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USER`S MANUAL
MOCA203 V2 with Unity Software Hemodynamic Monitoring System USER’S MANUAL Version 2 V2 MOCA203 User’s Manual Manufactured by: LiDCO Ltd 16 Orsman Road London N1 5QJ UK LiDCOrapid User’s Manual Software V2.0 This device is covered by one or more of the following patents: US Pat 006071244; WO9724982; other patents applied for. This device bears the mark in accordance with the provisions of the Directive 93/42/EEC of June 14, 1993, concerning medical devices. Caution: (USA) Federal Law restricts this device to sale by or on the order of a physician. All LiDCO devices are intended for use by qualified medical personnel only. Carefully read all manuals that are provided with your device before use. Printed in the United Kingdom. All rights are reserved. LiDCO Ltd. reserves the right to alter the products described in this manual at any time without notice. No part of this manual may be reproduced, copied, translated or transmitted in any form or by any means without the prior written permission of LiDCO. Information provided in this manual is intended to be accurate and reliable. However, LiDCO assumes no responsibility for use of this manual, nor for any infringements upon the rights of third parties which may result from such use. All brand and product names mentioned herein are trademarks or registered trademarks of their respective holders. This device is subject to the EU Directive 2002/96/EC (WEEE). It is not registered for use in private households, and may not be disposed of at municipal collection points for waste electrical and electronic equipment. LiDCO Ltd has authorized a firm to dispose of this device in the proper manner. For more detailed information, please contact your local LiDCO Ltd organization. Copyright Notice • LiDCO, LiDCOunity and PulseCO are trademarks of LiDCO Ltd. This document is copyrighted, 2007-2012, by LiDCO Ltd. • Bispectral Index, BIS and the BIS logo design, BISx and the BISx logo design, BIS Ready and the BIS Ready logo design and Zipprep are registered trademarks of Nellcor Puritan Bennett LLC. For more information on BIS products, visit www.covidien.com • CNAP is a trademark of CNSystems. i www.lidco.com Version 2 MOCA203 V2 With Unity Software Safety and Maintenance 1. Read these safety instructions carefully. 2. Keep this User's Manual for later reference. 3. All cautions and warnings on the equipment should be noted. 4. Make sure the voltage of the power source is correct before connecting the equipment to the power outlet. 5. Use only the power supply unit supplied with the equipment. To avoid the risk of electric shock, this monitor must be connected to a mains supply with protective earth. 6. Use only the correct adapter for the power supply unit to suit the power source. 7. The power outlet socket must be located near the monitor and must be easily accessible. Position the power cord so that people cannot step on it. Do not place anything over the power cord. 8. Disconnect this equipment from any power outlet socket before cleaning. Use a damp cloth. Do not use liquid or spray detergents for cleaning directly onto the monitor. 16. Never open the equipment. For safety reasons, the equipment should be opened only by LiDCO certified service personnel. 17. If one of the following situations arises, get the equipment checked by service personnel: a. The power cord, or power supply unit, or other cable is damaged. b. Liquid has penetrated into the equipment. c. The equipment has been exposed to moisture. d. The system does not work well, or you cannot get it to work according to the User's Manual. e. The equipment has been dropped and damaged. f. The equipment has obvious signs of breakage. 18. DO NOT LEAVE THIS EQUIPMENT IN AN UNCONTROLLED ENVIRONMENT WHERE THE STORAGE TEMPERATURE IS BELOW -20° C (-4° F) OR ABOVE 60° C (140° F). THIS MAY DAMAGE THE EQUIPMENT. 9. Keep this equipment away from humidity. 10. Never pour any liquid into an opening. This may cause fire or electrical shock. 11. The openings on the enclosure are for air convection. Protect the equipment from overheating. DO NOT COVER THE OPENINGS. 12. Put this monitor on a reliable surface during installation. Dropping it or letting it fall may cause damage. The Monitor should be mounted on the LiDCO desktop stand, or a dedicated roll stand, or an engineered support to provide stability during use. Follow the instructions supplied with the mounting arrangement to ensure correct fitting. 13. If the equipment is not used for a long time, disconnect the Monitor and the power supply unit from the power source to avoid damage by transient over-voltage. 14. No modification to this equipment is allowed. 15. There are no user or service personnel replaceable parts. Version 2 www.lidco.com ii MOCA203 V2 Safety and Maintenance BISx Warnings: BISx Cautions DUE TO ELEVATED SURFACE TEMPERATURE, DO NOT PLACE BISx IN PROLONGED DIRECT CONTACT WITH PATIENT’S SKIN, AS IT MAY CAUSE DISCOMFORT. Do not autoclave the BISx. Autoclaving will seriously damage this component. THE CONDUCTIVE PARTS OF ELECTRODES OR SENSOR AND CONNECTORS SHOULD NOT CONTACT OTHER CONDUCTIVE PARTS, INCLUDING EARTH. TO REDUCE THE HAZARD OF BURNS DURING USE OF HIGH FREQUENCY SURGICAL EQUIPMENT, THE SENSOR OR ELECTRODES SHOULD NOT BE LOCATED BETWEEN THE SURGICAL SITE AND THE ELECTROSURGICAL UNIT RETURN ELECTRODE. TO REDUCE THE HAZARD OF BURNS DURING USE OF BRAIN STIMULATING DEVICES (e.g., TRANSCRANIAL ELECTRICAL MOTOR EVOKED POTENTIAL), PLACE STIMULATING ELECTRODES AS FAR AS POSSIBLE FROM THE BIS SENSOR AND MAKE CERTAIN THAT SENSOR IS PLACED ACCORDING TO PACKAGE INSTRUCTIONS. THE SENSOR MUST NOT BE LOCATED BETWEEN DEFIBRILLATOR PADS WHEN A DEFIBRILLATOR IS USED ON A PATIENT CONNECTED TO THE BIS VISTA SYSTEM. TO MINIMIZE THE RISK OF PATIENT STRANGULATION, THE PATIENT INTERFACE CABLE (PIC) MUST BE CAREFULLY PLACED AND SECURED. iii Do not open BISx for any reason. The seal to prevent liquids from entering the BISx may be damaged if opened. Service or repairs must be performed only by qualified biomedical technicians. Continuous impedance checking may need to be disabled if the 1 nanoampere 128Hz impedance check signal interferes with other equipment (e.g., evoked potential