....................................................................128 Initialize the GPS..........................................................128 Fixing the antenna to the subject.............................................128 Operating sequence.................................................................129 Run a test with GPS......................................................129 Monitoring GPS parameters in real time......................130 Pulse Oximeter (option)................................................................ 131 Operating Sequence................................................................131 System maintenance 133 System maintenance..................................................................... 134 Cleaning and disinfection .......................................................134 Preparing the disinfecting solution...............................134 Cleaning the turbine flowmeter....................................135 Precautions during the cleaning of the turbine .............135 Suggested disinfection solutions ..................................135 Masks cleaning and disinfection.............................................135 Disassembling the different parts of the mask .............135 Cleaning the mask ........................................................135 Disinfecting the mask...................................................136 Permapure maintenance..........................................................136 Inspections..............................................................................136 Replace the fuses ....................................................................136 Appendix 139 Service - Warranty........................................................................ 140 Warranty and limitation of liability ........................................140 Return goods policy for warranty or non warranty repair ......140 Repair Service Policy .............................................................141 Privacy Information ...................................................................... 142 Personal data treatment and purposes.....................................142 How your personal data are treated ........................................142 The consent is optional, but ................................................142 Holder of the treatment...........................................................142 Customer rights.......................................................................142 Converting factors configuration.................................................. 143 Calculations references ................................................................ 144 10 - K4 b2 User Manual VO2 and VCO2........................................................................144 Anaerobic threshold (modified V-Slope) ...............................144 O2 kinetics ..............................................................................144 ATS 94 recommendations .............................................................145 ATS recommendations ...........................................................145 Predicted values............................................................................146 Automatic diagnosis (algorithm) ............................................147 Quality Control Messages ......................................................147 References.....................................................................................149 Gas Exchange References ............................................149 Indirect calorimetry......................................................149 Spirometry....................................................................149 Sub-maximal testing.....................................................149 Index - 11 12 - K4 b2 User Manual Getting started Important notices Intended use The measurement of oxygen uptake during sport or real life activities is of great interest for the development of training programs and the study of their effects on elite athletes or for assessing the efficacy of a rehabilitation therapy. A common method for assessing the effects of endurance training is the monitoring of various respiratory parameters during submaximal exercise. One difficulty to achieve this goal during sport that cannot be simulated in the laboratory is to use a reliable and valid portable system to measure VO2 and VCO2 in a field setting. Such a portable apparatus may also be useful to determine the energy cost of many sport and real life activities. K4 b2 is an electrical medical device designed to perform pulmonary function tests. It is to be used by physicians or by trained personnel on a physician responsibility. Caution: Federal law restricts this device to sale by or on the order of a physician. This equipment has been conceived with the aim of providing an auxiliary instrument allowing:
No responsibility attaches COSMED Srl for any accident happened after a wrong use of the device, such as:
use by non qualified people;
non respect of the device intended use;
non respect of the hereunder reported precautions and instructions. the formulation of lung pathology diagnosis;
important studies concerning human physiology;
the collection of important information in sport medicine. Warnings The device, the programme algorithms and the presentation of measured data have been developed according to the specifications of ATS (American Thoracic Society) and ERS (European Respiratory Society). Other international references have been followed when these were not available. All bibliography references are reported in Appendix. The present handbook has been developed with respect of the European Medical Device Directive requirements which sort K4 b2 within Class II a. It is recommended to read carefully the following precautions before putting the device into operation. The precautions reported below are of fundamental importance to assure the safety of all COSMED equipment users. 1. This user manual is to be considered as a part of the medical device and should always be kept on hand. 2. Safety, measure accuracy and precision can be assured only:
using the accessories described in the manual or given with the device. Actually non recommended accessories can affect safety unfavourable. Before using non recommended accessories it is necessary to get in touch with the manufacturer;
ordinary equipment maintenance, inspections, disinfection and cleaning are performed in the way and with the frequency described;
any modification or fixing is carried out by qualified personnel;
the environmental conditions and the electrical plants where the device operates are in compliance with the specifications of the manual and the present regulations concerning electrical plants. In particular grounding reliability and leakage current suppression can only be assured when the device three wire receptacle is connected to a yellow - green return connected to earth ground. Attempting to defeat the proper connection of the ground wire is dangerous for users and equipment. 14 - K4 b2 User Manual 3. Before powering the system, check the power cables and the plugs. Damaged electrical parts must be replaced immediately by authorised personnel. 4. Large gas cylinders, which may be given by the manufacturer or purchased by the customer, should be secured with cylinder safety chains or safety stands. 5. When removing the protective cap, inspect the cylinder valve for damaged threads, dirt, oil or grease. Remove any dust or dirt with a clean cloth. If oil or grease is present on the valve of a cylinder which contains oxygen, do not attempt to use. Such combustible substances in contact with oxygen are explosive. 6. Be certain that the materials of the pressure regulators are chemically compatible with the intended gas service before installation. Inspect the regulator for the proper connection and note the ranges of the pressure gauges. Also examine the physical condition of the regulator including threads and fittings. Remove any dust or dirt from the regulator or cylinder valve with a clean cloth. Do not install a regulator on a cylinder valve containing oxygen if grease or oil is present on either. Such substances in contact with oxygen are explosive. 7. Cleaning residue, particulates, and other contaminates (including pieces of torn or broken components) in the breathing circuit pose a safety risk to the patient during testing procedures. Aspiration of contaminates can potentially be life-threatening. Use disposable anti-bacterial filters or disinfect each part in contact with the patient before each test. 8. You must follow all the cleaning procedures in System Maintenance, and you must thoroughly inspect the components after cleaning and before each patient test. 9. This device is not suitable for use in presence of flammable anaesthetics. It is not an AP nor an APG device (according to the EN 60 601-1 definitions). 10. Keep the device away from heat and flame source, flammable or inflammable liquids or gases and explosive atmospheres. 11. In accordance with their intended use K4 b2 is not to be handled together with other medical devices unless it is clearly declared by the manufacturer itself. 12. It is recommended to use a computer with electromagnetic compatibility CE marking and with low radiation emission displays. 13. It is necessary to make the PC, connected to the K4 b2, compliant with EN 60601-1 by means of an isolation transformer. 14. Graphical symbols used in accordance to present specifications are described here below:
Equipment type B (EN60601-1) Equipment type BF (EN60601-1) Danger: high temperature OFF ON Protective earth ground Alternating current Chapter 1 - Getting started - 15 Contraindication The physical strain to execute the respiratory manoeuvre is contraindicated in case of some symptoms or pathology. The following list is not complete and must be considered as a piece of mere information. Contraindications for the Spirometer tests Absolute contraindications For FVC, VC and MVV tests:
Post-operating state from thoracic surgery For FVC tests:
Severe instability of the airways (such as a destructive bronchial emphysema) Bronchial non-specific marked hypersensitivity Serious problems for the gas exchange (total or partial respiratory insufficiency) Relative contraindications For FVC tests:
For MVV test:
spontaneous post-pneumothorax state arterial-venous aneurysm strong arterial hypertension pregnancy with complications at the 3rd month. hyperventilation syndrome Contraindications for Bronchial provocation tests The bronchial provocation tests must be executed according to the doctors discretion. There are not data that reveal specific contraindication for the bronchial provocation test through inhalation. The modern standard processes have been revealing secure in several clinical studies. However it is recommendable to respect the following contraindications:
Absolute contraindications Serious bronchial obstruction (FEV1 in adults) Recent myocardium infarct Recent vascular-cerebral accident Known arterial aneurysm Incapacity for understanding the provocation test procedures and its implications. Relative contraindications Bronchial obstruction caused by the respiratory manoeuvre. Moderate or serious bronchial obstruction. For ex. FEV1 < 1.51 in men and FEV1 in women < than 1.21. Recent infection in the superior air tracts During the asthmatic re-acuting Hypertension Pregnancy A pharmacology treatment epilepsy Contraindications for Exercise testing Read carefully the exercise testing chapter. 16 - K4 b2 User Manual Environmental condition of use COSMED units have been conceived for operating in medically utilised rooms without potential explosion hazards. The units should not be installed in vicinity of x-ray equipment, motors or transformers with high installed power rating since electric or magnetic interferences may falsify the result of measurements or make them impossible. Due to this the vicinity of power lines is to be avoided as well. Cosmed equipment are not AP not APG devices (according to EN 60601-1): they are not suitable for use in presence of flammable anaesthetic mixtures with air, oxygen or nitrogen protoxide. If not otherwise stated in the shipping documents, Cosmed equipment have been conceived for operating under normal environmental temperatures and conditions [IEC 601-1(1988)/EN 60 601-1 (1990)]. Temperature range 10C (50F) and 40C (104F). Relative humidity range 20% to 80%
Atmospheric Pressure range 700 to 1060 mBar Avoid to use it in presence of noxious fumes or dusty environment and near heat sources. Do not place near heat sources. Cardiopulmonary resuscitation emergency equipment accessible. Adequate floor space to assure access to the patient during exercise testing. Adequate ventilation in the room. Chapter 1 - Getting started - 17 Safety and conformity Safety IEC 601-1 (1988) /EN 60 601-1 (1990);
Find reported below the complete classification of the device:
Class I type B device Protection against water penetration: IP00, ordinary equipment unprotected against water penetration Non sterile device Device not suitable in the presence of flammable anaesthetics;
Continuous functioning equipment;
EMC The system meets the EMC Directive 89/336 EN 60601-1-2 EN 55011 Class B (emission), IEC 1000-4-2, IEC 1000-4-3, IEC 1000-4-4 Telemetry I-ETS 300 220, CEPT T/R 01-04 pr ETS RES 0908 (CE type conformity) Transmission frequency and output power can be changed upon request according to the destination country requirements. Quality Assurance UNI EN ISO 9001:2000 (Registration n 387-A Cermet) Medical Device Directive (CE mark) MDD 93/42/EEC (Notified Body 0476). Class IIa FCC (only USA version) FCC ID: SN7-K4B2T-USA (transmitter) FCC ID: SN7-K4B2R-USA (receiver) This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Changes or modifications not expressly approved by the party responsible for compliance could void the users authority to operate the equipment. 18 - K4 b2 User Manual Keynotes Here are the keynotes used to make the manual easier to read. Typographic keynotes These are the typographic keynotes used in the manual. Style Bold Italic Description indicates a control or a key to be pressed. indicates a messages shown by the firmware. Graphic keynotes These are the graphic keynotes used in the manual. Illustration Description shows the button to click in the software to activate the related feature. Chapter 1 - Getting started - 19 System overview Portable Unit (PU) It is fixed to the patient during the test by an anatomic harness. The PU contains the O2 and CO2 analyzers, sampling pump, UHF transmitter, barometric sensors and electronics. It is powered by the rechargeable battery fixed to the back side of the harness. K4 b is also provided with a small display, the PU shows in real time the following parameters: VT, VE, VO2, VCO2, R, HR, Rf Marker, battery charge level, temperature and barometric pressure. USA and Japan versions have the antenna not detachable from the portable unit. Besides data processing and presentation, the Portable Unit has the following functions:
Patient data input Environment data input (humidity) Gas and turbine calibration (automatic) Memory functions Tests data management Data loading to a PC (via RS232) Telemetry Data Transmission, Receiver Unit (RU) The RU consists of a small unit connected to a PC through the RS 232 serial port. The transmission is achieved by a miniaturized transmitter module located inside the Portable Unit. The CU allows the simultaneously charge of the 3 Ni-Cd batteries and to supply the PU during the warm up time. Battery Charger Unit (CU) 20 - K4 b2 User Manual Flowmeter Gas analysers PC Software The system uses a bi-directional digital turbine. It opposes a very low resistance to flow
(<0,7 cmH2O/l/s to 12 l/s). The air passing through the helical conveyors, takes a spiral motion which causes the rotation of the turbine rotor. The rolling blade interrupts the infrared light beamed by the three diodes of the optoelectronic reader. Every interruption represents 1/6 turn of the rotor, this allows to measure the number of turn in the time. The O2 and CO2 analysers are temperature-controlled and the internal pressure and expired flow are monitored for an higher reliability if the measurements. The K4 b uses Nafion Permapure which is a semipermeable capillary tube capable of removing the humidity in excess without altering the gas concentrations.. The analysers calibration is automatic and shows both graphically and numerically the flow and concentration signals and the accuracy of the baseline/gain. The PC software, running on Windows, allows the user to manage data stored in the Portable Unit or transmitted to PC. Here following a list of the main features available:
Test data management. Viewing data in table and graphic form Automatic and manual detection of anaerobic threshold (modified V-slope method). On-line data presentation during tests. Advanced data elaboration (filtering, smoothing, built in spread-sheet features). O2 Kinetics (O2 deficit, O2 debt and time constant in both rising and falling edge of a constant load exercise test). Flow-Volume loops during the test and overlapped on the rest FVC. Real time display of the O2 and CO2 waveforms during the test. Control of any ergometer provided with a RS232 interface. Custom fittings (linear and exponential). Spirometry (FVC, VC, IVC, MVV). File exporting in three different formats (Lotus 123, Excel, ASCII). Automatic detection of the "Steady State". Adding parameters and predicted equations trough the "Formula Editor" tool-kit. DDE with Microsoft Excel. Customizing software environments (colours, printed parameters...). Help on line. Chapter 1 - Getting started - 21 Before starting Before operating the K4 b2 we strongly recommend to check the equipment and register you as a customer. Checking the packing contents Make sure that the package contains the items listed below. In case of missing or damaged parts, please contact Cosmed technical assistance. K4 b2 standard packaging sss Note:
a: Non telemetric version b: Internat. telemetric version c: USA telemetric version d: Japan telemetric version 1 Qty
(see note by side) Code C00950-01-04 C00952-01-04 C00952-02-04 C00949-01-04 C01599-01-04 C01599-02-04 C00260-01-04 C01570-01-06 C00342-01-12 C02120-01-05 C02200-01-11 A 800 900 001 C02210-01-08 C02125-01-10 C02135-01-10 C02145-01-10 A 661 200 001 A 661 200 002 A 182 320 001 C01460-01-06 A 362 060 001 C01507-01-12 C00659-01-12 A 410 110 002 C02100-01-06 C02100-02-06 C00341-01-12 C01577-01-12 C01929-01-08 C01143-01-98 C01800-01-05 C01509-01-30 C01588-01-20 A 680 023 500 A 680 044 500 C01790-01-36 C01999-02-DC C00067-02-94 C01508-02-91 Description K4 b2 Portable Unit K4 b2 Portable Unit K4 b2 Portable Unit K4 b2 Portable Unit K4 b2 Receiver Unit K4 b2 Receiver Unit K4 b2 Battery Charger Unit Antenna Antenna cable Turbine 28mm Kit optoelectronic reader K4 b2 Head cap for the adult masks Permapure L73cm
(version) a b c d 1 1 1 1 1 1 1 1 1 1 1 1 2 2 2 2 1 1 1 1 2 2 2 2 1 1 1 1 1 1 1 1 Mask mouth/nose breath adult S 1 1 1 1 Mask mouth/nose breath adult M 1 1 1 1 Mask mouth/nose breath adult L 1 1 1 1 1 1 1 1 2 2 2 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 4 4 4 3 3 3 3 2 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 2 2 2 2 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 HR elastic belt HR polar transmitter Anti moisture filter RH/TA probe Power cord Schuko 2m RS232 cable K4 b2 Cigar light adapter Battery size AA 1,5V Battery pack TX K4 b2 Battery pack TX K4 b2 Cable power supply BNCxRF Cable power supply RX unit Harness K4 b2 adult Velcro strips (set 8 pieces) Kit gas calibration Carrying case Holder Portable Unit Time lag fuses 5x20 250V T500mA Fuses 6,3x32 250V F5A PC software Conformity declaration Registration card K4 b2 User Manual 22 - K4 b2 User Manual Warranty registration Before using the system, please take a moment to fill in the registration form and the warranty and return them to COSMED, by doing this you are eligible to the customers assistance service. For further information, please refer to the enclosed registration and warranty form. If the form is not enclosed in the packaging, please contact directly COSMED. Register the product via software Together with the PC software, a registration software is supplied. With this software it is possible to fill in an electronic form with the customer information. 1. To run the software, double click on the icon Registration or select Registration from ? menu. 2. Type the requested information and click Send to send the form via e-mail to COSMED. How to contact COSMED For any information you may need, please contact the manufacturer directly at the following address:
COSMED S.r.l. Via dei Piani di Monte Savello, 37 P.O. Box n. 3 00040 - Pavona di Albano Rome - ITALY Voice: +39 (06) 931.5492 Fax: +39 (06) 931.4580 email: customersupport@cosmed.it Internet: http: //www.cosmed.it Complain, feedback and suggestions If you have any complain, feedback information or suggestion, please inform us at complain@cosmed.it. Chapter 1 - Getting started - 23 Options/Accessories Accessories Code C02150-01-11 C00600-01-11 C02115-01-10 C01278-01-30 C01277-01-30 A 800 900 004 Quantity Description 1 1 1 1 1 1 Adapter Spirometry kit x opto-reader 2000 3 liters syringe for flows and volume calibration Adult face mask with x Turbine 2000 Mask mouth/nose breath ID28 paediatric L Mask mouth/nose breath ID28 paediatric S Paediatric Headcap Telemetry data transmission The optional Telemetry data transmission allows the researcher to transmit data on line to a PC up to a distance of 800 meters. All signals are in real time transmitted via radio to the RU to be saved and displayed on-line to any PC. Spirometry Kit Optional software and accessories designed for performing screening Spirometry such as Forced Vital Capacity, Slow Vital Capacity, Maximum Voluntary Ventilation and broncho-challenge tests. Options 24 - K4 b2 User Manual PC configuration required 64 Mb RAM . Pentium II 350 MHz. Windows 98, XP. CD drive. VGA, SVGA monitor. Serial Port RS 232 available (2 serial ports in case of Ergometer control). An USB port can replace one RS232 serial port, if using the USB-RS232 adaptor (Cosmed code A 388 410 001). Any Mouse and Printer compatible with the MS Windows operative system. PC conform to European Directive 89/336 EMC Chapter 1 - Getting started - 25 Technical features Portable Unit Memory Display LCD Keyboard:
Serial Port Power supply:
Thermometer:
Barometer:
Dimensions PU :
Dimensions battery:
Weight:
Receiver Unit Transmission range:
Battery:
Dimension:
Weight:
PC interface:
16,000 breaths 2 lines x 16 characters waterproof, 6 keys RS 232C Ni-MH rechargeable batteries 3 hours endurance 0-50C 53-106 Kpa 170x55x100 mm, 120x20x80 mm 400g 800 meters 4 x 1.5 V AA 170 x 48 x 90 mm 550 g RS 232 Battery charger Unit Power supply Power consumption 120V - 240 V 25 W Flowmeter Type:
Flow Range:
Accuracy:
Resistance:
Ventilation Range:
Bidirectional digital turbine 28 mm 0,03-20 L/sec 2%
<0.7 cmH2O s/L @ 12 L/s 0-300 litres x min Oxygen Sensor (O2) Response time:
Range:
Accuracy:
<150 ms 7-24% O2 0.02% O2 Carbon Dioxide Sensor (CO2) Response time:
<150 ms 0-8%
Range:
Accuracy:
0.01%
Humidity absorber Capillary of Nafion (Permapure ) Power Supply Voltage:
Power consumption 100V-240V 10%; 50/60Hz 60W Environmental Sensors Temperature:
Barometer:
Humidity:
0-50C 400-800 mmHg 0-100%
26 - K4 b2 User Manual Measurements Pulmonary function tests and measured parameters Breath by Breath exercise testing UM ml/min ml/min l
l/min 1/min l
l/min l/min 1/min Symbol VO2 VCO2 Vt FetO2 FetCO2 R VE HR Qt AT VE SV RF FeO2, FeCO2 %
VE/VO2
VE/VCO2 VO2/HR ml/beat ml/min/Kg VO2/Kg sec Ti, Te, Ti/Ttot
Vd/Vt PaCO2 mmHg mmHg P(a-et)CO2 Parameter Oxygen Uptake Carbon Dioxide production Tidal Volume End Tidal O2 End Tidal CO2 Respiratory Quotient Ventilation Heart Rate Cardiac output Anaerobic Threshold Ventilation Stroke volume Respiratory Frequency Averaged expiratory concentration of O2 e CO ventilatory equivalent for O2 ventilatory equivalent for CO2 Oxygen pulse VO2 per Kg time breaths Vd/Vt ratio arterial PCO2 (estimated) Delta PaCO2 PetCO2 Indirect Calorimetry Symbol EE EE/BSA EE/Kg FAT CHO PRO FAT%
CHO%
PRO%
npRQ Lactate Threshold (V-Slope) Symbol VO2 @ LT R @ LT Time @ LT VCO2 VE 28 - K4 b2 User Manual UM Kcal/day Kcal/day/m2 Kcal/day/Kg Kcal/day Kcal/day Kcal/day
Parameter Energy Expenditure Energy Expenditure/Body surface area Energy Expenditure pro Kg Fats Carbohydrate Protein
% Fat
% Carbohydrate
% Protein Respiratory quotient not protein UM l/m
hh:mm:ss ml/min l/min Description Lactate (Anaerobic) Threshold STPD Respiratory Quotient @ LT Time @ LT CO2 output @ LT Ventilation @ LT STPD BTPS HR bpm Heart Rate @ LT O2 Kinetics Parameter O2 deficit O2 debt Calculation UM l/m VO2@work*tau l/m VO2'@work*tau Spirometry Tests (option) FVC - Forced Vital Capacity Parameter Forced Expiratory Vital Capacity Forced Expiratory Volume in 1 sec FEV1 as a percentage of FVC Forced Expiratory Volume in 0.5 sec Forced Expiratory Volume in 6 sec FEV1 as a percentage of FEV6 FEV6 as a percentage of FVC Best Forced Expiratory Vital Capacity Best Forced Expiratory Volume in 1 sec UM Symbol l FVC FEV1 l FEV1/FVC% %
l/sec Peak Expiratory Flow PEF l FEV0.5 l FEV6 FEV1/FEV6
FEV6/FVC% %
l Best FVC l Best FEV1 Best PEF l/sec Best Peak Expiratory Flow l/sec Expiratory Flow when 75% of the FVC remains to be exhaled Vmax25%
l/sec Expiratory Flow when 50% of the FVC remains to be exhaled Vmax50%
l/sec Expiratory Flow when 25% of the FVC remains to be exhaled Vmax75%
FEF25-75%
l/sec Mid-exp flow between 25-75%FVC sec FET100%
l FEV2 FEV3 l FEV2/FVC% %
FEV3/FVC% %
FEV1/VC%
FEF50-75%
l/sec Mid-exp flow between 50-75%FVC l/sec Mid-exp flow between 75-85%FVC FEF75-85%
l/sec Mid-exp flow between 0.2 l - 1.2 l FEF0.2-1.2%
FiVC L Inspiratory Forced Vital Capacity l/sec Forced mid-inspiratory flow FiF25-75%
l/sec Forced Inspiratory Volume in 1 sec FiV1 l/sec Peak Inspiratory Flow PIF VEXT ml msec Time to PEF (10% - 90%) PEFT Forced expiratory time Forced Expiratory Volume in 2 sec Forced Expiratory Volume in 3 sec FEV2 as a percentage of FVC FEV3 as a percentage of FVC Tiffenau index Extrapolated Volume (back extrapolation) VC/IVC - Slow Vital Capacity and Ventilatory pattern Symbol EVC IVC ERV IRV IC UM l l l l l Parameter Expiratory Vital Capacity Inspiratory Vital Capacity Expiratory Reserve Volume Inspiratory Reserve Volume Inspiratory Capacity Chapter 2 - Measurements - 29 VE Vt Rf Ti Te Ttot Ti/Ttot Vt/ti Tidal Volume l/min Expiratory Minute Ventilation l 1/min Respiratory Frequency sec Duration of Inspiration sec Duration of Expiration sec Duration of Total breathing cycle
l/sec Vt/ti ratio Ti/Ttot ratio MVV - Maximum Voluntary Ventilation Symbol MVV MVt MRf MVVt Parameter UM l/min Maximum Voluntary Ventilation l 1/min Maximum Respiratory frequency sec MVV duration time Tidal Volume (during MVV) Bronchoprovocation Response Parameter Fall in FEV1 from baseline or post diluent Fall in Vmax50% from baseline or post diluent Provocative dose causing FEV1 to fall 10% from baseline Provocative dose causing FEV1 to fall 15% from baseline Provocative dose causing FEV1 to fall 20% from baseline UM Symbol
FallFEV1 FallVmax50% %
P10 P15
P20
30 - K4 b2 User Manual Installation Installation sequence Before starting operating with the system make sure to meet the environmental and operational conditions reported in Chapter 1. Battery Charger Unit The Battery Charger Unit allows the following functions:
Charge 3 rechargeable batteries simultaneously. Charge batteries by means of the car lighter plug. Supply the K4 b2 Portable Unit directly by the main power. sss Warning: Before turning the Battery Charger Unit on, check the voltage switch selected meets your main voltage. Check voltage The Battery Charger Unit is provided with a switch that allows to change the voltage according to the following values:
115V 50-60 Hz (100V-120V) 220V 50-60 Hz (200V-240V) To change setting, move the switch on the new voltage by using a small screwdriver or a pen. Turn the Unit on 1. Connect the Charger Unit to the main plug. 2. Turn on the Unit by pressing the orange power switch. Charge the batteries 1. Insert the batteries into the places on the top of the unit as shown in the illustration below. 2. The small green LED placed on the front panel warns the charge in progress. The battery is charged when the light signal placed on the front panel of the Charger Unit starts blinking. Note: USA and Japan versions have not the antenna connector on the battery. 32 - K4 b2 User Manual Battery low It is recommended to charge batteries before each test. When the batteries are low the warning message is prompted on the PU by two beeps for an half charged battery and three beeps for a complete discharged battery. As soon as the message appears, you must change batteries immediately since the system has only few minutes of endurance still available. The system allows to change the battery during testing as well. During the test, it is possible to monitor the battery status in real time by selecting Information from View menu. The PU can be supplied either by the Charger Unit or by rechargeable batteries. It is recommended during Warm-up to supply it exclusively by the Charger Unit time in order to save the battery used normally during the test. The control panel of the Portable Unit is mainly composed by a keyboard, and 4 plugs for power supply, turbine, antenna, heart frequency and sampling tube connections. The following illustrations show in detail the control panel. Portable Unit A B C D E F Marker key Display Cancel key Enter key Scroll up/down key On/Off switch Note: USA and Japan versions have the antenna not detachable from the portable unit. Chapter 3 - Installation - 33 sss Important: In order to ensure accurate gas measurements, you must wait for a warming-up time before operating the K4 b. During this period the PU must be turned on for at least 45 minutes. sss Warning: Supply K4 b2 with Charger Unit for warming up only. Warm up The K4 b2 uses O2 and CO2 heated sensors. We strongly recommend at least 45 minutes warm-up time at an ambient temperature of 20C. More time is necessary if the environmental temperature is lower. Calibration or testing before warm-up time is completed, can cause wrong results. Warming-up the unit by main power 1. Connect the Charger Unit to the main power by the AC power cable. 2. Connect the power-supply cable both in the Charger Unit and K4 b2 as shown below and turn both the units on. Turning on/off the portable unit To turn the K4 b2 on or off press the on/off key. Connect the rechargeable battery Plug the power supply cable into the battery socket as shown in the following illustration. International telemetric version USA and Japan Telemetric version Sometimes you might need to change the battery during the test. To do this you must change the battery in the shorter time possible. The Portable Unit does not transmit data while it is not powered. Warning: During testing make sure to change the battery as fast as possible, since a long time could compromise the reliability of measurements. 34 - K4 b2 User Manual Receiver Unit Optionally the K4 b2 is provided with a transmitter board (located inside the K4 b2 unit) and a Receiver Unit to monitor "on-line" exercise tests performed either in the field or in the lab. All data measured by the K4 b2 are transmitted "breath by breath" to the Receiver Unit in real time. The RU (illustrated below) must be connected to a Personal Computer with any RS 232 serial port to display data "on-line" in the management software. The transmission range is 800 meters in open field. However during transmission the test is stored in the memory of the K4 b2 Unit so that, in case of transmission interference no data is lost. Turning on/off the receiver unit To turn the receiver unit on or off use the switch on the front side of the unit. Receiver unit power supply The K4 b2 Receiver Unit is provided with four 1.5 V AA batteries. Before turning the unit on be sure that batteries are charged. If the status battery indicator blinks red you must replace the 4 batteries. The unit can be also supplied by 6V DC power through the cable provided in the equipment. The receiver unit can be supplied by two different sources:
by the Battery Charger Unit: connect the units by the 6V DC cable. by 4 AA 1,5V batteries. Calibration Gas Cylinder In order to calibrate the sensors you need to have available calibration cylinder with the following gas concentration:
Recommended Gas mixture O2 16%, CO2 5%, N2 Balance Cylinder Calibration For the calibration procedure, see the Calibration chapter. Chapter 3 - Installation - 35 Connecting the K4 b2 to the patient K4 b2 is a portable system with a total weight lower than 1 kg. Cosmed has developed a special harness to fix the unit to any subject. The harness consists of a belt that can be adjusted to fit different sizes and positions. I.e. if you need to test cyclist or rower athletes we recommend to locate both units (K4 b2 and battery) on the back of the subject to increase comfort and to avoid any obstacles during movements. For this reasons plates are provided with the harness and they can be easily removed and placed in different positions. Assemble the mask and the flowmeter K4 b is provided with a turbine flowmeter that can be easily disassembled for allowing cleaning and disinfection. 1. Plug the turbine in the mask adapter by pushing and rotating it clock-wise till you feel a stop. Insert the optoelectronic reader over the turbine and press it till the mask. 2. 3. Plug the wind cover as described in point 1. 4. Plug the sampling tube in the little hole located in the optoelectronic-electronic reader. 5. Plug the turbine cable in the Turbine plug control panel of the K4 b2. sss Notice: In order to preserve items composing the mask, it's recommended to grease periodically O-rings in the optoelectronic reader with Silicone compound grease. Using the "Ultimate Seal"
The "ultimate seal" is a moulded of Elasto-Gel, a glycerine based hydrogel. This product is a unique polymer gel that forms an intimate seal between the face and the mask. It has to be used for mask applications on hard to seal faces and where leaks are not tolerated. Will not irritate the skin Contains no adhesives. Has no odour Will not dry out Single patient use 36 - K4 b2 User Manual Apply the seal to the mask Apply seal to clean, residue-free mask only and follow the instructions below:
1. Remove the plastic tray from the bag. Peel off clear film and retain for later use. 2. While holding tray align the nose area of mask to nose area of Ultimate Seal gel. Press together and roll mask down over the surface of the gel seal attaching it to the mask and releasing it from the tray. If needed, adjust the position of the seal, aligning it with the outer perimeter of the mask sealing surface. 3. 4. The mask is now ready to be placed on the subject's face. To remove seal on mask The Ultimate Seal have been conceived for a single patient use only, it can not be cleaned or sterilised. If mask requires cleaning for a new patient application then pull off and dispose of the Ultimate Seal. To keep the seal clean between use, keep it attached to the mask and place the clear film against the Ultimate Seal gel on the mask. When the seal becomes discoloured or opaque (approximately two weeks) dispose of the current seal and replace it with a new one. sss Notice: Avoid the exposure to the sun. Do not put the seal into the water. Assembling the flowmeter for spirometry tests In case the spirometry kit option is purchased assemble the turbine as shown in the illustration below. Chapter 3 - Installation - 37 Fixing the K4 b2 to the patient 1. Fix the heart belt to the patients box thorax. 2. Fix the K4 b2 unit to the front of the harness. Do the same operation with the battery on the back . 3. Connect the battery cable to the 6V plug of the K4 b2 control panel. Be sure that the red plug, that repairs the plug from water or sweat drops, is on the Portable Unit side. 4. Connect the antenna cable to the Antenna plug of Portable Unit control panel. 5. Insert the heart frequency receiver and temperature probe cable in the HR-Temp plug placed on the control panel. Insert the male connector of the turbine in the Turbine plug on the control panel. 6. 7. Fix the power supply cables, antenna and turbine on the right side of the jacket with the velcro stripes provided in the equipment. Fix the heart frequency probe on the left side. sss Notice: Be sure to fix the Heart rate probe on the left side, while the other cables have to be fixed on the right side. This must be done for avoiding interferences between cables. sss Notice: Fix all cables with the velcro strips provided with the equipment. 38 - K4 b2 User Manual Note: USA and Japan versions differ from the picture because of the antenna placement. Connecting the K4 b2 to the PC K4 b2 can be connected to any PC provided with serial port in order to monitor "on-
line" physiological data during any kind of activity. Connect the Portable Unit to the PC Connect the K4 b2 Portable Unit to a serial port available in the PC. Be sure to set the K4 b2 software to the proper serial port for the transmission. Connect the Receiver Unit to the PC Connect the telemetry module to a serial port available in the PC. Be sure to set the K4 b2 software to the proper serial port for the transmission. Chapter 3 - Installation - 39 Software installation The software is made of two programs: one for the ergometry and the other one for the spirometry (option). The two programs share the same archive and use the same program for the system calibration, even if they are used for performing completely different tests. Installing the software sss Notice: The software is copy-protected. Install the software from the original disk. Insert the disk in the proper drive. In the Command line, type <name of the drive>:\install. 1. Select Run... from Windows Start menu. 2. 3. 4. Click on OK (or press ENTER key). 5. The program will load up a dialog box and ask for a directory where to be installed. 6. When the installation is over, the program will advise you with a message indicating that the installation has been successfully completed, click on End. Note: the directory for the Spiro software must be the same of the K4 b2 (ergo). Run the software 1. In the Windows Start menu, open the Program Group in which the software was installed. 2. Click the K4 b2 icon. PC port configuration The first time the software is used, it is necessary to configure the communication port with the PC (USB, COM1, COM2,). For further details, see the chapter Database management. 40 - K4 b2 User Manual Software main features Display Tool bar Dialog windows Scroll bars On line help Software version The program may contain several windows. The active window is highlighted with a different colour of the caption. Some functions of the program are "active window"
sensitive (Print, right key of the mouse). Many of the functions that may be selected from the menu can be activated more rapidly by clicking with the mouse on the corresponding icon in the tool bar. Positioning the mouse cursor on one of the buttons of the toolbar (if the option Hints is enabled), the description of the corresponding function is shown in a label. Show/hide the toolbar Select Toolbar from Options menu in order to show or hide the toolbar. The typical operating environment of Microsoft Windows is the Dialog box. This window is provided with a series of fields in which input the information. Use of the keyboard To move the cursor among fields, press the Tab key until you reach the desired field. Press the Enter key to confirm the information input on the dialog box or press the Esc key to cancel changes. Use of the mouse To move the cursor among fields, move the mouse on the desired field and left-
click. Click on the OK button with the Left button of the mouse to confirm the information input on the dialog box or click on Cancel button to cancel changes. Some windows are provided with scroll bars that help to see data exceeding the window space available. To move the scroll bar row by row click the scroll arrows at the end of the scroll bars To move the scroll bar page by page click on the grey area at both sides of the scroll fields COSMED K4 b2 Help is a complete on-line reference tool that you can use at any time. Help is especially useful when you need information quickly or when the user manual is not available. Help contains a description of each command and dialog box, and explains many procedures for accomplishing common tasks. To get the Help on line, press the F1 key. To know the software version and the serial number of the software, select About from ? menu. Chapter 3 - Installation - 41 42 - K4 b2 User Manual Calibration Gas calibration procedures The system can be calibrated according to the following procedures:
1. Room air calibration 2. Reference gas calibration 3. Delay calibration 4. Turbine calibration The Room air calibration, forced by the system before every test, consists of a sampling room air. It updates the baseline of the CO2 analyzer and the gain of the O2 analyzer, in order to match the readings with the predicted athmospheric values (20.93% for O2 and 0.03% for CO2). The Reference gas calibration, recommended to be carried out daily, consists of sampling a gas with a known composition (i.e. 16.00% for O2 and 5.00% for CO2) from a calibration cylinder, and updating the baseline and the gain (span) of the analyzers in order to match the readings with the predicted values (i.e. 16.00% for O2 and 5.00% for CO2). The Delay calibration, recommended to be carried out ones a week or whenever the sampling line is replaced, is necessary to measure accurately the time necessary for the gas sample to pass through the sampling line before being analyzed. The Turbine calibration, recommended to be carried out quarterly, consists in measuring the volume of a 3 litres calibration syringe and in updating the gain of the flowmeter in order to match the predicted value. Running the Calibration program Start the program and choose Calibration from the Test Menu. The software runs the Calibration software and the main menu changes accordingly. Log file The program creates and updates as default the calibration log file, containing the conditions and the results of all the calibrations performed by the user. To access the file select File/Report File... from the calibration program. Setting reference values Before starting calibrating make sure that the system has been configured correctly by setting the right values of gas concentration of: room air (i.e. 20.95% O2 and 0.03%
CO2), of gas mixture contained in the cylinders and the volume of the calibration syringe (i.e. 3 litres). Set the reference values using the PC software This operation must be performed only the first time. The next times, the system keeps stored the reference values entered in this step. 1. Select Reference Values from the Calibration menu. 2. Type the correct values for the O2 and CO2 room air concentration (i.e. 2093 for 20.93%), and do the same for the gas concentration of the calibration cylinder. 3. Type the volume of the calibration syringe (i.e. 3000 for a 3 litres calibration syringe). 4. Press OK button to confirm changes. 44 - K4 b2 User Manual Set the reference values using the Portable Unit To set reference values from the K4 b2 Portable Unit go to the main menu, choose Calibration and scroll tasks up to choose Set Cal. Predicted Values, type the values using the arrow keys and press Enter to confirm changes. Room air calibration sss Note: After turning on the unit, wait 45 minutes warm up time before starting the calibration procedure. Room Air calibration is forced to be performed before each test. With this procedure the system calibrates both gas analyzers according to the Room Air Concentrations
(20.95% O2 and 0.03% for CO2). You can run this procedure either with the software or directly with the Portable Unit. Room air calibration using the PC software 1. Connect the Portable Unit to the PC by the serial port. Remove the sampling plug from the flowmeter. 2. Run the calibration program and choose Room air from the Calibration menu. 3. The message "Room air calibration in progress..." will appear and a graph will show in real time the O2 and CO2 calibration. At the end of the manoeuvre the message "Calibration done" will be visualized. 4. The following dialogue box will appear showing the calibration results, press OK to confirm the calibration. sss Important: During calibration always remove the sampling tube from the optoelectronic reader. Do not remove the sampling tube from the Portable Unit otherwise calibration could be affected. sss Caution: During Room Air calibration be sure to put the sampling line far from the expired gas otherwise calibration could be affected. sss Caution: Room Air calibration performed in small ambients
(high concentration of CO2) affects the calibration results and the accuracy of the following test. Room air calibration using the Portable Unit 1. Remove the sampling plug from the flowmeter. 2. In the main menu choose Calibration menu, choose Room Air Calibration and confirm by pressing Enter. 3. The procedure is automatically performed until the message "Calibration done"
appears, the O2 and CO2 values will be visualized on the display. Reference gas calibration sss Notice: Do not use mixtures with a O2 concentration above 24% since it is out of the oxygen sensor range The software allows to automatically calibrate zero, gain and alignments of the gases sensors. Even if the program doesn't force you to carry out the calibration, the system should be calibrated before each test. To perform the sensor calibration is necessary to Chapter 4 - Calibration - 45 have available a cylinder filled of a concentration known of mixed gas. It is suggested to use CO2 5,00% , O2 16% concentrations and N2 for balance. The calibration unit The gas regulator has an adjustable second stage that must be open every time the cylinder is used for the calibration. This is necessary to avoid a small leakage in the connections can discharge the bottle in few time. 1. Make sure you wait for warm-up time before starting calibrating. Be sure the high-
pressure tube supplied together with the system is connected to the "Cylinder" plug. 2. Open the cylinder valve by turning the valve counter-clockwise, the pressure value must be set within a range of 300-500 Kpa (3-5 bars or 44-73 Psi). After these operation, please operate as follows. Reference gas calibration using the PC software 1. Connect the K4 b2 unit to the PC by the serial port. Remove the sampling plug from the optoelectronic reader. 2. Run the calibration program and choose Gas from the Calibration menu. 3. The message "Gas calibration in progress..." will appear and a graph will show in real time the O2 and CO2 calibration. The software runs first the Room Air calibration, so do not connect the sample plug to cylinder output until the message
"Sample reference gas..." will be displayed. At the end of the procedure the message "Calibration done" will be visualized. 4. The dialogue box showing the calibration results will appear, press OK to confirm the calibration. Reference gas calibration using the Portable Unit 1. Remove the sampling plug from the flowmeter. 2. In the main menu choose Calibration menu, choose Refernce gas calibration and confirm by pressing Enter. 3. The K4 b2 runs first the Room Air calibration, so do not connect the sample plug to cylinder output until the message " Sample reference gas..." will be displayed. At the end of the procedure the message "Calibration done" will be visualized. sss Notice: Before calibrating be sure the "Reference values"
of room air and reference gas are properly entered. sss Caution: Be sure that the cylinder pressure out is regulated to 3 and 5 bar. sss Notice: If the pressure regulator is set at a different pressure from what specified, room air could be mixed together with reference gas and the calibration could be affected. sss Notice: Before calibrating be sure the "Reference values"