monitors). The sound pressure level at the operator's position according to IEC 704-1:1982 is no more than 70dB(A). Only connect the LiDCOrapid to other equipment or data networks that are certified to IEC 60601-1 or locally equivalent safety standards. Although compliant with the applicable EMC requirements this equipment may still be affected by, and may still affect other equipment. If interference is occurring, the user is encouraged to try to correct the interference by one of the following measures: • Repositioning either equipment to reorient and/or increase the separation between the equipment • Connect the equipment to a power outlet on a circuit different from that to which the other equipment is connected • Consult an experienced technician for help. www.lidco.com Version 2 MOCA203 V2 With Unity Software List of Symbols Symbol Meaning Symbol DC Power Meaning Locate over artery (e.g. Brachial) CE Mark SN Serial Number UL Mark REF Reference Number Potential RF Source Equipotential ETL Mark Hot Surface Read Operators Manual (old) Manufacturing Date Press Read Operators Manual Classification Type B, Class I Classification Type BF, Defib Proof Classification Type CF, Defib Proof Warning WEEE Regulations symbol for disposal of Electronic Equipment Latex Free Version 2 www.lidco.com iv MOCA203 V2 User’s Manual Table of Contents 1.0 Introduction / Overview ............................................1 4.7 Patient Details Screen ......................................26 1.1 Standard Hemodynamic Monitoring ..................2 4.8 Operation ........................................................29 1.2 Functional Hemodynamic Monitoring ................3 4.8.1 Overview of LiDCOrapid Screen ....................29 2.0 Quick Start ..............................................................4 4.8.2 Navigating the Screen ..................................30 2.1 LiDCOrapid ........................................................4 4.8.3 Hemodynamic Monitoring Display ................31 2.2 BIS ....................................................................6 4.8.4 Event Response Display................................33 2.3 CNAP ................................................................7 4.8.5 Dynamic Preload Responsiveness Display ....35 3.0 Intended Use/Contra-Indications/Warnings ..............8 4.9 Configuration of LiDCOrapid Screen ................37 3.1 Intended Use ....................................................8 4.9.1 Hemodynamic Trend: ....................................38 3.2 Contraindications ..............................................8 4.9.2 Event Response: ..........................................38 3.3 Warnings – LiDCOrapid......................................9 4.9.3 Dynamic Preload Responsiveness Parameters: ..............................................................................38 3.4 Warnings – BIS ................................................11 3.5 Warnings – CNAP ............................................11 3.6 Cautions ..........................................................12 4.0 Monitor Operation ..................................................14 4.1 Setup ..............................................................14 4.1.1 LiDCOrapid Equipment Setup ......................14 4.1.2 Starting the Monitor ......................................14 4.2 Connecting the LiDCOrapid to the Primary Patient Monitor ..................................................................15 4.2.1 Option 1: Direct Analog Input (POC Model Only) ..............................................................................15 4.2.2 Option 2/3: LiDCO BP Module ......................15 4.2.3 LiDCO BPM Channel Selection ....................16 4.2.4 Zeroing Channel 1 ........................................17 4.2.5 Beat Detector Threshold ..............................17 4.3 BIS Monitoring Equipment and Setup ..............19 4.4 CNAP Module Equipment and Setup ..............20 4.5 Welcome Screen and Module Navigation ........23 4.5.1 Adding or Removing Modules after the Session Starts ....................................................................23 4.5.2 LiDCOrapid ..................................................24 4.5.3 BIS................................................................24 4.5.4 CNAP Module ..............................................24 4.6 LiDCOsmart ....................................................25 v 4.10 LiDCOrapid Calibration ..................................39 5.0 Bispectral Index and EEG monitoring ....................40 5.1 Overview ..........................................................40 5.2 Warnings..........................................................42 5.2 1 General ........................................................42 5.2.2 Precautions ..................................................42 5.2.3 Patient Preparation........................................43 5.3 Hardware Setup: Connecting the BISx Pod......44 5.3.1 Connect the BISx Pod to the monitor............44 5.3.2 Secure the BISx Pod ....................................45 5.3.3 BIS Setup ....................................................45 5.4 BIS Configuration Menu Options ......................46 5.4.1 Configuration Menu ......................................46 5.5 Sensor Check ..................................................47 6.0 CNAP Operation ....................................................49 6.1 Overview ..........................................................49 6.2 Warnings..........................................................50 6.3 Hardware Setup: Connecting the CNAP Module .. ..............................................................................52 6.3.1 Hardware Connections..................................52 6.3.2 Patient Setup (connection) ............................52 6.4 CNAP Operation ..............................................53 www.lidco.com Version 2 MOCA203 V2 User’s Manual 6.4.1 Starting the Measurement ............................53 9.7 Service Mode ..................................................92 6.5 Main LiDCO CNAP Module Measurement and .... Display Screen ......................................................56 9.8 Parameters ......................................................93 6.6 CNAP