of room air and reference gas are properly entered. 46 - K4 b2 User Manual Gas delay calibration The delay calibration procedure is a calibration included in the software due the time alignment between flow and gas concentration measurements is one of the potential problems to consider to assure accurate readings during test. The gas delay calibration is the measurement of time required by the gas to reach the gas analyzer. For "breath by breath" analysis it is essential that the instantaneous flow rate must be multiplied by the proper time-matched expired gas concentration. Although flow can be instantaneously measured, gas concentration measurements can be calculated with a delay related both to the time necessary for the gas to be transported to the sensor and to intrinsic characteristics of the analyzer principle. Two factors contribute to the time alignments delay. K4 b2 uses a capillary sampling tube with a pump to draw a continuous gas sample into the analyzers. The gas transport time depends on the dimensions of the tube and on the pump flow rate. Additionally the gas sensors have a response time that must be added to the above delay for calculating the total delay. The software of the K4 b2 by carrying out the Gas Delay procedure calculates this delay and introduces a correction to realign both flow and gas measurements. This procedure must be carried out each time some changes occur in the sampling system, i.e. when the sampling tube is changed. However it is recommended to carry out this calibration each week in order to prevent wrongs measurements. Delay calibration using the PC software 1. Connect the K4 b2 unit to the PC by the serial port. Remove the sampling plug from the optoelectronic reader. 2. Run the calibration program and choose Delay from the Calibration menu. 3. The message "Gas calibration in progress..." will appear and a graph will show in real time the O2 and CO2 calibration. The software first runs the Room Air calibration. At the end of the Room Air calibration the following message appears. 4. Connect the sampling tube to the optoelectronic reader and press OK button to start breathing at a constant rate. 5. The software helps to maintain a constant rate by means of a beep sound. It is not important to maintain the same rate suggested by the system but it is very important to breath constantly. 6. Continue breathing some cycles until the message "Calibration done" appears. The software open a dialogue box with the new calibration factors and the new delay value. Press OK to confirm the calibration. Delay calibration using the Portable Unit 1. On the main menu scroll the commands, choose Calibration and press Enter to confirm the choice. 2. Choose O2/CO2 delay calibration and press Enter to confirm. 3. The following message appears, and the software automatically run the Room air Calibration. Chapter 4 - Calibration - 47 4. When the message Connect the sampling line and press Enter appears press Enter and start breathing at a constant rate. The software helps to maintain a constant rate by means of a beep sound. It is not important to maintain the same rate suggested by the system but it is most important to breath constantly. 5. After some cycles a message will appear confirming the delay calibration and the new values will be shown on the display. Press Cancel to return to the previous menu. Print the calibration report In the Calibration program choose Print from the File menu. Edit the calibration factors The last sensors calibration factors can be either edited or viewed. To do this choose Gas Results from the File menu. To view or edit the last Turbine calibration factor choose Turbine results from the File menu. Note: To restore factory setting press Default button in the dialog box. Once you press the default button you must run a new calibration before testing. 48 - K4 b2 User Manual Turbine calibration The system uses a turbine flowmeter. It opposes a very low resistance to flow. The air passing through the helical conveyors, takes a spiral motion which causes the rotation of the turbine rotor. The rolling blade interrupts the infrared light beamed by the three diodes of the optoelectronic reader. Every interruption represents 1/6 turn of the rotor, this allows to measure the number of turn in the time. There is a constant ratio between air passing through the turbine and number of turns. This allows an accurate measure of flows and volume. The turbine flowmeter doesn't need daily calibrations as it is not affected by pressure, humidity and temperature. To work properly, the turbine only requires the rotor to rotate freely without any friction that might be caused by dust that can be easily avoided with an ordinary cleaning procedure (see Maintenance). However in order to ensure accuracy it's recommended to run periodically the calibration procedure. Calibration has to be carried out with a calibration syringe of 3 litres volume, the calibration procedure is totally managed by software. A measurement system should be calibrated daily in order to ensure maximum accuracy and reliable test results. If a correct maintenance is provided its possible to check the calibration of the turbine flowmeter even at relatively long intervals (i.e. 1 month). The calibration procedure assures valid and verifiable results within a 3% accuracy. Assembling the flowmeter for calibration 1. Connect the Opto-reader to the calibration syringe through the adapter. 2. Connect the flowmeter to the syringe with the rubber cylinder supplied in the standard packaging. Note: If a bacterial filter is used for the tests, do use it also during the turbine calibration. Calibrating the turbine sss Note: If you are using a slow PC, we recommend to set an higher refresh time. Turbine calibration using the PC software After having run the calibration program:
1. Select Reference Values from the File menu. If your syringe has a different value from the default one (3 litres), please enter the correct value. 2. Select Calibration/Turbine. 3. When the Calibration Turbine dialog box appears with the syringe piston initially pushed all the way in, move the piston in and out for 5 inspiratory strokes and 5 Chapter 4 - Calibration - 49 expiratory strokes in order to get the first values appearing on the display. Then move the syringe piston for other 10 strokes (IN and EX). 4. At each of the 10 steps the software displays the results of the manoeuvre and the percentage error in the reading. 5. At the end of this operation, the software displays the new calibration factors. Press OK to store the new value. Turbine calibration using the Portable Unit 1. Screw up the adapter for the calibration syringe to the optoelectronic reader. 2. Connect the optoelectronic reader to the calibration syringe. Before starting the calibration be sure to have inserted the right reference value for the syringe. To check it, select Volume Syringe from the Set predicted value menu. 3. Then choose Calibration from the main menu and press Enter. 4. Scroll the menu, choose Turbine Calibration and press Enter. 5. Start moving the syringe till the message "Operate syringe" will disappear on the display. The display will show expired (E) and inspired (I) readings for each stroke. 6. When the display visualizes the message "Calibration done" the Turbine has been calibrated, press Cancel to return to the main menu, the new calibration factor will be automatically stored. 50 - K4 b2 User Manual Checking the system signals The control panel The Control Panel, which can be activated from the Calibration/Control panel menu item, is a useful tool to check the main hardware functions of K4 b2. By using the controls on Control Panel you are able to do the following:
1. Reading the signals acquired by the system both as voltages and processed data;
2. Activating/Disactivating the valves, the sampling pump and other installed components (for example, oxymeter). Using the control panel mV / real values display Flowmeter on/off Buzzer on/off Select all channels Deselect all channels Signal refresh time edit parameters
(name, unit,) Sampling pump on/off Transmitter on/off Digital CO2 trimmer Chapter 4 - Calibration - 51 52 - K4 b2 User Manual Operating modes K4 b2 Operating modes K4 b2 is a versatile system. You can use it in the field or in the lab without any kind of limitation. Test can be carried out in the following three different configuration:
Holter Data Recorder Telemetry Data Transmission Laboratory Station Holter Data Recorder Using the system in the field without the Receiver unit you can store data "breath by breath" in high capacity memory (1 MB). The memory allows to store up to 16 thousands breaths, when the test is completed, the results can be downloaded to the PC via the RS 232 port provided with the equipment. Telemetry Data Transmission (option) In case the telemetry Data Transmission module is available, the K4 b2 portable unit provided with a small transmitter that allows to send data by telemetry up to a distance of 800 meters. All data are transmitted "breath by breath" to the receiver unit. The Receiver Unit must be connected to a PC by serial port, it allows the resercher to monitor data on line both in table and graphic format. Anyway tests are stored in the memory of the portable unit, thus in case of transmission interferences no data are lost. By using the system with a PC the software K4 b2 can also control and synchronise ergometers by using user defined exercise protocol. Serial (Laboratory) Station Although K4 b2 has been designed for tests in the field, it can also be used as a conventional laboratory station as it offers the same features of the best stand alone devices. Under this operating mode the K4 b2 Portable Unit is simply connected to the PC through the RS232 serial port and all tasks, exactly like any conventional laboratory device. Anyway tests are stored on the memory of the portable unit as well. 54 - K4 b2 User Manual Portable Unit User Interface diagram Chapter 5 - Operating modes - 55 Holter Data Recorder Mode It is ideal operating modes if you need to test a patient difficult to monitor by Telemetry
(i.e. climbing, long distances races, etc). The memory capacity of the K4 b2 is able to store data up to 16 thousands breaths. The system saves data for each breath, hence time storing capacity depends on the respiratory frequency. 1. Mask + flowmeter 2. Heart rate belt 3. Rechargeable battery 4. Harness 5. K4 b2 Unit 6. HR probe 7. Power cable sss Note: USA and Japan versions have the items 3 and 5 slightly different because of the antenna placement. Operating sequence Warming-up the system Warm-up the K4 b2 for 45 minutes before testing or calibrating. Enter new patient 1. Connect K4 b2 to the subject. 2. Go to the K4 b2 control panel and choose Patient's data from Test menu. 3. Move the cursor among fields with the Enter key and use the Up and Down keys to modify values. The fields are shown in the following order:
A:
H:
patient ID age in years height (cm or inch) W: weight (kg or Lbs) 4. The HR Max is automatically calculated by the formula 220-age, however it can be also changed according to physician experience and patient medical history. By confirming the HR rate value all the patient data are automatically saved. S:
HR: HR max sex (M or F) Calibrate and start the test 1. Remove the sampling plug from the mask and put the tube far from expired gas concentrations. 2. On the Patient's Data menu scroll down the menu and select Start Test from the main menu and press Enter to confirm. 56 - K4 b2 User Manual 3. The message "Insert relative humidity" will be visualized, type the correct value and press Enter. 4. The K4 b2 runs automatically the Room Air calibration. The message "Do not breath near the sampling line" appears. Wait for few seconds until the message
"Calibration done" will appear together with a double beep sound. 5. Connect the sampling plug to the optoelectronic reader. Some values (Heart Rate, R, VO2, VCO2,...) will be shown and updated each breath on the control panel display. The message "Press Enter to start the test" will be displayed each 10 secs. You can switch to different values by moving the Up and Down key. 6. After having pressed the Enter key the test starts but the K4b2 is not storing data. In this phase the PU is checking the main parameters and you can visualize it on the PU display by the time is blinking. 7. To start storing data press another time the Enter key. You can check the storing phase because the time parameter don't blink anymore. Stop the test To stop the test press Cancel. The message "Press enter to stop test" will appear, press Enter to stop the test. Transferring test to PC Once the test is concluded you may download all data stored in the K4 b2 to the management software. 1. Turn the K4 b2 on. 2. Connect the K4 b2 to the PC by the serial cable enclosed in the equipment. 3. Run the K4 b2 software and choose Receive Test from the Test menu. 4. To download a test you must link it to an existing patient file. Choose Find and then List to select an existing patient. If the patient is new than select Find and then New, fill in the fields and press OK to confirm. 5. Select the test to link by using First, Previous, Next and Last buttons and press Download to confirm your choice and to store the test on the Hard Disk. You can use the Preview button to see some data and graph of the test in order to find out the proper one. Chapter 5 - Operating modes - 57 Telemetry Data Transmission Mode sss Note: USA and Japan versions have the items 3 and 5 slightly different because of the antenna placement. In case you need to monitor in real time the test you can use the Telemetry Data Transmission module that is provided by COSMED as an option. The transmission range can reach 800 m allowing to monitor exercise testing in the field. To use this option you need a personal computer to connect the receiver unit. 1. Mask + flowmeter 2. Heart rate belt 3. Rechargeable battery + antenna 4. Harness 5. K4 b2 Unit 6. HR probe 7. Power cable + antenna 8. Receiver unit 9. RS232 cable 10. Personal computer Operating sequence Warming-up the system Warm-up the K4 b2 for 45 minutes before testing or calibrating. Connect the receiver unit to the PC Connect the receiver unit to PC with the serial cable provided in the standard packaging. Enable transmission 1. Go to the K4 b2 control panel, verify that transmission is enabled by choosing Settings /On/Off Transmitter and press Enter. 2. Enable the transmission by moving the "*" sign on Transmit. On and press Enter to confirm settings. Enter new patient 1. Connect K4 b2 to the subject. 2. Go to the K4 b2 control panel and choose Patient's data from Test menu. 3. Move the cursor among fields with the Enter key and use the Up and Down keys to modify values. The fields are shown in the following order:
A:
H:
patient ID age in years height (cm or inch) W: weight (kg or Lbs) S:
HR: HR max sex (M or F) 58 - K4 b2 User Manual 4. The HR Max is automatically calculated by the formula 220-age, however it can be also changed according to physician experience and patient medical history. By confirming the HR rate value all the patient data are automatically saved. Enable reception on PC 1. Run K4 b2 software. 2. Open patient data dialog box, select or type a new name and press OK to confirm. The name of the selected patient will appear in the status bar of the software. 3. Choose Execute test from the Test menu. 4. Type the patient information, select a protocol from the list and an ergometer if you are going to carry out a test with an ergometer. 5. Chose Other Data if you want to insert other important informationon the the you are going to perform. 6. Select the workspace you would like to see during the test (it can be also changed during test), check the option box Telemetry to enable software receiving of data and press OK to confirm. The software will show blank windows waiting for the first breath. Calibrate and start the test 1. Remove the sampling plug from the mask and put the tube far from expired gas concentrations. 2. On the Patient's Data menu scroll down the menu and select Start Test from the main menu and press Enter to confirm.. 3. The message "Insert relative humidity" will be visualized, type the correct value and press Enter. 4. The K4 b2 runs automatically the Room Air calibration. The message "Do not breath near the sampling line" appears. Wait for few seconds until the message
"Calibration done" will appear together with a double beep sound. Chapter 5 - Operating modes - 59 5. Connect the sampling plug to the optoelectronic reader. Some values (Heart Rate, R, VO2, VCO2,...) will be shown and updated each breath on the control panel display. The message "Press Enter to start the test" will be displayed each 10 secs. You can switch to different values by moving the Up and Down key. 6. After having pressed the Enter key the test starts but the K4b2 is not storing data. In this phase the PU is checking the main parameters and you can visualize it on the PU display by the time is blinking. 7. To start storing data press another time the Enter key. You can check the storing phase because the time parameter don't blink anymore. Stop the test To stop the test press Cancel. The message "Press enter to stop test" will appear, press Enter to stop the test. Transferring test to PC If some interferences should occur during test execution by telemetry, some breaths could be lost. The software shows a message on the status bar warning that some steps missed . Since K4 b2 stores every time the complete test in the memory, it is possible to download the test later to the management software to recover all lost data. 1. Turn the K4 b2 on. 2. Connect the K4 b2 to the PC by the serial cable enclosed in the equipment. 3. Run the K4 b2 software and choose Receive Test from the Test menu. 4. To download a test you must link it to an existing patient file. Choose Find and then List to select an existing patient. If the patient is new than select Find and then New, fill in the fields and press OK to confirm. 5. Select the test to link by using First, Previous, Next and Last buttons and press Download to confirm your choice and to store the test on the Hard Disk. You can use the Preview button to see some data and graph of the test in order to find out the proper one. 60 - K4 b2 User Manual Serial Mode sss Note: USA and Japan versions have the items 3 and 5 slightly different because of the antenna placement. When the K4 b2 is used in the serial mode the system works exactly as any other conventional laboratory station. In this mode the software controls completely the K4 b2 portable unit so that any command such as calibration can be run by the software. You can also drive an ergometer if a second serial port is available in the PC. 1. Mask + flowmeter 2. Heart rate belt 3. Rechargeable battery 4. Harness 5. K4 b2 Unit 6. HR probe 7. Power cable 8. Receiver unit 9. RS232 cable 10. Personal computer Operating sequence Warming-up the system Warm-up the K4 b2 for 45 minutes before testing or calibrating. Connect the Portable unit to the PC 1. Connect K4 b2 to the PC by the serial cable 2. Check that the Serial Port is properly selected by choosing RS 232 from the Option menu. 3. Check the Ergometer connected to PC option box if you intend to use an ergometer for testing. Calibrate the system 1. Run the K4 b2 software and choose Calibration from the Test menu. 2. In the Calibration software select Analyzers -> Room Air from the Calibration menu. Enter patient data 1. In the K4 b2 software and choose Patient from the File menu. 2. Select a patient from the list or press New to enter a new name and press OK to confirm. Chapter 5 - Operating modes - 61 Start the test 1. Open patient data dialogue box, select or type a new name and press OK to confirm. The name of the selected patient will appear in the status bar of the software. 2. Choose Execute test from the Test menu. 3. Type the patient information, select a protocol from the list and an ergometer if you are going to carry out a test with an ergometer. 4. Chose Other Data if you want to insert other important informationon the the you are going to perform. 5. Select the workspace you would like to see during the test (it can be also changed during test) and be sure that option box Telemetry is disabled since the transmission will be done by serial cable. Press OK button to start acquisition. 6. The software displays the data according to the selected workspace. Check some breaths and press F2 to start testing. Stop the test To end the test press F3, press OK in the following dialogue box to confirm the end of the test. All data will be automatically saved on the Hard disk. Anyway test is stored on the memory of the portable unit as well. 62 - K4 b2 User Manual Database Management Exercise testing patient's database The exercise testing software uses a different interface for presenting patient information. The patient database allows to:
Enter a new patient Find patient data Edit patient data Delete patient data. Select Patients from the File menu. Enter a new patient 1. Press New to show the Patient dialog box. 2. Enter data of a new patient and press OK button to confirm. Find a patient Enter a search string into the Find field and press Find to view the data concerning a subject already in the database. You can search for Last name, ID code or Progressive. Or:
Press List to view the list of patients in the database. Press Next or Previous to view the data corresponding to the next or to the last patient. Press OK to confirm. The Next and Previous buttons allow to move to the next or the previous patient in the database. Edit patient data Delete a patient 1. Select the patient. 2. Press Modify in order to edit the patients data. 3. Edit the desired values and press OK to confirm. 1. Select the patient to be deleted. 2. Press Delete. 64 - K4 b2 User Manual Uploading tests from the Portable Unit In telemetry and holter function you could need to upload data from the portable unit via serial port. 1. Link up the PU to the PC with the RS232 cable supplied. 2. Turn on the Portable Unit. 3. Choose Receive Test from Test menu or press Alt F2. 4. To be downloaded the test must be linked to a patient. If the current patient has already been inserted in the database, choose Find and then List select the patient and confirm. If the current patient doesn't belong to the archive he must be inserted, select Find and then New, fill in the fields and confirm. Now the download function is available and the test will be filed on the PC. 5. Choose the test to link with the First, Previous, Next and Last buttons and press Download. 6. A status bar will show the data acquisition in progress. At the end a message will indicate the end of data reception. Chapter 6 - Database Management - 65 Archive maintenance The software allows to manage files selecting Archive from the File menu. It is advisable to perform the archive reorganisation every month, in order to free space on the hard disk and/or to correct possible errors present within the database. It is possible also that your have no more hard disk space. So, you have to delete all the data. In this case, it is useful to perform the initialising. Reorganise the archive 1. Select Reorganize archive from the File menu. 2. Wait for the end of the operation before performing any other function. Delete the archive Delete a test Backup and restore 1. Select Initialize Archive from the File menu. 2. Wait for the end of the operation before performing any other function. To delete an ergometry test, select Test/Delete test. To delete a spirometry test, press the proper button in the Test Card. It is strongly recommended to backup files, a warning message will be displayed monthly. This function allows the user to restore the data if the PC or the HD will not work anymore. Backup 1. Select Backup archive from the File menu. 2. Selecting the destination path with the Browse key or press New to create a new 3. directory. Press OK to confirm. In the dialog box it will appear an estimate of the number of floppy disks you need in order to back up the archives. Press OK. Restore 1. Select Restore archive from the File menu. 2. On the Restore dialog box specify the drive source and press OK, a dialog box will appear indicating all data of the backup processed. 66 - K4 b2 User Manual Spirometry patient's database The Patients database consists of a Patient Card, a Visit Card and a Test Card in which are listed all tests performed by the patient. Select Archive Navigator from the File menu or press the button by side. Patient Card It collects all the information of a patient (first name, last name, date of birth) which remain the same for each visit. For each patient there is only one Patient Card, which is created the first time the Patient performs a test. To move within the database use the following buttons:
sss Note: after having deleted a record (patient, visit or test), it is recommended to reorganize the archive in order to free disk space. Move to the first patient in the archive Move to the previous patient in the archive Move to the next patient in the archive Move to the last patient in the archive Find a patient in the archive Enter a new patient in the archive Delete current patient from the archive Edit the current patient card Visit Card It collects all information relative to the visit (diagnosis, visit description...) and to the patient information subject to change between one visit and another (height, weight, smoke). Each patient can be related to several Visit Cards provided they have been created in different days. Before carrying out any spirometric test it is necessary to create a new Visit Card or to open the todays Visit Card. To move within the database use the following buttons:
Move to the first visit in the archive Move to the previous visit in the archive Move to the next visit in the archive Move to the last visit in the archive Find a visit in the archive Chapter 6 - Database Management - 67 Enter a new visit card in the archive Delete current visit card from the archive Edit the current visit card Test Card It contains all the information about the test. To move within the database use the following buttons:
Delete current test from the archive. Edit the current test Import/export a Tests card This function allows to import /export a test card with the respective visit and patient card. 1. Select the patient. 2. Choose the test and press the key by side. All data will be imported/exported in the XPO file format (Cosmed proprietary). Diagnosis Database The program allows to manage a diagnosis database, whose records are composed by a diagnosis ID code and a string of text. The report of the visits can be done either by typing the desired text in the field Diagnosis of the Visit Card or, more quickly, retrieving from the diagnosis database the desired one. If you want to insert, modify or delete a diagnosis from the database select Database Diagnosis... from the File menu. 68 - K4 b2 User Manual Spirometry program settings The software allows to configure some options selecting Configure from the Option menu. Graphs All the graphs visualised and/or printed can be customised in colours and appearance. 1. Select the desired colours of the curves (5 curves max can be overlapped on the same graph). 2. Enable or disable the Grid option. 3. Enable or disable the Show Info Test option. Serial port You must select the serial port RS 232 that will be used to connect the Quark b2 with the PC. To select the serial port, click on the proper COM button (the selected port must be different from the mouse one). Units of measurements It is possible to configure the units of measurements, weight and height, for printing and viewing. To select the units of measurement click on cm/Kg or in/lb according to the desired format. Using extra fields The Patients database is organised in 3 different cards (Patient card, Visit Card and Test card.) where it is possible to store the information about patients and visits . Besides the standard information, it is possible to customise some fields (user free fields), entering and labelling measurements coming from other devices. The customisable free fields are:
3 fields in the Patient Card (Patients information) 3 fields in the Visit Card (information about the visits) 3 fields (2 numeric) in the Test card information about Test) Customise the fields In the group User free fields type the desired text in the 9 fields available. Chapter 6 - Database Management - 69 70 - K4 b2 User Manual
1 | Users Manual II | Users Manual | 2.72 MiB | May 08 2005 |
Exercise testing Recommendations for the exercise testing The evaluation of the cardiorespiratory function Precautions The physical training requires the interaction of physiological mechanisms that allow the cardiovascular and respiratory systems to supply the increasing demand of energy due to the contraction of the muscles. During the training the systems are both engaged, an adequate answer to the effort is the measure of theirs health state. The increase of the metabolic rate, during the exercise, needs an appropriate increase of oxygen in the muscles. At the same time, the CO2 muscles production must be removed in order to avoid the lactic acid making. To satisfy the increase in the gas exchange, necessary to the muscles during the exercise, is requested the intervention of many physiological mechanisms. This process involves lungs, the pulmonary circulation, the heart and the peripheral circulation. The physician has the responsibility that the patient subjects to the test is a suitable person able to execute an effort test. Laboratory The room, in which the test is performed, must be big enough to contain the whole necessary equipment, allowing an easier accessibility to the patient in case of emergency. In the room should be placed a thermometer and a hygrometer; the heart frequency and the perceived values of the effort rise as much as the ambient temperature increases, and the variability of the cardiovascular response grows for humidity values higher of 60%. Generally it is considered 22C the temperature adequate for the test execution, even for short efforts, values till 26C can be considered acceptable in presence of an efficient air ventilation. Ending the test The patient should be monitored with ECG for at least 8 minutes, in resting conditions or until he returns to the pre-exercise conditions. Preparing the patient To enhance the value of a diagnostic test its very important patient collaboration. In most cases a well-informed patient will make a better effort (in relation to his conditions) and will allow a reliable interpretation of the test. For this reason every ergometric test must be preceded from a precise training of the patient. Before testing The physician applying the exam must be provided with a written request including a brief description of the diagnosis (confirmed or suspected ), the requests reason and the patient therapy carried out showing the dose and time of the drug assumption. To standardise the response to the test and reduce the patients anxiety its suggested to provide him either written (before the exam) or oral (at the same time of the test) information. At the scheduling time detailed instructions should be delivered to the patient, consisting in smoke and food abstinence three hours before an ergometric test, or eight hours before a scintigraphic test. Test are usually executed supporting the therapeutic outline in progress, but sometimes it could be necessary to stop some drugs, such as b-block or calcium antagonist, which could impair the effort response reducing the diagnostic accuracy of the exam. The patient must wear comfortable suit and gymnastic shoes and two hours before test stop any kind of drugs, eat light and avoid coffee and smoke. 72 - K4 b2 User Manual Its very important acquire information on the patients clinical past before performing the test. Keep attention in particular way to the use of drugs, tobacco, to the physical fitness and symptoms produced with the exercise. Patient assent The patient is informed that he will be submitted to a maximum effort, which could be stopped at any moment, and of the risks of the test execution. Ending the test Test may end when the maximum value of the oxygen consumption has been reached and the patients response established. Chapter 7 - Exercise Testing - 73 Real time test Before starting exercise test type a new patient information or choose one from the list of patient in the file. As soon as a patient has been entered the software is ready to start a test. The name of the active patient is shown on the status bar of the program window. Start a test Start the test as described in the chapter Operating modes. If you use the device in Holter mode, please skip this until Data management. The following is applicable only to tests performed with the PC (telemetry or serial mode). The software environment will change showing a new Menu bar and toolbar while the first data will be displayed in a table format. At this point the software starts showing data on the monitor but without saving them, this in order to monitor the patient before starting the test. To start storing data press F2. Abort the test without saving data Choose Abort from the Test menu or press Alt+F3. End the test saving data 1. Choose End from the Test menu or press F3. 2. Choose Yes to end the test or No to continue. View data in real-time The visualisation features and capabilities of the data and graphs are identical to the ones described in the Data management chapter. Starting the test a small window will appear on the right corner displaying time, bmp and, if selected before, the ergo protocol and trainer. View graphs in real-time 1. Choose Graph from the View menu. 2. Follow the instructions described in data management section to edit the graphs. Parameters to view While the test is running, it is possible to choose the parameters to view. 1. Select Parameters to view/Test execution from the Options menu. 2. Select the parameters and confirm. 74 - K4 b2 User Manual Manual protocol sss Tip: pressing the Shift key while choosing the marker option will allow you to enter the label for that marker. Automatic protocol Set the BPM alarm If you are using the K4 b2 with a treadmill without serial interface, it is possible to enter manually from the PC the event, the phase and the marker. Enter Load and Phase 1. During the test select Load from the Events menu. 2. Select the phase and/or type the value of the load and press OK to confirm. Set the markers Select Marker from the Events menu. The software allows to automatically control the ergometer according to the protocol previously selected. Anyway it is allowed to change it even after the test is started. Modify the load during the test 1. During the test choose Ergometric protocol from the Events menu. 2. Select the row corresponding to the desired load and press OK to confirm. The software allows the user to set the alarm level for the heart rate, in order to monitor the patient response. Enter the BPM 1. Choose BPM alarm from the Events menu. 2. Set the alarm by moving the scroll bar and press OK to confirm. It also allows to enable or disable the acoustic alarm by the option "Acoustic alarm". Chapter 7 - Exercise Testing - 75 Data management As soon as the test has been completed or downloaded, all data stored can be retrieved for a complete management. Viewing data Data can be viewed in the following formats:
Table form numeric values of the various parameters (columns) corresponding to each step (rows). graphical presentation on Y1, Y2, X charts. results of the test and statistical analysis of the blocks. predicted values, maximum value measured. Graphic form Summary Predicted View data in table form 1. Select Data from the View menu. 2. Select the test to visualise in the list box and press OK sss Note: Double-click in the window to open the edit test. Creating graphs The software is provided with powerful functions for creating charts. You can add custom graphs to create exactly what you need. View data in graph form 1. Choose Graph from the View menu. 2. Select the tests to visualise from the list and press OK 3. Choose the parameters you require on the X, Y1 and eventually for Y2; select if necessary some of the following options by pressing the more button and press OK to confirm. It is possible to access quickly 5 common graphs from the View/Graph dialog box. 76 - K4 b2 User Manual sss Note: Double-click in the graph window to open the edit test Right-clicking, the graph can be exported in bmp file format. Customise the graphs 1. With a graph on the screen, choose Customise graph from the View menu. 2. On the Customise graph dialog box, select options to obtain the wished graph. Option Grid on X, Y axes Autoscale Ignore 0 Not interpolated Marker Squared Without recovery Mark points Min. Max. Step Function show the grid lines in correspondence with x or y axes that make the graph easier for you to analyse data. maximum and minimum values of the graph will be measured automatically. points with 0 value measured won't be shown. make the graph scattered. highlight with a symbol all steps of the test in which the marker button was pressed. makes the graph a square exclude from the graph all points of the recovery phase. marks each point with a symbol allows to set manually the axes values. Set the axes' scale step. Switch from graph to data and vice versa When the active window is a graph (or a report in data form), it is possible to view very quickly the data (or the graph) corresponding to that test. Choose Current test data (if the active window is a graph) or Current test graph
(if the active window is a data report) from the View menu. Chapter 7 - Exercise Testing - 77 Viewing predicted values For some parameter it is possible to compare the maximum value measured during the test with its predicted value and the LT value both in percentage and absolute. View predicted values Choose Predicted from the View menu. Anaerobic (Lactate) Threshold detection The software allows to detect the Lactate Threshold (Anaerobic Threshold) according to the "Modified V-slope method" reference. The LT can be detected both manually and automatically. View the Lactate Threshold Choose Lactate Threshold from the View menu. Detect the Lactate Threshold 1. Choose Calculate LT from the Test menu. 2. For calculating it automatically on the "Lactate Threshold" dialog box click on the Auto detect button. 3. For adjusting manually the point you want to detect, move the scroll bar on the dialog box by pressing the arrow buttons. Data and graph of the LT will be automatically redrawn. 4. Press Ok button to save your choices. sss Note: Double-click in the window to open the corresponding dialog box. Customise graphs for the LT viewing The software allows to customise two of the three graphs for the LT visualisation. 1. Choose Lactate Threshold from the Options menu. 2. Choose the parameters you want to be shown on the LT window and press OK to confirm your choices. 78 - K4 b2 User Manual Fittings The purpose of the fitting function is to find the function that fits as better as possible the measured data. The software allows to fit data according to 3 different functions:
Function Y=A*X+B Model Available for Linear Any Y vs any X graph Mono-Exp Y=A+B*exp[(t-t0)/tau] Levemberg Marquardt Any Y vs Time Graph Mean value This function is available only if the active window is a single Y graph (i.e. VO2 vs time or VO2 vs Load). Algorithm Least squares Fit a graph with a linear regression 1. Make active the graph window (any Y vs any X graph). 2. Right-click and select Fitting. 3. Choose Linear in the type combo box 4. Select the first point (X1) moving the mouse on the desired place in the graph pressing the Left key or using the + and keys. 5. Select the second point (X2) moving the mouse on the desired place in the graph pressing the Right key or using the + and keys. 6. Press OK to confirm. Fit a graph with a Mono-exponential regression 1. Make active the graph window (any Y vs any X graph). 2. Right-click and select Fitting. 3. Choose Mono-exponential in the type combo box 4. Select the first point (X1) moving the mouse on the desired place in the graph pressing the Left key or using the + and keys. 5. Select the second point (X2) moving the mouse on the desired place in the graph pressing the Right key or using the + and keys. 6. Enter (if necessary) the initial values of A, B and TAU (these are the values from which the iterative algorithm starts in order to reach the best values; the closer are the initial coefficients to the best ones the higher is the possibility to reach the best fit). 7. Press OK to confirm. Chapter 7 - Exercise Testing - 79 Oxygen Kinetic Calculate the "Mean Value"
1. Make active the graph window (any Y vs any X graph). 2. Right-click and select Fitting. 3. Choose Mean value in the type combo box 4. Select the first point (X1) moving the mouse on the desired place in the graph pressing the Left key or using the + and keys. 5. Select the second point (X2) moving the mouse on the desired place in the graph pressing the Right key or using the + and keys. 6. Press OK to confirm. Note: The results of the O2 Fittings function are not stored therefore, in order to keep the information, print the page using File/print Active Window. This function is available only if the active window is a VO2 vs time graph and it has a sense only with Constant Load Exercise Tests. The aim of this function is to find the dynamic response of the rising and falling edges of the VO2 together with the Oxygen Deficit and Oxygen Debt. Run the O2 Kinetic function 1. Make active a VO2 vs Time graph window. 2. Press the right key of the mouse and select O2 Kinetic. 3. Select the beginning of the exercise phase (t1) moving the mouse on the desired place in the graph pressing the Left key or using the + and - keys. 4. Select the beginning of the exercise phase (t2) moving the mouse on the desired place in the graph pressing the Right key or using the + and - keys. 5. Enter (if necessary) the initial values for A, B and Tau (these are the values from which the iterative algorithm starts in order to reach the best values; the closer are the initial coefficients to the best ones the higher is the possibility to reach the best fit) and press OK. You can lock data checking the relative field 80 - K4 b2 User Manual Information about the Test The Test Information dialog box shows all the information concerning environmental data, patient data and some data about the test View the Information Choose Information from the View menu. Modify the information 1. Press the Modify button on the Information dialog box. 2. Change the values you want to modify and press OK to confirm. The software allows to assess the energy expenditure and metabolism substratum. In order to measure FAT and CHO, type the UN (Ureic Nitrogen) value into the field. All the nutritional parameter will be recalculate considering the UN value. The summary feature allows to summarise test results according to the workload and phase during the test. View the summary 1. Choose Summary from the View menu. 2. The summary of the current test (active window) will be displayed. It is possible to print graphs and data by means of two functions: Print report and Print current window. The last one is active only if the active window is a graph or a data report. Summary sss Tip: double-clicking on the Summary window the function Options/Summary is activated by which you may configure the structure of the data. Print the data Chapter 7 - Exercise Testing - 81 Print the current window 1. Be sure that the current active window is the graph or the report you desire to print. 2. Select Print current window from File menu. 3. Press OK to print, or Setup to customise the print. Print the report 1. Select the report to be printed from File menu. 2. Press OK to print, or Setup to customise the print. 3. To only view the report, without printing it, press Shift during the selection. View the report This function allows to show a preview of a selected report. 1. Select Report from the View menu. 2. Select the test and the report to visualise and press OK to confirm. 82 - K4 b2 User Manual Data Editing sss Nota: In Data view, double-
click in the window to enter in Data Editing. deleting one or more steps editing row data input new parameters data filtering (averaging or smoothing) advanced data elaboration The software allows the user to edit the data acquired during the test in the following ways:
After data elaboration it is always possible to restore the original data file by pressing the Restore button . If you want to save permanently all the changes, press Overwrite; being aware this function replaces the original test definitely. Editing values and input numerical values 1. Choose Edit test from the Test menu. 2. Select the cell containing the value you want to replace with others values and press OK to confirm the editing. The software will recompute all the parameters. Both the tables and the graphs will be automatically updated. Data filtering 1. Choose Edit test from the Test menu. 2. Press the button Filtering and choose the option Discard invalid steps to automatically eliminate all the invalid steps 3. Press the button Filtering and choose the option Averaging and type the desired value for points Ave/smooth to perform an averaging of the all acquired steps. This feature reduces the size of the original test. 4. Press the button Filtering, select the option Smoothing and type the desired value for points. This feature doesn't reduce the size of the original test, although it smoothes the fluctuation of data. Chapter 7 - Exercise Testing - 83 Using the User fields The software is provided with three free fields in which the user may enter values coming from others devices such as lactate, blood pressure etc. To define the user fields:
1. Choose User Fields from the Options menu 2. Type the desired text in the input fields and press OK. To enter values in the user fields:
1. Choose Edit test from the Test menu. 2. Scroll horizontally until the fields USER 1, 2 and 3. 3. Enter the desired values and press OK to confirm. Deleting steps This feature is useful whenever some steps acquired during the test are to be discarded
(steps acquired before the start of the test, patient disconnected from the face mask....). 1. Choose Edit tests from the Test menu. 2. Position the cursor on the step you want to delete and press the button Delete step. Advanced Editing This feature allows to perform some advanced editing of the data stored in the software. 1. Choose Edit test from the Test menu. 2. Press the Advanced button and select from the following options:
Option Delete steps Smoothing Edit parameter Edit parameter Value Correction %
Offset Formula... Time range From, To All steps Function deletes the steps meeting the selection criteria applies a moving average to the selected parameter edits a parameter according to the selected criteria Specifications replaces the value of the selected parameter with a new one. applies a percentage correction to the value of the selected parameter. adds an offset to the value of the selected parameter. replaces the value of the selected parameter with a mathematical function. Specifications specifies the time range. applies the editing from the beginning to the end of the test. 84 - K4 b2 User Manual Apply to Parameter
Value/Formula All steps Specifications specifies the reference parameter higher than, higher or equal, equal to, lower than, lower or equal, different specifies the value (mathematical expression) compared with the value of the specified parameter. do not use any selection criteria. Restore the original test To cancel all the editing, in the "Edit Test" dialog box press the Restore button, confirm your choice by pressing yes. Overwrite the original test To save all the editing, replacing the original test with the modified one, in the "Edit Test" dialog box press the Overwrite button, confirm your choice by pressing yes. Customise the desktop Customise the display colours 1. Select Colors from Options menu. 2. Select the item to be modified. 3. Press Change and select the desired colour. Smart edit This function is useful to correct data from artefacts; the noise affecting the measured data can be reduced in 2 different ways:
Graphical noise suppression Threshold noise suppression using the mouse applying a filter to the measured data Apply the graphical noise suppression 1. Make active a graph or a data window corresponding to the test that you want to modify. 2. Press the right key of the mouse and select Smart Edit. 3. Select the parameter that you want to modify. 4. Point the mouse on the position where the graph presents the artefacts, click the Right key and, keeping pressed the key, drag the point on the desired place. If you want to cancel the edit press the Left key of the mouse. 5. 6. Repeat the above mentioned procedure for the all parameters and press OK. Apply the threshold noise suppression 1. Make active a graph or data window corresponding to the test that you want to modify. 2. Press the Right key of the mouse and select Smart Edit. 3. Select the parameter that you want to modify. 4. Set a Noise(%) Threshold (as a percentage of the parameter value) above which any peak will be considered an artefact. 5. Press Execute and eventually Undo if you are not satisfied. 6. Press OK to confirm. Chapter 7 - Exercise Testing - 85 Customise the parameters The software allows the user to create customised parameters and predicted values, derived from the standard parameters (the ones that are calculated by default) through any mathematical formula. All the customised parameters can be used freely for viewing and printing purposes. Create a new parameter 1. Choose Customise parameters from the Options menu. 2. Press the New button if you want to create a new parameter or Modify if you want to modify an existing one 3. Type the desired value in the fields "Name", "unit of meas", "integers", "decimals"
and "summary" (to present the parameter in the summary) and press the Formula button. Insert the mathematical formula by using the appropriate tools and press OK twice to confirm. 4. Create a new predicted parameter 1. Choose Customise predicted from the Options menu 2. Press the New button if you want to create a new parameter or Modify if you intend to modify an existing one 3. Type the desired value in the fields "Name", "unit of meas", "integers", "decimals". 4. Select the group of the predicted values from the options boxes. 5. Select the reference parameter in the "Compared to" list box. 6. Press the buttons in the calculation group and insert the mathematical formulas for men and women, adults and paediatrics. Press OK twice to confirm. Once you create the new predicted you can see it in the predicted window. 86 - K4 b2 User Manual Exporting data With this function you can export the tests data and parameters in different file formats:
*.xpo (Cosmed proprietary file format)
*.txt (ASCII)
*.xls (Microsoft Excel)
*.wk1 (Lotus 123) Export a test 1. Choose Export Tests from the Test menu. 2. Select the test to export from the list box and press OK to confirm. 3. Select the file output format from the list box, click on *.xpo, *.txt, *.xls or *. wk1. If you selected ASCII format, by clicking on Text button you can then select the Thousands sep. and Column sep. according to the program you want to use. With the xpo Cosmed format you can import/export the tests performed on another K4 b2 equipment. 4. Select the folder, type the file name and press OK to confirm. sss Note: The DDE function is available only if the user PC has Microsoft Excel installed. DDE with Excel If Microsoft Excel is installed on your PC, you can export a test simply pressing a button on the toolbar. To send a test to Excel, select Send to Excel from the Test menu. The program will show a status bar indicating the data transmission to Excel. At the end of the process a new sheet with all test data will be opened ready to be edited with the powerful functions of Microsoft Excel. Chapter 7 - Exercise Testing - 87 Creating Test Protocols The software allows to create different exercise protocols to use during the test. The load of the ergometer is automatically controlled by the software that change it according to the defined protocol. Create a new protocol 1. Choose Real Time > Ergom. Tests Protocols from the Options menu. 2. Press New and enter a name for the protocol. 3. In the field "Message Time" type a number that means to get a message to advise when switching to the next load. 4. Enable the "Drive Ergometer" check box to let the software control the ergometer. Select the "Initial Command" if the ergometer need it. 5. Enabling the option "Relative Increments", the loads refer to the previous step. 6. Press Generate and enter the values to generate a protocol from only one load (i.e. 30 Watt each minute for a total of 20 steps) and press OK to confirm. 7. Press Add if you want to add a new step. 8. To edit a step, select it from the list and change the relative values in the Edit boxes below the list. Press the Tab button to save changes. 9. To delete a step, highlight the step and press Delete. 88 - K4 b2 User Manual Software configuration Data viewing Steady State The software can be customised as you wish. Most of the feature are easily editable to be tailored according to different purposes. The software allows to calculate a huge number of parameters; it is advisable, in order to simplify the analysis of the results, view in the data window the only desired parameters. Select the parameters to view 1. Choose Parameters to view/Test visualisation from the Options menu. 2. Select the parameters you require to view. 3. Press OK to confirm the selected configuration. Select the parameters to view during the test 1. Choose Parameters to view/Test execution from the Options menu. 2. Select the parameters you require to view. 3. Press OK to confirm the selected configuration. Sort the parameters It is possible to sort the parameters (both for viewing and printing purposes) according to the desired order. 1. Select Sorting parameters from the Options menu. 2. Move the parameters in the order you want by pressing and holding the left mouse button. 3. Press OK to maintain the current configuration. The program has an algorithm to tag sets of steps as Steady State. The algorithm considers belonging to the Steady State the only consecutive steps that meet the following conditions:
The value of VO2, VE and R do not vary from their mean values more than Threshold (%);
The number of consecutive steps that met the preceding criteria are at least Minimum number of steps. Customise the Steady State detection criteria 1. Choose Steady State from the Options menu 2. Type the desired values for Minimum number of steps, VO2 threshold (%), VE threshold (%) and R threshold. The steps which satisfy these conditions will be highlighted with a yellow bar. Chapter 7 - Exercise Testing - 89 Printout reports The software allows the user to printout data and graphics according to 4 customisable reports. Further it allows the user to customise a printout header that will be printed in each page. Set up the printout 1. Choose Reports from the Options menu. 2. Define the desired features of the report and confirm. Enabling the option "Graphs in one page" all the graphs selected in the report will be printed in one page. 3. Type the name you want apply to the report and press OK to save changes. Select parameters to be printed K4 b2 allows to print a large number of parameters; it is advisable, in order to simplify the analysis of the results, to printout desired parameters only. 1. 2. Select the parameters you require to be printed in the data printout. The number of parameters which can be printed depends upon the size of the paper in use (see Printer Layout) and from the orientation of the sheet. In the report configuration window select Parameters. 3. Press OK to confirm the selected configuration. Customise the printout header 1. Choose Printout header from the Options menu. 2. On the "Report Header" dialog box type the text of the header. 3. To insert an image click the Logo button. An image editor will be opened, draw the own logo and close the image editor to save changes. 4. Press OK to save the Printout header. 90 - K4 b2 User Manual Electronic reports (*.pdf) If an Adobe PDF writer Printer Driver is installed and set as the default printer, it is possible to store the printout report automatically in any location of the HD or eventually LAN paths according to a customizable filename format. It is possible to define the created filename format selecting Options/Printout header..., and then Name format Print the current window The print current window function is enabled when the active window is a graph or a data report. 1. Select Print current window from File menu. 2. Press OK to print, or Setup to customise the print. Print the customised report This function is enabled only after having customised a report. 1. Select the customised report from File menu. 3. Set the sheet format and press OK. Chapter 7 - Exercise Testing - 91 Events management during exercise testing Flow Volume loops O2, CO2 vs Time By using K4 b2 in serial mode, beside standard measurements, the software allows also to save some extra "events". They are so called "events" since they are not continuously stored during the test but they can be saved upon user selection. This test is useful during exercise to detect abnormalities in the mechanics of ventilation in patients with pulmonary/ventilatory limitations to exercise. The test consists in acquiring some flow/volume loops during exercise at different workloads and overlapping them on the rest maximal flow/volume loop of a Forced Vital Capacity test. The majors information that you can get from this manoeuvres are the flow reserve
(flow distance from the peak flow of the F/V loop during exercise to the corresponding flow on the superimposed F/V loop at rest) and the volume reserve (volume distance from the maximum volume of the F/V loop during exercise to the corresponding volume on the superimposed F/V loop at rest). The manoeuvre consists in the following phases:
Acquiring some Flow/Volume loops during the exercise Making the patient inspire completely up to TLC level (this is necessary to place the loop correctly into the rest F\V loop of the forced Vital Capacity test) Overlapping the F/V loop acquired during exercise and the F/V loop performed at rest. Flow Volume loop during the test 1. Start with normal Exercise test and begin the memorisation of breath values (F2) 2. During a steady state select F/V loops form Test/Event... 3. As soon as 2 or 3 complete loops have been acquired ask the patient to inspire completely up to TLC level and press F3 to stop the acquisition. The O2, CO2 event is useful to check the real-time readings of the O2 and CO2 signals during the test. O2, CO2 vs Time during the test 1. Start with normal Exercise test and begin the memorisation of breath values (F2) 2. During a steady state select O2, CO2 vs Time from Test/Event... 3. As soon as 5 or 6 complete breaths have been acquired press F3 to stop the acquisition. 92 - K4 b2 User Manual O2 Saturation (optional) The O2 Saturation event is useful to check the quality of SpO2 signal acquired by the on-
board Oxymeter (if available) during the test. O2 Saturation during the test 1. Start with normal Exercise test and begin the memorisation of breath values (F2). 2. Select O2 Saturation from Test/Event... 3. As soon as 5 or 6 complete pulses have been acquired press F3 to stop the acquisition. Spirogram The spirogram event allows to display and store the volume/time plot. Spirogram during the test 1. Start with normal Exercise test and begin the memorisation of breath values (F2). 2. During a steady state select Spirogram form Test/Event... 3. Acquire volume/time plot until the window is filled and press F3 to stop the acquisition. View the events after the test 1. Select Data... from the View menu 2. Select the test during which spirogram event has been carried out in the list box and press OK 3. Select View... from the Events menu, choose the desired event and press OK. 4. Select Print Current Window... from the File menu to print the F/V curve page. It is possible to edit the F/V loops event in the following way:
5. Select Edit... from the Event menu to change the F/V loop at rest (the list contains all the FVC test carried out by the same Patient with the Spirometry software) and press OK. It is possible to edit the Cardiac Output event in the following way:
5. Select Edit... from the Event menu to change the parameters measured during the steady state before the rebreathing, the CO2 concentration at the equilibrium and the calculation method. Raw data It's a particular feature with which the user can check and save some parameters (CO2 output, O2 concentration and volumes) in Ascii file format in a archive apart at a sampling rate of 25 Hz. Chapter 7 - Exercise Testing - 93 Save Raw data 1. During the test choose Event from Events menu. 2. Select Raw Data from the list. 3. On the save data box give a name to the file and select the destination folder. 4. To stop saving Raw data press the stop icon or press F3 on the keyboard. 94 - K4 b2 User Manual
1 | Users Manual III | Users Manual | 2.69 MiB | May 08 2005 |
Resting Metabolic Rate Test Metabolism Metabolism can be understood as the conversion by the human body between food and accumulated fat into energy. The energy is used by the body to maintain constant temperature , to move and to make all the organ function. Measure of metabolism is:
calories (cal). Total Metabolic Rate The total metabolic rate are the total calories that the human body needs in order to actuate the daily functional activities. Resting Metabolic Rate (RMR) Resting Metabolic Rate represents the calories that the vital organs need to properly operate at rest ( heart , brain , lungs , liver , kidneys etc.) . RMR represents between 60
% and 75 % of the human s total metabolism. Importance to measure RMR A knowledge of the RMR is very helpful in order to understand the nutritional needs and to properly manage it. Measure of the rest metabolic rate with indirect calorimetry Energy expenditure can be measured directly by putting a person in a calorimeter and measuring the amount of heat produced by the body mass. This is expensive and very impractical in the clinical setting. Energy expenditure can be measured indirectly with a metabolic cart by analysis of respired gases (usually expired) to derive volume of air passing through the lungs, the amount of oxygen extracted from it (i.e., oxygen uptake VO2) and the amount of carbon dioxide, as a by-product of metabolism, expelled to atmosphere (CO2 output VCO2). With these measurements the resting energy expenditure (RMR) and respiratory quotient (RQ) can be calculated. The RQ represents the ratio of carbon dioxide exhaled to the amount of oxygen consumed by the individual. RQ is useful in interpreting the results of the RMR. The abbreviated Weir equation is probably the most common calculation of RMR. Abbreviated Weir equation:
RMR = [3.9 (VO2) + 1.1 (VCO2)] 1.44 How to perform a RMR test For best results, when having a REE done, there are certain conditions that need to be controlled and others that just require documenting at the time of the test. During the test the individual is interfaced with a metabolic measurement system by means of a facemask. A mouthpiece with a nose clip is also sometimes used, but it may create overly stressful conditions to a subject (patient). Important considerations or conditions to improve the RMR measurement:
No food for at least 12 hours and no smoke for at least 2 hours before the test. Maintain quiet surroundings when the test is in progress and normal temperature. The individual should not move arms or legs during the test. Medications taken should be noted, such as stimulants or depressants. The first 5 minutes of acquisition should be discarded by the computation of RMR Steady state should be achieved, which would be identified clinically by the following criteria: 5 minute period when average minute VO2 and VCO2 changes by less than 10%, average RQ changes by less than 5%
Stable interpretable measurements should be obtained in a 15 to 20 minute test. Renal failure patients requiring hemodialysis should not be tested during dialysis therapy. 96 - K4 b2 User Manual Recommendations Resting metabolic rate test using the face mask 1. Since the ventilation is very low (normally <10 litres/min), the turbine calibration has to be performed with very slow manoeuvres (each complete manoeuvre in about 10-15 seconds), to obtain the best accuracy. 2. Use the following correction for the dead space (VD):
- 50 ml for the small mask
- 60 ml for the medium mask
- 70 ml for the large mask Resting metabolic rate test using the canopy option 1. Verify, before and during the test, that the FeCO2 falls into the range 0.5%-0.8%
and adjust the flow rate of the pump. If the FeCO2 is too low, increase the flow, if it is too high decrease the flow. In fact, if the FeCO2 is too low the measurement could be not reliable, while an high FeCO2 could be dangerous for the patient. In order to perform a correct ERGO calibration and to obtein more reliable data from the test, it is recommended to use a calibration cylinder with the following concectrations: 1% CO2, 20% O2, balance N2. If you use this cylinder, please remember to modify the reference values, as explained in the chapter Calibration. 2. Chapter 8 - Resting Metabolic Rate Test - 97 Performing a test using the face mask Calibrations Before the test, it is necessary to perform an ergo calibration (see Calibration chapter) and it is advisable to perform also a turbine calibration (see Recommendations in this chapter). How to prepare a patient The patient interfaces with the equipment by means of a face mask, like in the stress exercise. The mask has to be tight to the face, in order to avoid any air leakage. Start the test 1. Enter in the ergometry program 2. Select a patient or add a new one (File/Patients...) 3. Select Start test from Test menu 4. Enter the patients data and select the RMR mode (1st picture). 5. Press Other Data and enter the dead space value (50ml Small mask, 60ml Medium mask and 70ml Large mask). It is possible to enter the Ureic Nitrogen value NU (2nd picture). 6. Confirm and start the test by pressing OK. Selecting RMR the system set automatically the following options:
Data acquisition with a 30 seconds average RMR protocol, which is:
- 5 minutes discarded;
- 10 minutes with data acquisition, of which the software will make an average at the end of the test;
- automatic end of the test after the 16th minute. Selection of the RMR workspace (windows placement);
The test is fully automatic, the software will stop it and save the data at the end of the 16th minute. The real time view is as shown in the following picture:
98 - K4 b2 User Manual Viewing the test At the rend of the test, it will be opened automatically a window with the test results. sss Nota: The percentage of used Proteins (PRO%) is calculated assuming 12 grams of Ureic Nitrogen in 24 hours. You can modify this value selecting View/Information ->
Modify At the end of the test, or if it is selected View/RMR, the main results are shown:
The average time interval (default: 10 minutes) Average values of VO2, VCO2, R, RMR, RF, VE, HR, FAT% and CHO% and predicted values if available. Body Mass Index (BMI) and interpretation Graph of the energetic expenditure for all the data acquisition interval, highlighting the selected average interval. In order to verify the goodness of the test, check that the ventilation and respiratory frequency are similar to the predicted ones (12 breaths/min for the respiratory frequency and 6 litres/min for the ventilation), and the heart rate is the rest heart rate of the patient. Chapter 8 - Resting Metabolic Rate Test - 99 How to modify the average interval If the average interval (automatically identified by the software) is not satisfying, for example because the patient was speaking in the first minutes, it is possible to modify the interval of the average. Right-click and select Edit RMR. It is possible to move the start and the end lines. To move the start line, left-click on the exact time in which you want to start the calculations, for the end line, right-click. Print The print of the current window generates a report similar to the one in the following page. 100 - K4 b2 User Manual Chapter 8 - Resting Metabolic Rate Test - 101 Performing a test using the canopy option The principle of a ventilated bubblehood system is that a stream of air is forced to pass across the face of a subject and mixes with the air which is collected by a transparent hood, placed over the subjects head. A measurement system, knowing the flow rate, calulates the oxygen consumption and the CO2 production and, starting from these values, the energy expenditure. Calibrations Before the test, it is necessary to perform an ergo calibration (see Calibration chapter) and it is advisable to perform also a turbine calibration (see Recommendations in this chapter). How to prepare the canopy and the patient Replacement of the power plug If the power plug does not fit into the mains socket, replace it with the one in the packaging. In order to replace the plug:
1. Extract the plug from the battery charger 2. Insert the proper plug in the battery charger. Connecting the Canopy 1. Connect the Canopy unit to the mains by means of the medical grade AC/DC 2. adapter provided. Insert the bubblehood adapter into the bubblehood from the outside and fix it screwing the ring from the inside, being careful to insert it in the proper hole, as shown in the following picture. 3. Connect the bubblehood to the wrinkled tube, interposing a bacterial filter. 4. Connect the wrinkled tube to the unit through the Flow in connector. 5. Connect the optoelectronic reader of the Quark to the Flow out connector of the Canopy unit through the spirometry adapter. 6. Fix the vail to the bubblehood through the velcro strips. 102 - K4 b2 User Manual How to prepare the patient 1. Switch on the Canopy unit. If there are no problems, the red led on the front panel of the unit flashes for few seconds and the alarm beeps. If the led does not flash and/or the alarm does not beep, the test cannot be performed, because the backup battery is exhausted or there is no backup battery. 2. When the green led turns on, the test can start. If the green led does not turn on, the red led flashes and the alarm beeps, the test cannot be performed because the pump does not work or the mains does not power the system. 3. After these checks, put the patient in a supine position. 4. Place the bubblehood with the vail on the patients head. The tube has to be placed near the patients mouth. Performing the test 1. Enter in the ergometry program 2. Select a patient or add a new one (File/Patients...) 3. Select Start test from Test menu. 4. Enter the patients data and select the Canopy mode. 5. Confirm and start the test by pressing OK. 6. In the first part of the test the flow rate of the pump has to be adjusted by means of the Flow adjustment handle on the front panel of the Canopy unit, in order to measure an FeCO2 between 0.5% and 0.8%. FeCO2 values can be read on the right side of the PC monitor. Chapter 8 - Resting Metabolic Rate Test - 103 7. When the FeCO2 remains within the acceptability range, press F2 to start the data acquisition. Verify, also during the test, that the measured FeCO2 is within the 0.5%-0.8% range. Otherwise, adjust it by means of the Flow adjustment handle. Warning: If the green led turns off during the test, the red led flashes and the alarm beeps, abort the test, because the pump does not work or the mains does not power the system. In the last case, the pump works only because of the backup battery. The test is fully automatic, the software will stop it and save the data at the end. Viewing the test sss Note: The percentage of used Proteins (PRO%) is calculated assuming 12 grams of Ureic Nitrogen in 24 hours. You can modify this value selecting View/Information ->
Modify At the rend of the test, it will be opened automatically a window with the test results. At the end of the test, or if it is selected View/RMR, the main results are shown:
The average time interval (default: 10 minutes) Average values of VO2, VCO2, R, RMR, VE, HR, FAT% and CHO% and predicted values if available. Body Mass Index (BMI) and interpretation Graph of the energetic expenditure for all the data acquisition interval, highlighting the selected average interval. In order to verify the goodness of the test, check that the FeO2 and FeCO2 values are within the acceptability ranges (20.2%-20.8% and 0.5%-0.8% respectively), and the heart rate is the rest heart rate of the patient. How to modify the average interval Print If the average interval (automatically identified by the software) is not satisfying, for example because the patient was speaking in the first minutes, it is possible to modify the interval of the average. Right-click and select Edit RMR. It is possible to move the start and the end lines. To move the start line, left-click on the exact time in which you want to start the calculations, for the end line, right-click. The print of the current window generates a report similar to the one of the RMR test using the face mask. 104 - K4 b2 User Manual Sub-maximal Exercise Testing Introduction Pre-test screening Several physiological responses to exercise are used to evaluate cardiorespiratory fitness, including oxygen consumption, heart rate, and blood pressure. Measuring these variables during exercise, particularly maximum exercise, increase the chance of detecting any coronary artery disease or pulmonary disease. Unfortunately, maximum exercise tests are impractical because they are expensive, require extensive clinical supervision, and subject individuals to levels of physical stress that may be unnecessary depending on the objectives of the test. Consequently, maximal testing is reserved for clinical assessments, athletic evaluation, and research. A sub-maximal exercise test costs less and carries a lower risk for the individual. Although less sensitive and specific for detecting disease or estimating maximal oxygen consumption, correctly performed sub-maximal tests can provide a valid estimate of cardiorespiratory fitness. Pre-test health screening is essential for risk stratification and for determining the type of test that should be performed and the need for an exercise test prior to exercise training. A thorough pretest health screening includes the following:
Complete medical history Medical contraindications to exercise Symptoms suggesting cardiac or pulmonary disease Angina or other forms of discomfort at rest or during exercise Unusual shortness of breath at rest or during exercise Dizziness or light-headedness Orthopaedic complications that may prevent adequate effort or compromise the validity of test results Other unusual signs or symptoms that may preclude testing Risk factors for coronary heart disease History of major cardiorespiratory events Current medications Activity patterns Nutritional habits Reading and signing an informed consent form 106 - K4 b2 User Manual Sub-maximal exercise testing Heart rate varies linearly with VO2 to the point of maximum exertion; thus, VO2max may be estimated using the relation between heart rate and VO2 without subjecting the individual to maximum levels of physical stress. During sub-maximal exercise testing, predetermined workloads are used to elicit a steady state of exertion (plateau of heart rate and VO2). The steady-state heart rate at each work level is displayed graphically and extrapolated to the VO2 at the age-predicted maximal heart rate (HR = 220-age). A variety of protocols for different exercise modalities (i.e., treadmill, stationary cycle, and step increments) can be used as long as the VO2 requirements of each selected workload can be estimated with accuracy. The objectives of cardiorespiratory fitness assessments in the apparently healthy population are as follows:
Determine the level of cardiorespiratory fitness and establish fitness program goals and objectives. Develop a safe, effective exercise prescription for the improvement of cardiorespiratory fitness. Document improvements in cardiorespiratory fitness as a result of exercise training or other interventions. Motivate individuals to initiate an exercise program or comply with an established program. Provide information concerning health status. A few assumptions regarding testing are necessary to ensure the highest degree of accuracy when using sub-maximal exercise testing to estimate VO2max:
Selected workloads are reproducible. A steady-state heart rate is obtained during each stage of the test. Usually, workload durations of 3 minutes or more are used to ensure steady state. The maximal heart rate for a given age is uniform (HR = 220-age). Heart rate and VO2 have a linear relation over a wide range of values; thus, the slope of HR/VO2 regression can be extrapolated to an assumed maximum heart rate. Mechanical efficiency (i.e., VO2 at a given work rate) is consistent. Although if done correctly, sub-maximal exercise tests provide valuable information concerning cardiorespiratory fitness, they have extremely limited diagnostic capabilities and should not be used as a replacement for clinical exercise tests or other clinical treatment or management modalities. Health care professionals should avoid detailed interpretation beyond the scope of the information obtained. Considerations with sub-maximal exercise testing Considerations for selection of protocol and equipment include any physical or clinical limitations that may preclude certain types of exercise (i.e., age, weight, arthritis, orthopaedic complications, individual comfort, level of fitness, type of exercise training that will be performed, and individual preference). For example, some individuals may perform better on a non-weight-bearing modality
(cycle versus treadmill), while others may not have the required range of motion in the hip or knee to pedal and may perform better walking. Deconditioned, weak, or elderly persons may have to start the test at a low work level and increase the workload in small increments. Also, field tests may not be appropriate for those who require strict supervision during testing, who do not understand the concept of pacing, or who cannot be expected to put forth a good effort. More consistent results may be obtained by testing in a controlled environment such as a laboratory setting. Creativity when selecting protocols may allow adaptations of commonly used protocols to accommodate athletes competing in specific sports. Regardless of the type of exercise and protocol selected, the same type of exercise and protocol should be used for repeat testing if between-test comparisons are important. Chapter 9 - Sub-maximal Exercise Testing - 107 Staffing Staff members should be able to do the following:
1. Establish rapport with the subject and make him or her feel comfortable. 2. Recognize normal acute and chronic responses to exercise. 3. Recognize abnormal signs and symptoms during exercise. 4. Provide basic life support measures competently. 5. Adhere to established procedures and protocols. 6. Clearly explain test results to the individual. Test termination Sub-maximal tests should be terminated according to ACSM or other accepted guidelines (see table in the following). In the event of an abnormal response, the test should be terminated, the medical director of the facility and the individuals primary care physician notified, and all specified follow-up procedures performed. In the event of mechanical or electrical failure that may compromise the accuracy of the test results or monitoring capabilities, the test should be terminated until the problem is corrected. General Indications for Stopping an Exercise Test in Apparently Healthy Adults Onset of angina or angina-like symptoms Significant drop (20 mmHg) in systolic blood pressure or a failure of the systolic blood pressure to rise with an increase in exercise intensity Excessive rise in blood pressure: systolic pressure >260 mmHg or diastolic pressure
>115 mmHg Signs of poor perfusion: tight-headedness, confusion, ataxia, pallor, cyanosis, nausea, or cold and clammy skin Failure of heart rate to increase with increased exercise intensity Noticeable change in heart rhythm Subject requests to stop Physical or verbal manifestations of severe fatigue Failure of the testing equipment Assuming that testing is non-diagnostic and is being performed without direct physician involvement or electrocardiographic monitoring. 108 - K4 b2 User Manual Considerations for accuracy The ability to obtain valid and reproducible results is essential to ensure that any differences between pre-treatment and post-treatment test results are due to exercise training rather than variations in testing procedures. Some inconsistencies that are inherent may increase variability:
Sub-maximal heart rate is influenced by time of day, eating, smoking, and familiarization with test procedures. Prediction equations for estimating VO2max may overestimate trained individuals and underestimate untrained individuals. The efficiency of motion during walking, running, and cycling varies. Cardiac output and VO2 have a test-retest variability of 3-4%. Psychological factors, such as pre-test anxiety, may influence the heart rate, especially at rates below 120 beats per minute and at low workloads. It is not unusual for the heart rate and/or blood pressure to be higher at rest than during the initial stages of exercise in these cases. Having the subject repeat the first test may improve reliability, particularly if the subject has never previously performed such a test. Factors that can cause variation in the heart rate response to testing:
Dehydration Prolonged heavy exercise prior to testing Environmental conditions (e.g., heat, humidity, ventilation) Fever Use of alcohol, tobacco, or caffeine 2 to 3 hours prior to testing Because of these inherent inconsistencies, standard procedures for each test must be strictly followed to ensure the greatest accuracy and reproducibility possible:
Standard testing protocol The same testing modality and protocol for repeat testing A constant pedal speed throughout cycle ergometry testing Cycle seat height properly adjusted, recorded, and standard for each test The time of day for repeat testing consistent All data collection procedures standardized and consistent Test conditions standard Subjects free of infection and in normal sinus rhythm Prior to the test, no intense or prolonged exercise for 24 hours, smoking for 2-3 hours, caffeine for 3 hours, or heavy meal for 3 hours Room temperature 18-20C (64-68F) with air movement provided Chapter 9 - Sub-maximal Exercise Testing - 109 Performing the test perform an exercise test create exercise protocols view, edit and print tests In this chapter it is supposed that the user is able to:
If this is not the case, please read the Exercise testing chapter. To perform a sub-maximal test, follow these instructions:
1. Create a proper protocol (procedural guidelines for several sub-maximal testing for Exercise Testing and protocols are provided Prescription, 6th Edition Philadelphia: Williams&Wilkins, 2000:22-29]). in [ACSMs Guidelines 2. Start an exercise test. 3. Perform the test as it were a maximal exercise test, ending it when the heart rate reaches the 85% of the Hrmax, or it happens an event listed in the section Test termination. 4. Display a VO2/Kg vs. HR plot 5. Right-click on the graph and select VO2 submax from the pop-up menu. If the predicted HR max (calculated as 220-age) is not suitable for the patient tested, it is possible to edit the HR max value from the View/Information page. An example of testing protocol set the workload at (kgm/min) An example of protocol is reported here. The YMCA cycle ergometry protocol is defined as follows. 1st step: workload 150 kgm/min 2nd step: if the HR at the end of the 1st step is:
3rd step: if the HR at the end of the 2nd step is:
4th step: if the HR at the end of the 3rd step is:
80-89 600 80-89 750 80-89 900
>100 300
>100 450
>100 600
<80 750
<80 900
<80 1050 set the workload at (kgm/min) set the workload at (kgm/min) 90-100 90-100 90-100 450 600 750 110 - K4 b2 User Manual Spirometry Setting spirometry options The software allows to configure some options selecting Configure from the Option menu. Spirometry Automatic Interpretation K4 b2 has the function of interpreting each test performed by a patient visualising an automatic diagnosis. The algorithm has been calculated basing on Lung Function Testing: selection of reference values and interpretative strategies, A.R.R.D. 144/
1991:1202-1218. The automatic diagnosis is calculated at the end of the FVC Test if:
the automatic diagnosis option is enabled. the patients anthropometric data allow the calculation of the LLN (Lower Limit of Normal range). at least one FVC test has been performed. To enable/disable the automatic diagnosis:
1. Click on Enable Automatic Interpretation checkbox to enable or disable the calculation and the visualisation of the automatic interpretation. 2. Select the LLN (Lower Limit of Normal Range) criteria among the ATS
(LLN=Pred-0.674*SD), ERS (LLN=Pred-1.647*SD) or 80%Pred (LLN=Pred*0.8) specifications. Quality control K4 b2 allows a quality test control. The calculation has been carried out referring to Spirometry in the Lung Health Study: Methods and Quality Control, A.R.R.D. 1991;
143:1215-1223. The messages concerning the quality control are shown at the end of the test. To enable/disable the quality control, click on Enable Quality Control checkbox. 112 - K4 b2 User Manual Parameters manager The program allows to calculate a huge number of parameters; it is advisable, in order to simplify the analysis of the results, to view, to print and to sort the desired parameters only. Select the menu item Options/Parameters... View Move the parameters to view into the Selected parameters list. Print Move the parameters to print into the Selected parameters list. Sort Drag the parameter up or down with the mouse. Customise Add, modify and delete custom parameters. If it is necessary to restore the default parameters press the button in the left corner of the window to initialise the parameters database. Predicted values manager The program contains a preset of predicted equations, but the user is allowed to customise its own predicted sets. Select Predicteds... from Options menu. The window is divided into two forms: Predicteds set and Formula definition. Predicteds set This form allows the user to manage the set of predicteds. The following information define a set:
Chapter 10 - Spirometry - 113 identifies the set and cannot be duplicated;
free field;
the adult predicteds start since this age. Name:
Description:
Age:
To enter a new set of predicteds click on the New button. The field Name must be filled and must be unique. To stop without saving click on the Cancel button. To save the set, click on the Save button. To delete a set of predicteds click on the Delete button. If a set is deleted, also the associated formulae are deleted. It is possible to generate a new set of predicteds with the same attributes and the same formulae of the selected one. To do this click on the Copy... button and specify a new Name. To import a set of predicteds click on the Import... button and select a file of Predicteds files type. To export a set of predicteds click on the Export... button. In the list Set current predicteds choose the current predicteds for printing and viewing. Set the current predicted K4 b2 allows to calculate the predicted values according to the following configurable sets:
Adult ERS 93 Knudson83 ITS white ITS black LAM MC Barcellona Nhanes III Select the desired choice in the group Predicted. Paediatric Zapletal Knudson83 ITS white ITS black LAM MC Barcellona Nhanes III Formula definition This form allows the user to manage the formulae associated to a set of predicteds. Select the set of predicteds from the list Predicteds set. To insert a new parameter click on the New... button. The parameter formulae can be:
114 - K4 b2 User Manual calculated according to the predicteds in the list Use the predicteds formulae;
customised by the user with the option ...or the customised formulae. The Delete button deletes the selected parameter. The Copy button stores the selected parameter in memory. The Paste button inserts a new parameter from the one copied. If the name is not unique, the user is asked whether to specify a new name or to replace the existing parameter. Page set-up Select Page Setup... from the File menu. Header Data Margins Footer Printed file name All the printouts carried out by the program are preceded by 3 rows of customisable header (usually they contain the name and the address of the Hospital using the spirometer). Patient and visit information are printed below the header. These data are reported on 3 columns and 5 rows. the user may configure the disposition, change and eventually cancel the fields, as he prefers. Configures the print margins from the borders of the paper. The unit of measure is decided in Units of measurements. Configures information at the bottom of the page. Defines the automatic name to be asssigned to the pdf file, if the report will be printed in this format. In the example it has been set to create a filename composed by
<date of the test> followed by <last name> and <first name>. Chapter 10 - Spirometry - 115 Spirometry tests Once completed the phases of the introduction of the patients data and the visit data, it is possible to carry out the spirometric tests. K4 b2 allows to perform the following tests:
Test Forced Vital Capacity Forced Vital Capacity after bronchial stimulation Slow Vital Capacity Maximum Voluntary Ventilation Key FVC pre FVC post SVC MVV Before performing any test make sure that:
1. K4 b2 is properly connected to your PC and the selected serial port (COM1, COM2) corresponds to the one effectively use. 2. The name shown on the status bar corresponds to the patient who is to carrying out the tests. 3. The todays visit card exists. sss Note: Read carefully the contraindications in Chapter 1. 116 - K4 b2 User Manual Forced Vital Capacity (pre) FVC is a reference test to verify obstructive (airflow limitations) and restrictive disorders (lung volume limitations). To achieve good test results it is fundamental a good manoeuvre (quality control messages, real time plots ) The main parameters measured during FVC tests are:
FVC FEV1 FEV1/FVC%
PEF FEF25-75%
The two representative plots are the Flow/Volume and Volume/Time loops. By comparing FVC, FEV1 and FEV1/FVC% values the software allows an automatic interpretation concerning the levels of obstructive and/or restrictive disorders. Forced Vital Capacity Forced Expiratory Volume in 1 second FEV1 as a percentage of FVC Peak Expiratory Flow Forced mid-Expiratory Flow The flowmeter has to be disconnected from the breathing valve The patient should wear the nose clips The turbine has been recently calibrated (ATS recommends a daily calibration) The paper mouthpiece or the antibacterial filter is properly connected to the flowmeter through the corresponding adapter For hygienic reasons, we strongly recommend the use of a bacterial filter. If a kid must perform the test it is recommended to enable the encouragement function which shows exactly the manoeuvre of the FVC test. Recommendations Perform a FVC (pre) test 1. Select Forced Vital Capacity pre from the Test menu and wait for the green led is prompted on the right side of the screen. 2. Explain the manoeuvre to the patient and press the F2 key. 3. Wait some seconds and perform the test. 4. After having performed the test, press F3 or wait for the automatic end (5 seconds without flow), so that the software displays the F/V and V/t graphs, the main parameters, and the predicteds values. In order to visualise the F/V and V/t graph and the main parameters press the following buttons:
5. view Flow Volume graph view Volume Time graph view data of the test 6. Press Alt+F3 to stop the acquisition discarding the results. 7. Repeat the test until it is correctly performed (ATS recommends 3 times). 8. Press Exit to visualise the test list carried out during current session together with the results of the main parameters. 9. Select the test that you want to save (the Best Test according to the ATS criteria is highlighted as default) and press OK. Test encouragement During FVC manoeuvre you might experience some lack of collaboration with kids or with other patients. In this case you may find a good help in using the encouragement software tool. Chapter 10 - Spirometry - 117 Perform the FVC test with the encouragement 1. Select Encouragement from View menu. 2. Perform the test as explained in the previous paragraph. 118 - K4 b2 User Manual Slow Vital Capacity Expiratory Slow Vital Capacity Inspiratory Slow Vital Capacity Expiratory Reserve Volume Inspiratory Reserve Volume Important test for assessing COPD (chronic obstructive pulmonary disease) patients affected by this disease might present a the Slow Vital Capacity could be higher than the Forced one (FVC). The main parameters measured during SVC tests are:
EVC IVC ERV IRV If the inspiratory/expiratory maximal manoeuvre is preceded by a some breaths at tidal volume the software allows to measure the Respiratory Pattern, represented by the following parameters:
VE Vt Rf Ttot Ti/Ttot Vt/Ti Ventilation per minute Tidal volume Respiratory frequency Breath time Inspiratory time/Ttot Vt/Ti Perform a SVC test 1. Select Slow Vital Capacity from the Test menu and wait for the green led is prompted on the right side of the screen. 2. Press F2 and instruct the Patient to breath normally until the message carry out is prompted; then ask to perform a Slow Vital Capacity (deep inhalation, maximal slow expiration and deep inhalation again). 3. Press F3 or wait for automatic interruption (5 seconds without flow) in order to visualise the V/t graph together with the main parameters compared to the predicted values 4. To visualise the V/t graph and the main parameters press the follow buttons:
view Volume Time graph view data of the test 5. Press Alt+F3 to stop the acquisition discarding the results. 6. Repeat the test until it is correctly performed (ATS recommends 3 times). 7. Press Exit to visualise the test list carried out during current session together with the results of the main parameters. 8. Select the test that you want to save (the Best Test according to the ATS criteria is highlighted by default) and press OK. The reference for the ERV calculation is displayed on the V/T graph. Chapter 10 - Spirometry - 119 Maximum Voluntary Ventilation Perform a MVV test Test for assessing the maximum ventilatory capacity. In the past, it was commonly performed during routine PF tests, however its clinical use declined over the years. Today MVV test is most commonly performed as part of the exercise tolerance tests, where it is used as an index of maximum ventilatory capacity. Test consists in breathing in and out deeply and rapidly for 12, 15 seconds. The expired volume during this short period is then extrapolated The most important measured parameter is the following:
MVV Maximum Voluntary Ventilation 1. Select Maximum Voluntary Ventilation from the test menu and wait for the green led is prompted on the right side of the screen. 2. Press F2 and make the Patient breath as much deeply and rapidly as possible for at least 12 seconds. 3. Press F3 or wait for automatic interruption (5 seconds without flow) in order to visualise the V/t graph together with the main parameters compared to the predicted values 4. To visualise the V/t graph and the main parameters press the follow buttons:
view Volume Time graph view data of the test 5. Press Alt+F3 to stop the acquisition discarding the results. 6. Repeat the test until it is correctly performed (ATS recommends 3 times). 7. Press Exit to visualise the test list carried out during current session together with the results of the main parameters. 8. Select the test that you want to save (the Best Test according to the ATS criteria is highlighted as default) and press OK. 120 - K4 b2 User Manual Bronchial Provocation Test Bronchodilator test sss Note: Read carefully the contraindications in Chapter 1. Bronchodilators are administered routinely in the b2 laboratory to determine whether airflow obstruction is reversible. Bronchodilators increase airway calibre by relaxing airway smooth muscle. The test consists of comparing results between the reference FVC (FVC PRE) and the FVC POST performed after the administration of the drug. Increasing value of 13-15%
of FEV1, respect to the basal value (FVC Pre) is considered as a reversible condition. Main parameters are the following:
DFEV1%pre DFVC%pre DPEF%pre Some authors states that the above mentioned parameters are too dependent from the FVC Pre, hence latest reference (ERS93, [A comparison of six different ways of expressing the bronchodilating response in asthma and COPD; reproducibility and dependence of pre bronchodilator FEV1: E. Dompeling, C.P. van Schayck et Al; ERJ 1992, 5, 975-981]) recommend the following parameters:
DFEV1%pred Change of FVC as a percentage of predicted value DFEV1%poss Change of FEV1 as a percentage of possible value Change of FEV1 as a percentage of test PRE Change of FVC as a percentage of test PRE Change of PEF as a percentage of test PRE Methacholine and Histamine Bronchial provocation Tests The most common indication for performing methacholine and histamine bronchial challenges is to diagnose hyperresponsive airways. Some patients demonstrate normal baseline pulmonary function despite complaints of tightness wheezing, cough, and a little or not response to bronchoconstrictor. Other patients demonstrate spirometric improvement after use of bronchoconstrictor have diurnal variation in peak flows. In this groups aerosolised bronchial challenges are used to confirm a diagnosis of Asthma. We can summarise the use of the test as follows:
1. Diagnose asthma 2. Confirm a diagnosis of asthma 3. Document the severity of hyperresponsivness 4. Follow changes in hyperresponsivness When patients with hyperresponsive airways inhale certain pharmacologic agents (i.e. Methacholine or histamine) the airways respond by constricting. Test consists of executing repeated FVC following the pharmacologic agents inhalation according to an established protocol. The fall of the FEV1 parameter is used to calculate the bronchial hyperresponsivness. The most important parameter is the PD20 that is amount of drug (mg/ml) that causes a reduction of 20% of the FEV1 respect the basal value (without drug). Main parameters are:
P10 Dose that causes a 10% fall of FEV1. P15 Dose that causes a 15% fall of FEV1. P20 Dose that causes a 20% fall of FEV1. The representative plot is the Dose/response curve, showing the percentage variation of FEV1 versus the Drug dose in logarithmic scale. The program assumes as the baseline test the best FVC pre carried out during the todays visit. You can change the reference pre test editing the Post test. The name of the drug, its quantity and its unit of measurement, can be typed immediately before any FVC post manoeuvre (manual protocol) or can be stored in a database of bronchoprovocation (File/Bronchial Provocation protocols Database). Chapter 10 - Spirometry - 121 Perform the test
(During 1st step only) select Protocol... from the Test menu and choose the name of the bronchoprovocation protocol that you are going to use (manual protocol if you want to type the information about the agent before any manoeuvre) 1. Select FVC post from the Test menu. 2. Select an existing protocol or click on manual protocol, and wait the green leds turned on. 3. Press F2, or the button by side, to start the test. 4. Press F3, or the button by side, to achieve the test. 5. In order to visualise the V/t graph and the main parameters press the follow buttons:
view Flow Volume graph view data of the test view bronchial provocation response 6. Press Alt+F3 to stop the acquisition discarding the results. 7. Repeat the test until it is correctly performed (ATS recommends 3 times). 8. Press Exit to visualise the test list carried out during current session together with the results of the main parameters. 9. Select the test that you want to save (the Best Test according to the ATS criteria is highlighted as default) and press OK. Bronchial Provocation protocols Database The response to a bronchoprovocator is usually assessed in terms of change in the FEV1, vital capacity or airways resistance on the basis of serial measurements (FVC manoeuvres) in which the results of the initial test constitute the reference values. The international literature proposes several standardised protocols in order to address the methodological issues of the various available techniques. The possibility to store a bronchoprovocation protocol in a database is useful to simplify and automate the sequence of operations that the Physician need to execute during the bronchoprovocation tests. The typical sequence of activities to carry out a bronchoprovocation test are:
1. Typing and storing a bronchoprovocation protocol in the database (usually only once). 2. Selection of protocol among the list of the ones already present in the database before carrying out the FVC post tests (the selection of manual protocol allows to execute the test fully manually). 3. Performing the Post tests. Enter a new Bronchial provocation protocol in the archive 1. Select Bronchoprov. protocols database from the File menu. 2. Type the Protocol name, the Bronchoprovocator name and the unit of measurement 3. in the proper input fields. If the bronchoprovocator has a cumulative effect select the cumulative check button. 4. Enter the quantities for each step and press the button
. 122 - K4 b2 User Manual Viewing results All the visualisation functions refer to the test carried out by the Current Patient, whose name is indicated on the left-side of the status bar. To view tests results:
1. Select the Patients from the File menu 2. Select the patient corresponding to the test you want to view. 3. Select in the list box of the tests up to 5 tests of the kind (FVC, VC/IVC, or MVV) and press OK. To switch between graph and or data use the following buttons on the toolbar:
view Flow Volume graph (F5) view Volume Time graph (F6) view data of the test (F7) view bronchial provocation response. If you need more than one visualisation meantime use the New Window function from the Window menu. If you need to display a list of visits:
Select Visits list... from the File menu. Type the name of the Company and/or the time interval desired or simply confirm for the complete list. Tests of the current patient If a current patient has been selected you can quickly view his tests selecting Test current patient... from the View menu. Delete a test 1. Select Patients from the File menu or press the button by side. 2. Select the test that you want to eliminate from the list of the tests referred to the Current Patient and press Delete. Chapter 10 - Spirometry - 123 Printing results You can print out in three different ways:
printing the Report printing the Active Window printing a series of reports Printing Reports To print a report of the current visit, select Print report from File menu. The software will choose automatically the best performed test. The standard Report is composed by 1, 2 or 3 pages depending if you wish to printout the FVC data and the graphs together on the first page or if you wish to printout the bronchoprovocation response. Selecting the option One page (no ATS) the report will contain, on one page, the F/V and V/t graphs of the best test, overlapped on the FVC Post, the patient data, the notes, the diagnosis and the test results. Otherwise the report will contain two pages, the first with the patient data, the graphs and the diagnosis, and the second one with the measured parameters, according to the ATS recommendations. The 3rd page will contain the bronchoprovocation response. Select the desired options:
FVC graph One page (no ATS) Response Preview Prints the F/V and V/t curves for the best FVC test. Prints data and graphs on the first page. Prints the bronchoprovocator response. Views a report preview on the screen. Printing the active window This printout function is only enabled when the active window (title bar highlighted) is one of the following objects:
Any kind of Graph. Numeric data List of visit To print the active window 1. Ensure that the active window is one of the preceding objects. 2. Select Print Active window from File menu. Printing a series of reports Sometimes it is useful to printout automatically a series of reports (all tests carried out with the employees, all tests carried out in the today's session). To print out proceed as follows:
1. Select Visit List from the File menu 2. Set the criteria of the visits to be added in the list (from, to,...) 3. Select Print Report from the File menu. Electronic reports (*.pdf) If an Adobe PDF writer Printer Driver is installed and set as the default printer, it is possible to store the printout report automatically in any location of the HD or eventually LAN paths according to a customizable filename format. It is possible to define the created filename format selecting File/Page Set up... (see Page set-up). 124 - K4 b2 User Manual Export data With this function you can export the test data in 4 different formats:
*.txt (ASCII)
*.xls (Microsoft Excel)
*.wk1 (Lotus 123)
*.xpo (Cosmed) Export a test 1. Select Export tests from the File menu. 2. Select the test to export from the list box and press OK. 3. Type the name and the format of the file in the dialog Save as. If the ASCII format is selected, the Text button in the dialog box Save as allows you to configure the separators for character based files. With the *.xpo Cosmed file format it is possible to import data from another K4 b2 archive. Press OK to confirm. 4. Select the folder for the export and type the file name. Press OK to confirm. A status bar will show the file creation. Chapter 10 - Spirometry - 125 126 - K4 b2 User Manual External devices GPS GPS initialisation The GPS operates on information gathered from satellites.To gather this information, take your GPS on outside and find large, open area that has a clear view of the sky (a nearby park would work fine). The GPS needs to receive at least three strong satellite signals to find your location. At the first power on the GPS needs to be initialized; the initialisation is a fundamental procedure for obtaining accurate and reliable data and should be performed on a large area where the sky is fully "visible". After the initial self test is complete, the GPS will begin the process of satellite acquisition and tracking. The acquisition process is fully automatic and, under normal circumstances, will take approximately 45 seconds to achieve a position fix (15 seconds if ephemeris data is known). Like all GPS receivers, COSMED GPS utilizes initial data such as last stored position, date and time as well as satellite orbital data to achieve maximum acquisition performance. If significant inaccuracy exists in the initial data, or if the orbital data is obsolete, it may take 5.0 minutes to achieve a navigation solution. The GPS Autolocate feature is capable of automatically determining a navigation solution without intervention from the user. This procedure may be required if one of the following situations occurs:
1) Transportation over distances further than 1500 kilometers. 2) Failure of the internal memory battery without system standby power. 3) Stored date/time off by more than 30 minutes. The GPS will automatically update satellite orbital data as it operates. The intelligence of the GPS combined with its hardware capability allows these data to be collected and stored without intervention from the host system. Initialize the GPS 1) If the receiver is not operated for a period of six (6) months or more, the unit will search the sky in order to collect satellite orbital information. This process is fully automatic and, under normal circumstances, will take 3-4 minutes to achieve a navigation solution. If the memory backup battery of the GPS fails, the receiver will search the sky as described above. Should the memory battery discharge, the unit needs to be powered on for several hours to insure a sufficient recharge to maintain several months of clock operation and memory storage. If the initial data is significantly inaccurate, the receiver perform an operation known as AutoLocate . This procedure is fully automatic and, under normal circumstances, will require 1.5 minutes to calculate a navigation solution. 2) 3) During the acquisition process a message "acquiring satellites...." is prompted on the display of the Portable unit. The AutoLocate function can be manually forced selecting GPS AutoLocate from the Calibration menu, in order to obtain the best accuracy. Fixing the antenna to the subject The GPS Receiver has to be positioned onto the harness of the K4b2 according the following pictures, paying attention to keep the receiver in a position so that the sky will be always "visible" during the test. Some applications such as cycle racing and rowing may require different positioning of the antenna. 128 - K4 b2 User Manual Operating sequence Test with GPS module can be carried out with K4 b2 system in Holter Data Record or Telemetry Data Transmission mode only. In addition to the Operating sequence of this mode you must carry out the following operation. Run a test with GPS 1. Connect the receiver antenna to the Portable Unit plugging phone jack into the RS232 port at the bottom of the PU. 2. Select Settings then External device and press Enter. 3. Enable the GPS option by moving the * sign on GPS and press Enter to confirm settings. 4. Check the GPS module functionality choosing Calibration then GPS Control and press Enter. Display will show latitude and longitude. 5. With the use of Up and Down key verify that the displayed altitude value (Alt) is different from zero. In case displayed altitude value is fixed on zero, please be sure that the antenna receiver is well plugged in, the sky is visible and wait until the Altitude value is shown. Chapter 11 - External devices - 129 Monitoring GPS parameters in real time To monitor in real time GPS parameters during Telemetry Mode Transmission or as soon as test has been stored or downloaded, go to the PC software and select Parameters to view/Test execution (real time) or Parameters to view/Test visualization (after download) from the Options menu. Select the following parameters:
Velocity Distance Latitude Longitude Altitude Only when test has been stored or downloaded you can verify the Graphical path
(automatically drawn on a scaled X/Y plane oriented to North ) selecting on the PC software Visualization and GPS track. GPS Vel (m/sec) GPS Dist (meters, incremented during exercise phases only) Lat (DDMM.MMM N/S) Long (DD MM.MMM E/W) Alt (meters) Note: Distance is automatically calculated only during the "exercise" phases. 130 - K4 b2 User Manual Pulse Oximeter (option) The oximeter option is useful to monitor SpO2 value during the test. Test with this option can be carried out with K4b2 system in Holter Data Record or Telemetry Data Transmission mode only. In addition to the Operating sequence of this mode you must carry out the following operation:
Operating Sequence 1. Connect the Oximeter module to the Portable Unit plugging phone jack into the RS232 port at the bottom of the PU 2. Go to the K4b2 control panel and select Oximeter like External device connected by choosing Settings than External device and press Enter 3. Enable the Oximeter option by moving the * sign on Oximeter and press Enter to confirm settings. 4. Positioning Finger or Ear Clip on the patient and fix well the cable with Velcro stripes on the harness to minimize motion artifact To monitoring in real time SpO2 value during Telemetry Mode Transmission or as soon as test has been stored or downloaded, go to the PC software, select Parameters to view/Test execution (real time) or Parameters to view/Test visualization (after download) from the Options menu and select SpO2 parameter. Chapter 11 - External devices - 131 132 - K4 b2 User Manual System maintenance System maintenance All service operations which are not specified in this user manual should be performed by qualified personnel in accordance with the service handbook (to be required to the manufacturer). Rubber mouthpieces, face masks, breathing valve and the other parts are not shipped sterile. They should be disinfected before using according to the following instructions. All materials used in the construction of the K4 b2 are non toxic and pose no safety risk to the patient or operator. Prior to the device cleaning, disinfection and inspection it is necessary to switch off the device and to disconnect adapters from the supply mains. In order to guarantee the highest accuracy of measurements we recommend you to disinfect the turbine periodically. Use disposable anti-bacterial filters or disinfect each part in contact with the patient before each test. Cleaning and disinfection Cleaning and disinfecting instructions are of fundamental importance to control infections and assure patient safety. In fact aspiration of residue, particles and contaminated agents are life threatening. In this handbook we strongly recommend you to follow the rules worked out by ATS and ERS (see: Lung Volume Equipment and Infection Control ERS/ATS WORKSHOP REPORT SERIES, European Respiratory Journal 1997; 10: 1928 1932), which are summarised as follows:
Accessible internal as well as external surfaces of equipment exposed to expired gas should be washed and disinfected prior to testing of subsequent patients. Liquid disinfection can be used if the equipment is well cleaned first (no droplets of saliva/sputum remain). Disposable gloves should be worn when handling mouthpieces, when cleaning equipment exposed to saliva or sputum and especially when drawing blood. Laboratory staff should wash hands prior to testing of each patient. Adopt particular precautions when testing patients with recognised high risk communicable diseases (e.g. tuberculosis, multidrug resistant staphylococcus). In these cases, the clinical need for such testing should justify the risks. During the disinfection:
do not use alcohol or other liquids containing gluteraldehyde on the exterior surfaces of the equipment. Actually they can damage polycarbonates plastics and may produce unhealthy substances. do not use abrasive powders or glass cleaners containing alcohol or ammonia on the plexiglas components of the equipment do not steam autoclave any parts of the equipment unless it is clearly specified. do not immerse the optoelectronic reader. Preparing the disinfecting solution The following recommendations are retrieved from:
APIC (Association for Professionals in Infection Control and Epidemiology, Inc.):
APIC Guidelines for Selection and Use of Disinfectants; William A. Rutala, PhD, MPH, CIC. American Journal of Infection Control, vol.24, N.4, pp. 313-342, August 1996 -
http://www.apic.org/pdf/gddisinf.pdf As disinfecting solution it is suggested:
Sodium hypochlorite 0.5% (5000 ppm) prepared fresh for use within 24 hours. Sodium hypochlorite 1% (10000 ppm) prepared fresh for use within 30 days. The first solution can be easily prepared by adding 1 part household bleach (sodium hypochlorite 5.25%) to 9 parts water, the second one by adding 1 part household bleach to 4 parts water. 134 - K4 b2 User Manual sss Warning: Do not use alcoholic solutions for the turbine, otherwise there can be damages to the plastic material. Cleaning the turbine flowmeter It is necessary to disinfect periodically the turbine for sanitary measures or/and for the correct device function. The disinfecting procedure is easy and may be effected every time the user needs, keeping attention to some precautions:
1. Take out the turbine. 2. Dip it in a disinfectant solution (non alcoholic based) for about 20 minutes. 3. Rinse the turbine in a vessel, filled of clean water, shaking gently to remove the disinfectant (do not clean the turbine by putting it under running water!). 4. Let it dry to air. 5. After cleaning the turbine, check if the turbine propeller rotates freely even with a low speed air flow. 6. Connect the turbine to the reader. Precautions during the cleaning of the turbine 1. Do not expose the turbine to high heat and do not put it under running water. 2. Do not ever dip the optoelectronic reader in any kind of solution, the liquid infiltration would damage the internal circuit. 3. Do not use alcoholic solutions to clean the turbine. Suggested disinfection solutions Helipur H Plus Braun Melsungen AG Gigasept FF Dismozon pur Bode Chemie GmbH TETA-S CIDEX Fresenius AG Johnson & Johnson Schulke & Mayr GmbH Masks cleaning and disinfection The face masks should be cleaned and sterilised after each test. Disassembling the different parts of the mask 1. Remove the valves from their place. 2. Remove the adapter for the optoelectronic reader. Cleaning the mask 1. Clean the mask with hot water and a soap solution to remove the impurities. 2. Rinse the mask with energy in running hot water. Warning: Do not use synthetic or petroleum-based products for the masks cleaning. Chapter 12 - System maintenance - 135 Disinfecting the mask Its possible disinfecting the mask following these procedures:
Standard autoclaving method Rapid cycles of autoclave lasting 10 minutes at 132C (270F) Heavy cycles of autoclave lasting 30 minutes at 121C (250F) Pre vacuum cycles of autoclave lasting 30 minutes at 121C (250F) Hetilene oxide method (ETO) The hetilene oxide doesnt deteriorate the face masks. Sterilisation by this method is not advised unless sufficient data is available regarding the time required for complete out-gassing of residual ETO. If you use this method, follow carefully the instruction provided by the maker of the sterilising product. Pasteurisation The disinfecting with hot water is a sterilising method that may be used with the silicone masks. Permapure maintenance Do not bend, squash or deform it. Do not keep it in open air, if not used, especially in crowded or smoky places. Periodically grease the o-ring on the connector in order to simplify the flowmeter If saliva is entered in the tube, replace it immediately, because it lost its functions. connection. Replace it every 100 test / 6 month. Inspections The equipment requires easy inspections to be carried out in order to assure a proper electrical and mechanical safety level in the years. These inspections are highly recommended after a rough use of the equipment or after a period of storage in unfavourable environmental conditions. Referring to the electrical safety, it is important to check the conditions of insulation materials of cables, plugs and any other visible part by means of simple inspection, when the equipment is switched off and adapters (or electrical feeders) are disconnected from the supply mains. Mechanical parts to check are: the turbine and breathing circuits. Follow these instructions:
extract the turbine from the optoelectronic reader;
verify, by inspection, that the turbine axis fits correctly its seats and the blade is strongly fastened on the axis itself (it can be useful to shake slightly the turbine in order to note any anomalous movement). Check if there are any torn or broken components in the breathing circuits: remember that they can create safety risk to patients during tests. Replace the fuses The fuses can be replaced easily in the following way:
1. Open the power supply cover using a screwdriver as shown in the picture. 2. Extract the fuse holder as shown in the picture 136 - K4 b2 User Manual 3. Replace the damaged fuse(s). Note: Be careful to use proper fuses:
A 680 023 500 (Time lag fuses 5x20 250V T500mA) Chapter 12 - System maintenance - 137 138 - K4 b2 User Manual Appendix Service - Warranty Warranty and limitation of liability from received those warranties which COSMED has COSMED provides a one (1) year limited warranty from the date of the original sale of COSMED products. All COSMED products are guaranteed to be free from defect upon shipment. COSMEDs liability for products covered by this warranty is limited exclusively to replacement, repair, or issuance of a credit for the cost of a defective product, at the sole discretion of COSMED. COSMED shall not be liable under the foregoing warranty unless (i) COSMED is promptly notified in writing by Buyer upon discovery of defect; (ii) the defective product is returned to COSMED, transportation charges prepaid by Buyer, (iii) the defective product is received by COSMED no later than four weeks after the last day of the one (1) year limited warranty period; and
(iv) COSMEDs examination of the defective product establishes, to COSMEDs exclusive satisfaction, that such defect was not caused by misuse, neglect, improper installation, unauthorised repair or alteration, or accident. If the product is manufactured by a third-party, COSMED shall make available for the Buyers benefit only third-party manufacturer(s). COSMED hereby specifically disclaims any and all warranties and/or liabilities arising from defect(s) and/or damage(s) to and/or caused by products manufactured by third-party manufacturers. Buyer must obtain written authorisation from COSMED prior to the repair or alteration of COSMED products(s). Failure of Buyer to obtain such written authorisation shall void this warranty. COSMED hereby specifically disclaims any and all other warranties of any kind, whether express or implied, in fact or by law, including, but without limitation, any and all warranties of merchantability and/or fitness for a particular purpose. COSMED shall not be liable for special, indirect and/or consequential damages, nor for damages of any kind arising from the use of any COSMEDs products, whether said products are used alone or in combination with other products or substances. Determination of the suitability of any of COSMEDs product(s) furnished hereunder for the use contemplated by Buyer is the sole risk and responsibility of Buyer, and COSMED has no responsibility in connection therewith. Buyer assumes all risks and liabilities for loss, damage or injury to persons or property of Buyer or others arising out of the use or possession of COSMEDs products. The limited warranty as herein above set forth shall not be enlarged, diminished, modified or affected by, and no obligation or liability shall arise or grow out of, the renderings of technical advice or service by COSMED, its agents or employees in connection with Buyers order or use of the product(s) furnished hereunder. the Return goods policy for warranty or non warranty repair Goods shipped to COSMED for repair are subject to the following conditions:
1. Goods may only be returned after your receipt of a Service Return Number
(SRN) from COSMED S.r.l. 2. Place your SRN report and Packing List outside the package. 3. Goods returned must be shipped with freight and insurance charges prepaid. Collect shipments will not be accepted. 4. The following list of goods are not eligible for return unless proven defective.