Configuration Menu Options ..................58 6.6.1 CNAP Calibration Interval ..............................58 6.6.2 Alarms ..........................................................59 7.0 Combined Display and Common Features ............60 7.1 LiDCOrapid and BIS ........................................60 7.2 LiDCOrapid and CNAP ....................................61 7.3 BIS and CNAP ................................................62 7.4 LiDCOrapid, BIS and CNAP ............................63 7.5 Event Marking ..................................................64 7.6 Event History....................................................65 7.7 History Screen ................................................66 7.8 Chart Screen....................................................67 8.0 Alarms, Safety, Cleaning and Maintenance ............68 8.1 Alarms ............................................................68 8.2 Safety Instructions, Cleaning, Maintenance ......69 8.2.1 Safety Requirements ....................................69 8.2.2 Cleaning and Disinfection Instructions ..........70 9.8.1 Rapid ............................................................93 9.8.2 BIS................................................................94 9.8.3 CNAP Parameters ........................................94 9.9 Technical Specifications ..................................95 9.9.1 Rapid Monitor ..............................................95 9.9.2 Power Supply Unit (POC-125 only)................96 9.9.3 LiDCOsmart Card..........................................96 9.9.4 Blood Pressure Module and Components ....96 9.9.5 BISx ..............................................................97 9.9.6 BISx EEG Specifications................................98 9.9.7 CNAP Module Specifications ........................98 9.10 Electrical Safety and EMC ............................101 9.11 Standards ....................................................107 9.12 Monitor Connectors Layout..........................107 9.13 Mounting Details ..........................................108 9.13.1 LiDCOrapid ..............................................108 9.13.2 LiDCOrapid and BP Module ......................109 8.2.3 Maintenance or Service ................................71 9.13.3 LiDCOrapid and the CNAP Module Mounting Options ................................................................110 8.3 Troubleshooting LiDCOrapid ............................72 10.0 References ..........................................................113 8.4 BIS Technical Alarms and Status Messages ....74 8.5 CNAP Alarms and Status Messages ................79 8.5.1 Summary ......................................................79 8.5.2 CNAP Alert Types Overview ..........................79 8.5.3 Detailed Listing of CNAP Alerts ....................80 9.0 Appendices............................................................84 9.1 Demonstration ................................................84 9.2 Data Download ................................................85 9.3 Data Output ....................................................87 9.3.1 Serial Data Configuration ..............................87 9.3.2 TCP/IP Configuration ....................................88 9.4 Date/Time ........................................................89 9.5 Language ........................................................90 9.6 Software Upgrade ............................................91 Version 2 www.lidco.com vi V2 MOCA203 User’s Manual 1.0 Introduction / Overview The display of natural groupings of parameters provides clearer and more integrated information about the patient’s hemodynamic status. The LiDCOrapid provides new platform-based software, Unity, that allows for the addition of new parameters or different methods of displaying existing parameters. At the core of the monitor is the established LiDCOrapid technology, which is a minimally invasive hemodynamic monitor that derives nominal stroke volume and heart rate from the patient's existing arterial pressure waveform using the PulseCO algorithm. The LiDCOrapid Monitor is designed to be simple to interpret, quick to set-up and provides an effective way of managing the hemodynamics of surgical or any hemodynamically unstable patient requiring fluid and drug support. The beat – to – beat parameters displayed by the LiDCOrapid allow the acute care physician to get immediate feedback on a patient’s fluid and hemodynamic status. Optimising fluid and drugs in the perioperative period to specific goals is called GDM (Goal Directed Management) and has been associated with decreased complications and length of hospital stay.1 The LiDCOrapid is the first multiparameter hemodynamic monitor specifically designed for use in the highly demanding conditions encountered in the operative room. The LiDCOrapid is now available with an optional module (BIS) for noninvasive monitoring of the patient’s EEG signal. The BIS (Covidien, USA) technology can now be connected to the LiDCOrapid Monitor. This provides the ability to monitor the state of the brain based on acquisition and processing of EEG signals. The BIS system processes raw EEG signals to produce a single number, called the Bispectral Index, or BIS, which may be used as an aid in monitoring the effects of certain anesthetic agents. It use may be associated with a reduction in the incidence of awareness with recall in adults during general anesthesia and sedation. BIS technology monitors the state of the brain through acquisition of EEG signals, and may provide insight into the patient-specific effects of anesthesia on the brain. (ref. B1) BIS is a consciousness monitoring technology proven in rigorous prospective clinical studies to help clinicians reduce the incidence of awareness in adults with recall by approximately 80%. (ref. B2). Prospective, randomized studies have shown reductions in the use of certain primary anesthetic agents when titrated to the BIS Index. (ref. B3) Prospective randomized studies have shown that when anesthetic agents were titrated to the BIS Index, patients woke up faster, were extubated sooner, and were more oriented on arrival at the post anesthesia care unit, compared to standard methods of practice (ref. B4). LiDCOrapid is also has an optional module for continuous non-invasive arterial blood pressure monitoring (CNAP, CNSystems, Austria). The CNAP technology can now be directly connected to the LiDCOrapid in order to display arterial blood pressure waveform data. The LiDCO CNAP Module uses established CNAP technology to obtain the arterial blood pressure waveform continuously and non-invasively for patients that are not otherwise indicated for invasive arterial blood pressure monitoring. 1 www.lidco.com Version 2 V2 MOCA203 User’s Manual 1.1 Standard Hemodynamic Monitoring The LiDCOrapid is a combination of both standard and functional hemodynamic monitoring. The standard monitoring portion is comprised of two trend display periods and associated numeric values of hemodynamic parameters. The parameters are combined in a natural grouping to facilitate ease of interpretation. The upper trend shows the Blood Pressure (Systolic, Mean and Diastolic) with the Heart Rate. The lower trend is normally set to display Stroke Volume. This can be configured to alternatively display Cardiac Output or Systemic Vascular Resistance. The values displayed in the lower trend are nominal unless the monitor is calibrated with a known value for Cardiac Output. Figure 2: Rapid Trend Screen The two display periods are designed to show both an acute change and the data covering the full procedure. The acute change portion is shown to the left of the numeric display and is set to a fixed scale of 2 minutes. This provides an early warning of significant changes in the displayed parameters so that appropriate interventions may be considered without delay. The full procedure trend display is shown to the left of the acute change. This window will display all data and automatically rescale the time axis as more data is collected (maximum window size is 8hrs). The full procedure trend display provides a complete picture of changes and is useful in examining long term increases or decreases as well as change from start for the hemodynamic parameters. Version 2 www.lidco.com 2 V2 MOCA203 User’s Manual 1.2 Functional Hemodynamic Monitoring The functional monitoring portion is comprised of two different sets of display (See Figure 3) that provide both a predictive indication of fluid responsiveness and the ability to assess changes in hemodynamic parameters as a result of interventions such as fluid boluses, vasoactive drugs or inotropes. All the data are derived via continuous beat-to-beat Pulse Pressure and Stroke Volume analysis. The event response display is used to monitor the change in a hemodynamic parameter after an intervention (e.g. fluid challenge or change in drug therapy). The display is designed to calculate a % change from baseline and plot this every 20 seconds. This allows for a clear understanding of the actual hemodynamic response to the intervention. Figure 3: Rapid Trend Screen The preload responsiveness variables display provides either Stroke Volume Variation or Pulse Pressure Variation information as a long term trend and a short term trend of Delta SV (or PP). Both trends have a defined zone (shaded in green) that indicates the currently accepted cut-off for potential fluid responsiveness. SVV tends to predict fluid responsiveness when the values are consistently above 10%2. PPV tends to predict fluid responsiveness when the values are consistently above 13%3. The long term trend is adjustable between 10 and 60 minutes and provides an easy to interpret picture of the value and general trend in these parameters. As the values and trend go above the 'green zone' it becomes more likely that the patient will respond to fluid administration. The short term trend (Delta SV/PP) covers a 30s period and can be used in a similar manner. As the amplitude of the wave increases beyond the 'green zone' with each ventilator cycle, it becomes more likely that the patient will respond to fluid administration. It is also possible to interpret the stability of the SVV/PPV data. A numeric value for heart rate variation (HRV) is provided. A numeric display is also provided for ease of data recording. The combination of preload responsiveness variables and event response displays, in combination with other clinical signs, provides the opportunity provides the opportunity for the user to anticipate any necessary interventions to anticipate the necessary intervention and to observe the patients actual hemodynamic response. 3 www.lidco.com Version 2 MOCA203 V2 User’s Manual 2.0 Quick Start Unity Software allows for selection of the available modules from the Welcome Screen. When a module is available for selection it is shaded blue. When a module is selected it is shaded green and a green tick button appears in the centre. If a module is not connected or available it is greyed out and not selectable. 2.1 LiDCOrapid Connect Cables and Switch ON (Figures 4 and 5) 1. Connect the power cable to the monitor and an appropriate power socket 2. Switch on the monitor via the power switch on the bottom 3. Connect the appropriate blood pressure cable to the LiDCOrapid Monitor and to the primary monitor. CAUTION: When connecting or disconnecting cables grasp the connector housing and NOT the cable itself ON/OFF Signal From Monitor (1 Volt = 100mmHg) Power Input Figure 4: POC-125/127 connection illustration Figure 5: DTP-1201 connection illustration Insert the LiDCOsmart Card (Figure 6) 1. Obtain a new LiDCOsmart card when starting a new patient. 2. Orient the LiDCOsmart card so that LiDCOrapid can be read and the arrow points to the monitor. 3. Insert the card into the reader – the gold chip should be facing you 4. When complete the Welcome Screen will indicate the LiDCOrapid is available for selection Figure 6: LiDCOsmart 5. Press the Rapid section to select LiDCOrapid, and press the tick to begin. The Patient Details Screen will be displayed next. Version 2 www.lidco.com 4 V2 MOCA203 User’s Manual Patient Details Entry Screen 1. Enter the Patient’s identification number, age, height, weight and gender. 2. Open the module selection tray and press the green tick to start LiDCOrapid. Open the Module Tray and Press the Green Tick to start LiDCOrapid Figure 7: Patient Details Screen Rapid Setup Screen – Confirm blood pressure waveform 1. Observe the blood pressure waveform matches the primary monitor. 2. Check the values for Systolic, Mean, Diastolic Blood Pressure and Heart Rate are within 5% of the primary monitor’s displayed values. Figure 8: Rapid Config Screen 5 www.lidco.com Version 2 V2 MOCA203 User’s Manual 2.2 BIS Note – BIS does not require a smartcard. 1. Connect the BISx Pod to the monitor. • Plug the BISx Monitor Interface Cable into a USB port on the LiDCOrapid. 2. Connect the Patient Interface Cable (PIC) to the BISx Pod. • Attach the 10-pin connector from the PIC to the BISx Pod. 3. Connect the BIS sensor to the PIC. 4. Press the BIS section of the module tray to select BIS, and press the tick to begin. The Patient Details Screen will be displayed next. Patient Details Entry Screen 1. Enter the Patient’s identification number, age, height, weight, type and gender. 2. Press the green tick button to accept all entries. 3. Open the module selection tray and press the green tick to start BIS. NOTE: Before starting BIS monitoring, ensure that the sensor is connected properly and has passed impedance check. Version 2 www.lidco.com 6 V2 MOCA203 User’s Manual 2.3 CNAP NOTE: CNAP requires a smartcard for use with the LiDCOrapid. Connect the CNAP Module to the LiDCOrapid (refer to Appendix 9.13.3) • Connect the CNAP Module to the Cuff Controller • Select and attach the Finger Cuff to the patient and the Cuff Controller • Select and attach the NBP Arm cuff to the patient and to the CNAP Module Figure 9 : CNAP Patient Connection • Insert a LiDCOrapid CNAP smartcard • Select CNAP from the Welcome Screen and press the green tick • Enter the Patient details including Type: Adult or Pediatric • Press the Green Tick to confirm the data entered • Select the Module tray and press the Green tick to begin The CNAP is ready for use when it has completed initializing and the patients fingers are in the finger cuffs. The CNAP start button will turn from grey to green to indicate the CNAP is ready for use. Press the CNAP Start button to begin the measurement. 7 www.lidco.com Version 2 MOCA203 V2 User’s Manual 3.0 Intended Use/Contra-Indications/Warnings 3.1 Intended Use The LiDCOrapid Hemodynamic Monitoring System is intended for use for the measurement of blood pressure, cardiac output and associated hemodynamic parameters in adult patients. When connected to the BIS Module: intended for monitoring the state of the brain by data acquisition of EEG signals and may be used as an aid in monitoring the effects of certain anesthetic agents. Use of BIS monitoring to help guide anesthetic administration may be associated with the reduction of the incidence of awareness with recall in adults during general anesthesia and sedation. When connected to the CNAP Module: intended for the non invasive continuous measurement and display of blood pressure including the blood pressure waveform and beat-to-beat numeric values of systolic, diastolic and mean pressure. Suitable Patients and Locations of use LiDCOrapid: Adult patients requiring cardiovascular monitoring who have peripheral arterial pressure monitoring – Medical & Surgical ICU’s – Operating Suites – Step Down / High Dependency Units – Trauma / A&E (ER) Departments – Coronary Intensive Care Units – Cardiac Catheter Laboratories BIS: Adult and pediatric patients within a hospital or medical facility providing patient care to monitor the state of the brain by data acquisition of EEG signals. CNAP: Adult and pediatric patients from the age of 4 years, and is to be operated by medical professional staff in hospitals, clinical institutions, medical practices and outpatient settings. 3.2 Contraindications The following patients are contraindicated for use with the LiDCOrapid Hemodynamic Monitor: • Patients with aortic valve regurgitation • Patients being treated with an intra-aortic balloon pump (IABP) • Patients with highly damped peripheral arterial lines • Patients with peripheral arterial vasoconstriction Version 2 www.lidco.com 8 V2 MOCA203 User’s Manual 3.3 Warnings – LiDCOrapid WARNING: LiDCOrapid Monitor is for use in conjunction with a Primary Vital Signs Monitor. DO NOT USE THE LIDCORAPID HEMODYNAMIC MONITOR WITH THE PATIENT TYPES LISTED ABOVE – THE PERFORMANCE OF THE DEVICE MAY BE SIGNIFICANTLY COMPROMISED IN SUCH PATIENTS. BEFORE USE OF THE LIDCORAPID HEMODYNAMIC MONITOR FAMILIARIZE YOURSELF WITH THE FULL LIST OF INDICATIONS, CONTRAINDICATIONS AND WARNINGS. WARNING: PRODUCT INSTRUCTIONS AND TRAINING - BEFORE USE OF THE LIDCORAPID MONITOR SYSTEM PLEASE ENSURE THAT YOU HAVE BEEN TRAINED IN THE USE OF THE SYSTEM AND FAMILIARIZE YOURSELF WITH THE: - CONTRAINDICATIONS & WARNINGS – OPERATING INSTRUCTIONS – SECTION 4 WARNINGS – LIDCORAPID HEMODYNAMIC MONITOR INITIAL CHECKS OF PATIENT PATHOLOGY AND PERIPHERAL ARTERY CONDITION • BEFORE USE, CHECK THE PATIENT NOTES FOR THE PRESENCE OF AORTIC VALVE REGURGITATION. THE LIDCORAPID HEMODYNAMIC MONITOR MAY BE INACCURATE IN SUCH PATIENTS. • SEVERE PERIPHERAL ARTERIAL VASOCONSTRICTION/ VASOSPASM MAY NEGATIVELY AFFECT THE ARTERIAL PRESSURE WAVEFORM AND THEREFORE THE ACCURACY OF THE LIDCORAPID HEMODYNAMIC MONITOR SUCH EVENTS MAY OCCUR IN SEVERE PERIPHERAL VASCULAR DISEASE, EXTREMES OF VASOPRESSOR DRUG ADMINISTRATION AND HYPOTHERMIC PATIENTS. OTHER WARNINGS • ON SET-UP AND DURING USE OF THE LIDCORAPID HEMODYNAMIC MONITOR ALWAYS CROSS-CHECK TO THE PRESSURE PARAMETERS AND HEART RATE DISPLAYED BY HOST MONITOR. THE FOLLOWING PARAMETERS: HEART RATE, SYSTOLIC, DIASTOLIC AND MEAN PRESSURES SHOULD ALL BE WITHIN 5% OF THE VALUES DISPLAYED BY THE HOST/PRIMARY MONITOR. PAY ATTENTION TO THE HEART RATE AND, IF NECESSARY, ADJUST THE THRESHOLD FOR DETECTING THE BEAT IN ORDER TO ADJUST THE RATE - SEE SECTION 4.2.5. • DYNAMIC PRELOAD RESPONSE VARIABLES (E.G. SVV OR PPV) ARE ONLY VALID IN PATIENTS WITH CLOSED CHESTS ON FULL MODE CONTROL VENTILATION. • DYNAMIC PRELOAD RESPONSE VARIABLES (E.G. SVV OR PPV) ARE UNRELIABLE IN PATIENTS WITH SIGNIFICANT ARRHYTHMIA. THE LIDCORAPID WILL ALERT WHEN HEART RATE VARIATION EXCEEDS 10%. • ALWAYS USE THE CORRECT LIDCORAPID HEMODYNAMIC MONITOR CABLE ASSEMBLY FOR CONNECTION TO THE PRIMARY MONITOR. LIDCO LTD HAS A LIST OF COMPATIBLE MONITOR CABLE ASSEMBLIES. • THE SCALING FACTOR ESTIMATE CANNOT BE AS PRECISE AS AN INDEPENDENT CALIBRATION OF THE PULSECO ALGORITHM WITH A WELL PERFORMED INDICATOR DILUTION MEASUREMENT. • THE ESTIMATE USED HAS BOUNDARY CONDITIONS SIMILAR TO ANY DEVICE USING A NOMOGRAM-BASED APPROACH TO ESTIMATE PHYSICAL CHARACTERISTICS. INDIVIDUAL PATIENT HISTORY MAY INCLUDE A VARIETY OF POTENTIALLY CONFOUNDING CONDITIONS SUCH AS CHRONIC HYPERTENSION, ARTERIOSCLEROSIS AND/OR DIABETES, WHICH MAY ALTER AORTIC CAPACITANCE. • CARE SHOULD BE TAKEN WHEN USING THE LIDCORAPID IN PATIENTS WITH SEVERE PERIPHERAL VASOCONSTRICTION DUE TO PRE-EXISTING DISEASE OR AS A RESULT OF VASOACTIVE DRUG TREATMENT. IN THESE CASES THE RADIAL ARTERY PRESSURE MAY BE SUBSTANTIALLY DIFFERENT TO THE CENTRAL AORTIC PRESSURE. 9 www.lidco.com Version 2 V2 MOCA203 User’s Manual • THE SCALING FACTOR ESTIMATE IS DERIVED FROM IN VIVO RADIAL ARTERY DATA AND MAY BE LESS ACCURATE IN PATIENTS WITH FEMORAL ARTERIAL CATHETERS11. • ALWAYS SHUT DOWN THE MONITOR BEFORE USING IT ON A DIFFERENT PATIENT. THIS WILL AVOID THE POSSIBILITY THAT INCORRECT SET-UP PARAMETERS AND/OR CALIBRATION FACTORS ARE USED IN THE CALCULATION OF THE NEW PATIENT’S HEMODYNAMICS. • THE CENTRAL VENOUS/RIGHT ATRIAL PRESSURE IS MANUALLY ENTERED ON THE LIDCORAPID SCREEN – ALWAYS CHECK THAT THE CORRECT VENOUS FILLING PRESSURE IS BEING USED FOR THE CALCULATION OF THE SYSTEMIC VASCULAR RESISTANCE/INDEX. • LIDCORAPID HEMODYNAMIC MONITOR IS NOT REQUIRED TO BE DIRECTLY CONNECTED TO THE PATIENT APPLIED PART (PRESSURE TRANSDUCER). THE DATA PROCESSED IS THE ISOLATED PRESSURE ANALOG OUTPUT FROM AN APPROVED PATIENT MONITOR. • THE LIDCORAPID HEMODYNAMIC MONITOR SHOULD NOT BE CONNECTED TO ANY ELECTRICAL EQUIPMENT THAT IS NOT COMPLIANT WITH IEC 60601-1 (OR EQUIVALENT) ELECTRICAL SAFETY AND EMC STANDARDS. MAKE SURE THE LIDCORAPID MONITOR IS SECURELY MOUNTED, AND THAT ALL CORDS AND ACCESSORY CABLES ARE APPROPRIATELY ARRANGED TO MINIMIZE THE RISK OF INJURY TO PATIENTS, USERS OR THE EQUIPMENT. DO NOT EXPOSE THE LIDCORAPID MONITOR TO EXTREME TEMPERATURES. DO NOT OBSTRUCT THE LIDCORAPID MONITOR VENTILATION OPENINGS. Version 2 www.lidco.com 10 MOCA203 V2 User’s Manual 3.4 Warnings – BIS DUE TO ELEVATED SURFACE TEMPERATURE, DO NOT PLACE BISx IN PROLONGED DIRECT CONTACT WITH PATIENT’S SKIN, AS IT MAY CAUSE DISCOMFORT. THE CONDUCTIVE PARTS OF ELECTRODES OR SENSOR AND CONNECTORS SHOULD NOT CONTACT OTHER CONDUCTIVE PARTS, INCLUDING EARTH. TO REDUCE THE HAZARD OF BURNS DURING USE OF HIGH FREQUENCY SURGICAL EQUIPMENT, THE SENSOR OR ELECTRODES SHOULD NOT BE LOCATED BETWEEN THE SURGICAL SITE AND THE ELECTRO-SURGICAL UNIT RETURN ELECTRODE. TO REDUCE THE HAZARD OF BURNS DURING USE OF BRAIN STIMULATING DEVICES (e.g., TRANSCRANIAL ELECTRICAL MOTOR EVOKED POTENTIAL), PLACE STIMULATING ELECTRODES AS FAR AS POSSIBLE FROM THE BIS SENSOR AND MAKE CERTAIN THAT SENSOR IS PLACED ACCORDING TO PACKAGE INSTRUCTIONS. THE BIS SENSOR MUST NOT BE LOCATED BETWEEN DEFIBRILLATOR PADS WHEN A DEFIBRILLATOR IS USED ON A PATIENT CONNECTED TO THE BIS. TO MINIMIZE THE RISK OF PATIENT STRANGULATION, THE PATIENT. INTERFACE CABLE (PIC) MUST BE CAREFULLY PLACED AND SECURED. 3.5 Warnings – CNAP TO AVOID THE POSSIBILITY OF OCCLUDING BLOOD FLOW IN THE FINGER DO NOT USE A FINGER CUFF THAT IS TOO SMALL FOR THE PATIENT'S FINGERS . USE THE CUFF CONTROLLER TO ESTIMATE THE CORRECT SIZE. THE DUAL FINGER CUFF SHOULD SLIDE ON AND OFF THE FINGER WITHOUT RESISTANCE OR EFFORT. THE PATIENT'S FINGER MAY SWELL IN SIZE IF PERIPHERAL ODEMA OCCURS. IF IN DOUBT USE THE NEXT LARGER SIZE OF CUFF. DO NOT CONNECT THE MODULE’S AIR CONNECTORS TO AN INTRAVASCULAR SYSTEM. DO NOT USE THE OSCILLOMETRIC CUFF ON PATIENTS WITH VASCULAR PROSTHESES. REGULARLY INSPECT THE PATIENT’S MONITORED ARM AND HAND TO PREVENT PROLONGED IMPAIRMENT OF BLOOD CIRCULATION DURING PRESSURE MEASUREMENTS. DISCONTINUE MONITORING AND REMOVE ALL AIR CONNECTORS IF THERE IS ANY CONCERN ABOUT BLOOD CIRCULATION. DURING REGULAR USE THE PRESSURE IN THE FINGER CUFF WILL BE THE SAME AS THE ARTERIAL PRESSURE AND THEREFORE CAUSE GREATER THAN NORMAL VENOUS PRESSURE. AS A RESULT VENOUS CONGESTION IN THE MEASURED FINGER MAY BE OBSERVED. THIS WILL VARY DEPENDING ON SKIN TEMPERATURE, THICKNESS, PATIENT AGE, AND NORMAL PERFUSION. THE EFFECT IS EXPECTED, IS NOT HARMFUL AND SHOULD QUICKLY SUBSIDE AFTER DISCONTINUING THE MEASUREMENT. USE ONLY LIDCO APPROVED DEVICES WITH THE MODULE; DO NOT USE WITH ANY THIRD PARTY MANUFACTURED DEVICES. USE THE MODULE ONLY ON ONE PATIENT AT A TIME. THE LIDCO CNAP MODULE IS NOT TO BE USED WITHOUT ADDITIONAL ECG MONITORING FOR INDEPENDENT PATIENT MONITORING OF THE HEART RATE. IF THE MONITORED HAND IS NOT VISIBLE THEN PAY PARTICULAR ATTENTION TO THE QUALITY OF THE BLOOD PRESSURE WAVEFORM DISPLAYED ON THE MONITOR SCREEN. DECREASES IN PULSATILITY, PULSE PRESSURE COULD BE THE RESULT OF MOVEMENT OF THE CUFF, OR TISSUE SWELLING LOCAL TO THE MEASUREMENT SITE. IN SUCH CASES RE EXAMINATION OF THE HAND AND SENSOR FIT AND POSITIONING IS RECOMMENDED. 11 www.lidco.com Version 2 MOCA203 V2 User’s Manual 3.6 Cautions General Do not autoclave any of the components. Autoclaving will seriously damage the components. Do not open any of the components for any reason. The seal to prevent liquids from entering the BISx may be damaged if opened. Service or repairs must be performed only by qualified biomedical technicians. BIS The BISx system has been designed to operate with a BIS sensor. Use of other electrodes is not recommended. Continuous impedance checking may need to be disabled if the 1 nanoampere 128Hz impedance check signal interferes with other equipment (e.g., evoked potential monitors). Considerations when using Electro-Convulsive Therapy (ECT) equipment during BIS monitoring: Place ECT electrodes as far as possible from the BIS sensor to minimize the effect of interference. Certain ECT equipment may interfere with the proper function of the BIS monitoring system. Check for compatibility of equipment during patient setup. Avoid liquid ingress to the Patient Interface Cable. Contact of fluids with the PIC sensor connector can interfere with PIC performance. Service or repairs must be performed only by qualified biomedical technicians. When connecting or disconnecting BISx, take care not to touch the exposed contacts of either connector. Damage due to electrostatic discharge may result. CNAP The LiDCO CNAP Module is a Safety Extra-Low Voltage device and meets the requirements of IEC 60601-1. The input ports are type BF and protected from defibrillation. According to IEC 601-2-30/EN 60601-2-30, non-invasive blood pressure measurement is fit for use during electrosurgery as well as during discharge of a cardiac defibrillator. Do not compress the air hoses or reduce their diameter in any way as this may impair the measuring signal quality. Do not allow liquid ingress into the Module. In the event this occurs, the Module must be inspected by a qualified technician before use. The Module must be stored properly: Do not bend the cables or hoses or coil them tightly as this may result in damage. Any damaged cables or hoses should be replaced immediately. Version 2 www.lidco.com 12 V2 MOCA203 User’s Manual Blood Pressure Never start a measurement without a finger in each finger cuff. Remove all objects (e.g. rings) from the fingers before measuring. Usually the index and middle fingers are best suited for the finger cuffs as their phalanges are longest. Ensure that the CNAP double finger cuff is applied to the patient’s hand such that the cables run along the back of the patient’s hand and the labelling can be read. If no continuous blood pressure waveform is displayed within a few minutes, it is probably due to an insufficient blood flow in the fingers. First try an alternate pair of fingers or if possible, use fingers on the other hand. In rare cases, the device may be unable to detect a continuous blood pressure signal. This is usually caused by a vasopathy. Improving circulation by warming the hand may resolve this problem. Limitations: In certain cases a continuous blood pressure measurement is not reliable and/or possible: • Weak signal shown via the Perfusion Index indicator (Low PI <1) • Reduced peripheral blood flow (e.g. peripheral shock, hypothermia extreme centralization, extreme hypothermia) • Arterial vascular diseases (arteriosclerosis, Raynaud’s syndrome, endarteritis obliternans, collagenosis, extremely advanced vascular diseases (PAOD). NON-INVASIVE BLOOD PRESSURE CUFF LIMITATIONS: Under the following conditions there may be a decrease in accuracy of the oscillometric blood pressure measurement: • Weak pulse • Arrhythmia • Patient movement artefacts • Tremor artefacts • Respiratory artefacts 13 www.lidco.com Version 2 V2 MOCA203 User’s Manual 4.0 Monitor Operation 4.1 Setup 4.1.1 LiDCOrapid Equipment Setup MOUNTING RECOMMENDATIONS: Securely mount the LiDCOrapid Monitor according to your institution’s practices. Optional mounting accessories can be purchased from LiDCO and approved medical equipment suppliers. Contact your local LiDCO representative for recommendations on alternative mounting options. Refer to Appendix 9 for details on mounting the LiDCOrapid Monitor. CONNECTING THE POWER SUPPLY: After the monitor is securely mounted, attach the power cord supplied with the monitor at the back and connect it to a hospital-grade power outlet. The LiDCOrapid power supply automatically adjusts for power voltages from 100 to 240 VAC and converts the input voltage to 24VDC for supply to the monitor (POC model only). Refer to Appendix 9 for further illustrations. WARNING: Do not use extension cords or multiple socket devices to connect power to the monitor. Do not use any other detachable power cords other than the power cord provided. NOTE: The LiDCOrapid Hemodynamic Monitor does not have a mouse or keyboard. All user interactions are mediated through the touch sensitive screen. 4.1.2 Starting the Monitor The monitor will automatically switch on when power is applied. If this does not happen, then switch on the power using the ON/OFF switch located near to the power cable. The power switch is not latching and will return to the original position. The monitor will complete its start-up routine and display the Welcome Screen. Switch off the power by removing the power cord from the mains supply or by pressing and holding the ON/OFF switch for 5 seconds. Version 2 www.lidco.com 14 V2 MOCA203 User’s Manual 4.2 Connecting the LiDCOrapid to the Primary Patient Monitor 4.2.1 Option 1: Direct Analog Input (POC Model Only) The LiDCOrapid Hemodynamic Monitor is designed to interface with standard patient monitors that provide an analog arterial pressure waveform output. LiDCO Ltd or your local distributor can provide a list of compatible patient monitors / modules together with the appropriate cable assembly to connect to the patient monitor analog pressure out. 4.2.2 Option 2/3: LiDCO BP Module • The BP Module (BPM) allows the arterial blood pressure waveform to be accessed directly via a standard invasive blood pressure transducer when connected to a patient monitor. • The BP Module is used when it is difficult or not possible to access the arterial blood pressure waveform via a standard analog output from the patient monitor. • The BP Module will accept a standard analog output from the patient monitor. Figure 10: BPM Channel 1 and Channel 2 cable connection WARNING: It is important that the primary blood pressure monitor is correctly zeroed and any analog output is calibrated. Check that the pressure display on the monitor is the same as the pressure displayed on the LiDCOrapid Screen. CONTRAINDICATIONS: None PRECAUTIONS: Check the BPM cable and module before use. Do not use in the event of damage. When connecting cables do not try to force, instead align them and gently connect. Insert and remove cables using the connector. Use the mark to align connectors. 15 www.lidco.com Version 2 MOCA203 V2 User’s Manual 4.2.3 LiDCO BPM Channel Selection Channel Selection is required on first use of the BP Module. The selected channel becomes the default for future use. Channel selection is required again only if the cable input channel is changed. • Press to display the channel selection window. (see below) Figure 12: BP Channel Select window • Available BP waveforms will display in black. Only one channel can be selected at a time. Choose the channel that matches the cable connection by pressing the radio button. The selected waveform will display in red in the associated window. Values for Systolic, Mean and Diastolic arterial pressure, and heart rate will display beneath each window. • Channel 1: IBP Transducer – BP Module • Note: Channel 1 must be zero’ed before pressure and heart rate values will display • Channel 2: Analog BP Waveform – BP Module • Channel 3: Analog BP Waveform – LiDCO Monitor (POC Model only) • Confirm the Pressures and Heart Rate match the Patient Monitor Version 2 www.lidco.com 16 V2 MOCA203 User’s Manual 4.2.4 Zeroing Channel 1 Press to zero the pressure on Channel 1 • When the Patient Monitor is zero’ed, press the green tick to return to the previous screen Figure 14: Zero BPM Ch 1 window 4.2.5 Beat Detector Threshold The Beat Detector Threshold is used to correct for large differences in heart rate (HR) caused by unusual blood pressure waveforms. If the HR displayed on the Patient Monitor is approximately double (2X) the LiDCOrapid HR, then lower the beat detector threshold until the values are equivalent. If the HR displayed on the Patient Monitor is approximately half (½) the LiDCOrapid HR, then raise the beat detector threshold until the values are equivalent. Press the icon to display the interactive screen shown below. Observe the HR and adjust using the arrow buttons until equivalent, press the green tick to accept the new value. Press the red X button to cancel any changes since the last change. Figure 16: Beat Detector Threshold window 17 www.lidco.com Version 2 MOCA203 V2 User’s Manual NOTE: • Patients with a pronounced diastolic pressure ‘bounce’ can cause the LiDCOrapid Hemodynamic Monitor to double trigger the heart rate. The Beat Detector Threshold should be increased as above. • Patients experiencing bigemini instability will, on occasion, cause the LiDCOrapid Hemodynamic Monitor to underestimate the heart rate. Decrease the threshold to obtain the correct heart rate LIDCO BPM CHANNEL CONNECTIONS: Channel 1 Connection (refer to Figure 10): IBP Transducer Input 1. Connect the USB cable between the LiDCOrapid Monitor and BPM. The BPM serial number should be displayed in the upper right corner. 2. Connect the transducer specific BPM cable to the BPM. Channel 1 should now be selectable. 3. Connect BPM cable to Patient Monitor cable. 4. Connect BPM cable to IBP Transducer cable. Channel 2 Connection (refer to Figure 10): Analog Input to BPM 1. Connect the USB cable between LiDCOrapid Monitor and BPM 2. Connect analog output cable from patient monitor to BPM Channel 3 Connection (refer to Figure 5) Analog Input to LiDCO monitor (POC only) Connect analog output cable from patient monitor to the analog input on the monitor Version 2 www.lidco.com 18 V2 MOCA203 User’s Manual 4.3 BIS Monitoring Equipment and Setup Figure 17: BISx puck, MIC and PIC The BIS VISTA Monitoring System consists of the following basic components: • BISx (P/N 186-0195-SF) • Patient Interface Cable (PIC) (P/N 175-0046) • BIS Sensor Quattro, Extend or Pediatric (supplied separately) • Monitor Interface Cable (MIC) (P/N BIS 175-0075) The BISx receives, filters, and processes patient EEG signals. It is located close to the patient’s head where the EEG signal is less subject to interference from other medical equipment. The BISx is shown in Figure 17 above. Its long flexible Monitor Interface Cable (MIC) connects to the LiDCOrapid Monitor via a USB connector. The Patient Interface Cable (PIC) connects the BIS sensor to the BISx. The attachment clip on the BISx is used to secure it in a convenient location near the patient's head. Sensors are sold separately. For a list of available sensors please contact Covidien or your local distributor (refer to www.lidco.com for contact details). WARNING: DUE TO ELEVATED SURFACE TEMPERATURE, DO NOT PLACE BISx IN PROLONGED DIRECT CONTACT WITH PATIENT’S SKIN, AS IT MAY CAUSE DISCOMFORT. CAUTION: Do not open BISx for any reason. The seal to prevent liquids from entering the BISx may be damaged if opened. Service or repairs must be performed only by Covidien qualified biomedical technicians. 19 www.lidco.com Version 2 MOCA203 V2 User’s Manual 4.4 CNAP Module Equipment and Setup LiDCO CNAP Module 1. CNAP Cuff Controller Cable Port 2. NBP cuff connector via pneumatic tube 1 2 Figure 18: CNAP Module Cuff Connector Ports 3. 12 – 24 VDC input 4. 12 - 24 VDC Output 5. USB 5 3 4 Figure 19: CNAP Module Interface Connectors Power Supply The LiDCO CNAP Module is powered by a 12 – 24 VDC external power supply from an external power adapter or the monitor. Caution: Do not use any power supply accessories with the Module except those authorised by LIDCO. Double Finger Cuff The CNAP double finger cuff comes in three sizes, each marked by a different colour. Size Diameter (mm) Colour L 24-28 Dark Red M 18-24 Dark Blue S 10-18 Light Blue Figure 20: CNAP Finger Cuffs Version 2 www.lidco.com 20 MOCA203 V2 User’s Manual 1. CNAP Cuff Controller 2. Cuff Controller Fixation Strap 1 3. Cuff Controller Cradle 4. CNAP Cable The CNAP Cuff Controller connects the CNAP double finger cuff and the module via the CNAP cable. The connectors for the CNAP are colour coded and keyed to avoid incorrect connection 3 • The graphic on the top of the CNAP Cuff Controller can be used to assist selection of the correct double finger cuff size. Figure 21: CNAP Cuff Controller 4 To avoid the possibility of occluding blood flow in the finger do not use a finger cuff that is too small for the patient's fingers. Use the cuff controller to estimate the correct size. The dual finger cuff should slide on and off the finger without resistance or effort. The patient's finger may swell in size if peripheral odema occurs. If in doubt use the next larger size of cuff. • The CNAP Cuff Controller Fixation Strap is fastened to the patient’s forearm by means of the CNAP Cuff Controller Fixation Strap with a Velcro fastener. Figure 22: CNAP Cuff Controller Cable • The Cradle for the CNAP Cuff Controller connects the CNAP Cuff Controller Fixation Strap mechanically to the CNAP Cuff Controller. • The CNAP Cuff Controller should be positioned to ensure that there is no tension on the double finger cuff that could cause it to rotate or move off of the measurement location. NBP Cuff and pneumatic cable The NBP cuffs are intended for oscillometric blood pressure measurement and are available in four sizes: Size Arm Figure 23: NIBP Cuffs and Cable 21 www.lidco.com Circumference (cm) Child 12–19 Small Adult 17–25 Adult 23–33 