- Special order items
- Expendable products
- Goods held over 30 days from COSMEDs invoice date.
- Used goods not in original shipping containers.
- Goods which have been altered or abused in any way. 5. The following parts are not covered by warranty:
- consumables
- fragile glass or plastic parts
- rechargeable batteries
- damages at the
- damages due to use of the device not conforming to the indication reported in this manual 140 - K4 b2 User Manual Repair Service Policy Goods returned to seller for Non-Warranty repair will be subject to conditions 1, 2, 3, 4. The returned goods need to re-enter COSMED together with the customs documents
(Pro-forma Invoice and Customs Paper) as requested by the Italian law. The shipment has to be qualified as a Temporary Export. All the goods returned to COSMED without the customs papers will not be accepted. For European Community members:
Pro-Forma invoice complete with:
Number Description of the goods Quantity Serial Number Value in Number of parcel Gross weight Net weight Reason for resent (i.e. Resent for repair) In case you should send the system for repair please contact the nearest service centre or contact COSMED at the following address:
COSMED S.r.l. Via dei Piani di Monte Savello 37 P.O. Box 3 00040 Pavona di Albano - Rome, Italy tel. fax E-mail: customersupport@cosmed.it For USA customers only please contact:
COSMED USA Inc 2758 North Paulina Chicago IL 60614 USA Phone: +1 (773) 528-8113 Fax: +1 (773) 528-8116 email: usa.sales@cosmed.it To ensure that you receive efficient technical assistance, please specify as precisely as possible the nature of the problem as it is specified on the assistance information form. We advise you to save the original packaging. You may need it in case to ship the unit to a technical assistance centre.
+39 (06) 9315492
+39 (06) 9314580 Chapter 13 - Appendix - 141 Privacy Information Dear Customer, we inform you that your personal data are gathered and will be used by Cosmed Srl in conformity with the requirements of the Italian privacy law (Decreto Legislativo 196/2003). We believe it is important for you to know how we treat your personal data. Personal data treatment and purposes We request and process your personal data:
a. to place an order, register a product, request a service, answer a survey, enter a contest, correspond with us (all of the above, in the following: service) and, if necessary, to supply the Competent Authorities with the required information;
in order to define your commercial profile;
in order to use your commercial profile for own marketing and advertising purposes;
for accounting purposes, including e-mailing of commercial invoices;
for providing your information to selected business partners (also abroad), in order to supply the service;
b. c. d. e. How your personal data are treated Your personal data will be stored in electronic format, and protected at the best from destruction, loss (even accidental), not authorized accesses, not allowed treatment or use not in conformity with the purposes above listed. The consent is optional, but If you deny the consent, we regret we cannot supply the service. Holder of the treatment The holder of the treatment is Cosmed Srl, Via dei Piani di Monte Savello 37, Pavona di Albano Laziale (RM). The responsible of the personal data treatment is indicated in the documentation stored by Cosmed Srl itself. Customer rights In accordance with art.7 of the Law, you can:
a. obtain confirmation of the existence of your personal data and their communication in intelligible form;
b. obtain:
updating, correction or integration of your data;
deletion or transformation in anonymous form of your personal data;
c. deny your consent to the treatment of your personal data;
These rights can be exercised directly requesting in writing to the holder of the treatment. 142 - K4 b2 User Manual Converting factors configuration You can edit the parameters shown in Control Panel by selecting Control Panel from the Calibration menu in the calibration program, then pressing the button by side. You might configure the following options:
Name:
identify the parameter Unit of meas.:
unit of measurement Base line and Gain: factors used to convert the acquired raw data (mV) into the final format according to Y=(mV-BL)*Gain. The value entered for gain must be multiplied by 1000 (for Gain=1, enter 1000). the number of decimals shown as 0 Precision:
Chapter 13 - Appendix - 143 Calculations references VO2 and VCO2
"Energy Expenditure and Fuel Selection in Biological Systems: The Theory and Practice of Calculations Based on Indirect Calorimetry and Tracer Methods": M. Elia, G. Livesey, World Rev. Nutr. Diet. Basel, Karger, 1992, vol 70, pp 68-131.
"Nutritional Assessment in Critical Care, A Training Handbook": Donald C. Zavala Anaerobic threshold (modified V-Slope) The break-point or intercept of the two slopes can be selected by a computer program that defines the VO2 above which VCO2 increases faster than VO2, without hyperventilation. During an incremental exercise above the Lactate Threshold, the net increase in lactic acid production results in an acceleration of the rate of increase in VCO2 relative to VO2. When these variables are plotted against each other (squared graph without recovery points), the relationship is composed of two apparently linear components, the lower of which has a slope of slightly less than 1.0, whereas the upper component has a slope steeper than 1.0. The intercept of these two slopes is the LT or AT point measured by gas exchange. The increase in VCO2 in excess of that derived from aerobic metabolism must be generated from the buffering of lactic acid. This is an obligatory gas exchange phenomenon seen in all subjects who exercise to work levels above their LT. This technique is referred to as the V-Slope method. OVS, Original V-Slope method: "A new method for detecting anaerobic threshold by gas exchange", Beaver, Wasswrman, Whipp, JAP 1986, 60:2020-2027. MVS, Modified V-Slope method: "Metabolic acidosis during exercise in patients with chronic obstructive pulmonary disease", Sue, Wasserman, CHEST 1988, 94:931-938. Delayed Kinetics of VO2 in the Transition from prior Exercise. Evidence for O2 Transport Limitation of VO2 Kinetics: A Review; R.L. Hughson and M.A. Morrissey, Int. J. Sports Med. 4 (1983) 31-39 ISO 8996: Ergonomics Determination of metabolic heat production, 1990 In the following picture it is shown how the O2 debit and deficit values are computed. O2 kinetics 144 - K4 b2 User Manual ATS 94 recommendations Reference: Standardization of Spirometry: 1994 Update American J. Respiratory Critical Care Medicine, Vol. 152, 1107-1136; 1995. ATS recommendations 8l (BTPS) 14 l/sec 3% or < 50ml 5% or < 200ml/sec Volume range:
Flow range:
Volume accuracy:
Flow accuracy:
Flowmeter resistance: <1.5 cmH2O da 0 a 14 l/sec Reproducibility: the 2 largest of 3 acceptable FEV1 and FVC values should be within 5% or 150 ml. The end of test: no change in volume for 1 second with at least 6 seconds of collected volume. Accumulation time: the maximum time allowed for volume accumulation during the VC manoeuvre should be at least 30 seconds and at least 15 seconds during the FVC. The spirometer should be store at least 8 FVC maneuvres. FEV1 should be calculated by using the back extrapolation method to detect the start of the test, extrapolated volume must not be higher then 5% FVC or 150ml. The graphic resolution of the printed report must be as in the following:
Volume:
Flow:
Time:
F/V ratio:
The total number of error (FVC e FEV1 >3.5%, FEF25-75% >5.5%) during the measurement of the 24 standard waveforms must be lower than 4. 10 mm/l 5 mm/l/sec 20 mm/sec 2:1 Chapter 13 - Appendix - 145 Predicted values ERS93 Standardized Lung Function Testing: Official Statement of the European Respiratory Society, The European Respiratory Journal Volume 6, Supplement 16, March 1993. Compilation of reference values for lung function measurements in children: Ph. H. Quanjer, J. Stocks, G.Polgar, M. Wise, J. Karlberg, G. Borsboom; ERJ 1989, 2, Supp.4,184s-261s. KNUDSON 83 Changes in the Normal Maximal Expiratory Flow-Volume Curve with Growth and Anging: J. Knudson, D. Lebowitz, J. Holdberg, B. Burrows; ARRD 1983; 127:725-734 ITS Intermountain Thoracic Society: Clinical Pulmonary Function Testing, second edition
(1984) pp 101, 144 LAM A survey of ventilatory capacity in Chinese subjects in Hong Kong: Lam Kwok-Kwong, Pang Shing et Al. Annals of Human Biology, 1982, vol. 9, No. 5, 459-472. Multicntrico de Barcelona Spirometric reference values from a Mediterranean population: J. Roca, J. Sanchis, A. Agusti-Vidal, F. Segarra, D. Navajas. R. Rodriguez-Roisin, P. Casan, S. Sans. Bull. Eur. Physiopathol. Respir. 1986, 22, 217-224. Nhanes III Spirometric reference values from a sample of the general US population: John L. Hankinson, John. R. Odencrantz and Kathleen B. Fedan. Am J Respir Critr Care Med 1999, 159, 1798-187. Pneumobil (Brazil) Valores extrados do Programa Pneumobil/Brasil para a Tese de Doutoramento do Dr. Carlos Alberto de Castro Pereira. (Boehringer). Gutierrez (Chile) Gutierrez et Al. Reference values for Chile population Knudson, Morris and Bass The maximal Expiratory Flow-Volume curve: Knudson et al. ARRD Vol. 123, p. 659-
664, 1981 Spirometric Standard for healthy non-smoking adults: ARRD Vol. 10-3, p. 57-67, 1971 Pereira (Brazil) Pereira CAC; Barreto SP; Simes JG; Pereira FWL; Gerstler JG; Nakatani J. Valores de Referncia para Espirometria em uma amostra da populao brasileira adulta. Jornal de Pneumologia 1992; 18: 10-22. Mallozi MC. Valores de referncia para espirometria em crianas e adolescentes, calculados a partir de uma amostra da cidade de So Paulo. Valores finais publicados em : Pereira CAC; Lemle A; Algranti E; Jansen JM; Valena LM; Nery LE; Mallozi M; Gerbasi M; Dias RM; Zim W. I Consenso Brasileiro sobre Espirometria. Jornal de Pneumologia 1996; 22:105-164. Scalambrini Costa F, Scueiri CEB, Silva Jr WC, Pereira CAC, Nakatani J. Valores de referncia para espirometria em uma amostra da populao brasileira adulta da raa negra. J Pneumologia 1996;22: 165-170. Neder JA; Andreoni S; Castelo-Filho A; Nery LE. Reference values for lung function tests. I. Static Volumes. Brazilian Journal Medical and Biological Research 1999;
32:703-17. Neder JA, Andreoni S, Lerario MC, Nery LE. Reference values for lung function tests. II. Maximal respiratory pressures and voluntary ventilation. Braz J Med Biol Res 1999
;32:719-27 DLCO Standardized Lung Function Testing: Official Statement of the European Respiratory Society, The European Respiratory Journal Volume 6, Supplement 16, March 1993. 146 - K4 b2 User Manual Compilation of reference values for lung function measurements in children: Ph. H. Quanjer, J. Stocks, G.Polgar, M. Wise, J. Karlberg, G. Borsboom; ERJ 1989, 2, Supp.4,184s-261s. Reference Values for Residual Volume, Functional Residual Capacity and Total Lung Capacity - ATS workshop on Lung Volume measurements, official statement of the European Respiratory Society; J. Stocks, Ph. H. Quanjer: ERJ, 1995, 8, 492-506 Single Breath Oxygen Test Buist SA, Ross BB: Quantitative Analysis of the Alveolar Plateau in the Diagnosis of Early Airway Obstruction. ARRD 108: 1081, 1973 Mansell A, Bryan C, Levison H: Airway Closure in Children. JAP 33: 711-714, 1972 Buist SA, Ross BB: Predicted Values for Closing Volumes Using a Modified Single Breath Test. ARRD 107: 744-751, 1973. Rint Lombardi E, Sly PD, Concutelli G, et al. Reference values of interrupter respiratory resistance in healthy preschool white children. Thorax 2001; 56: 691-695. Mip/Mep Leo F. Black, Robert E. Hyatt: Maximal Respiratory Pressures: Normal Values and Relationship to Age and Sex, American Review of Respiratory Disease, Volume 99, 1969 Vincken W, Ghezzo H & Cosio MG (1987). Maximal static respiratory pressures in adults: normal values and their relationship to determinants of respiratory function. Bull Eur Physiopathol Resp 23: 435-439. Automatic diagnosis (algorithm) Reference: Lung Function Testing: selection of reference values and interpretative strategies, A.R.R.D., 144/ 1991:1202-1218. LLN=Pred-0.674*SD LLN=Pred-1.647*SD LLN=Pred*0.8
(ATS, 50 percentile)
(ERS, 95 percentile)
(80%Pred) Criterion FVC and FEV1/FVC > LLN Message interpretation Normal Spirometry Obstructive abnormality (it may be physiological) % Pred FEV1 >= 100 Obstructive abnormality: mild Obstructive abnormality: moderate Obstructive abnormality: moderately severe Obstructive abnormality: severe Obstructive abnormality: very severe Restrictive abnormality: mild Restrictive abnormality: moderate Restrictive abnormality: moderately severe Restrictive abnormality: severe Restrictive abnormality: very severe
% Pred FEV1 < 100 and >= 70
% Pred FEV1 < 70 and >= 60
% Pred FEV1 < 60 and >= 50
% Pred FEV1 < 50 and >= 34
% Pred FEV1 < 34 FVC < LLN and % Pred FVC >= 70
% Pred FVC < 70 and >= 60
% Pred FVC < 60 and >= 50
% Pred FVC < 50 and >= 34
% Pred FVC < 34 Quality Control Messages Reference: Spirometry in the Lung Health Study: Methods and Quality Control, ARRD 1991; 143:1215-1223. Message Start faster Blast out harder Avoid coughing Blow out longer Criterion VEXT >5% of the FVC and >150ml PEFT >120 msec 50% drop in the flow in first second FET100% <6 sec. Chapter 13 - Appendix - 147 Blow out more air Blow out harder Take a deeper breath Blow out faster That was a good test FVC reproducible FEV1 reproducible PEF reproducible MVV time too short flow >0.2l/s within 20 ml of FVC dPEF<10%
dFVC<200ml and 5% best FVC dFEV1<200ml and 5% FEV1 No errors diff. 2 max FVC within 0.2 l diff. 2 max FEV1 within 0.2 l diff. 2 max PEF within 10 %
MVV time less than 12 sec 148 - K4 b2 User Manual References Gas Exchange References
[On line computer analysis and breath by breath graphical display of exercise function tests.; Beaver, Wasserman, Whipp, JAP , 34(1):128-132, 1973]
[Measurement and analysis of gas exchange during exercise using a programmable calculator; Sue, Hansen, Blais, Wasserman, JAP, 49(3), 1980:456-461]
[Principles of exercise testing and interpretation, 2 edition; Wasserman et Al, 1994]
[Clinical Exercise Testing, 3rd edition, Jones 1988]
ERS task force on standardization of clinical exercise testing. Clinical exercise testing with reference interpretation strategies. J. Roca, B. Whipp, S. Anderson, R. Casaburi, J.E. Cotes, P. Palange., ERJ 1997; 10: 2662-2689. indications, standardization and lung disease:
to Indirect calorimetry
[Energy Expenditure and Fuel Selection in Biological Systems: The Theory and Practice of Calculations Based on Indirect Calorimetry and Tracer Methods: M. Elia, G. Livesey, World Rev. Nutr. Diet. Basel, Karger, 1992, vol 70, pp 68-131.]
[Nutritional Assessment in Critical Care, A Training Handbook: Donald C. Zavala]
Spirometry ATS 94: Standardization of Spirometry: 1994 Update, American J. Respiratory Critical Care Medicine, Vol. 152, 1107-1136; 1995 ERS 93: Standardised Lung Function Testing: Official Statement of the European Respiratory Society, The European Respiratory Journal Volume 6, Supplement 16, March Lung function", J.E. Cotes, Blackwell scientific publications
"Guidelines for Clinical Exercises Testing Laboratories", I.L. Pina, G.J. Balady, P. Hanson, A.J. Labovitz, D.W. Madonna, J. Myers. American Heart Association. 1995;
91, 912. Sub-maximal testing
[Cardiorespiratory Assessment of Apparently Healthy Populations, Timothy R. McConnell, in ACSMs Resource Manual for Guidelines for Exercise Testing and Prescription, 4th Edition, pp. 361-366]
[Franklin BA, ed. ACSMs Guidelines for Exercise Testing and Prescription, 6th Edition Philadelphia: Williams&Wilkins, 2000:22-29]
Chapter 13 - Appendix - 149 150 - K4 b2 User Manual
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2005-08-05 | 913.3 ~ 914.7 | DXX - Part 15 Low Power Communication Device Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2005-08-05
|
||||
1 | Applicant's complete, legal business name |
COSMED Srl
|
||||
1 | FCC Registration Number (FRN) |
0012051926
|
||||
1 | Physical Address |
Via dei Piani di Monte Savello, 37
|
||||
1 |
Pavona di Albano, N/A 00040
|
|||||
1 |
Italy
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
k******@emcc.de
|
||||
1 | TCB Scope |
A1: Low Power Transmitters below 1 GHz (except Spread Spectrum), Unintentional Radiators, EAS (Part 11) & Consumer ISM devices
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
SN7
|
||||
1 | Equipment Product Code |
K4B2T-USA
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
P******** B****
|
||||
1 | Title |
R&D Director
|
||||
1 | Telephone Number |
00390********
|
||||
1 | Fax Number |
00390********
|
||||
1 |
i******@cosmed.it
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DXX - Part 15 Low Power Communication Device Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | TELEMETRY UNIT | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
Prima Ricerca & Sviluppo S.r.l.
|
||||
1 | Name |
E****** B******
|
||||
1 | Telephone Number |
39-03********
|
||||
1 | Fax Number |
39-03********
|
||||
1 |
e******@primaricerca.it
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 913.30000000 | 914.70000000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC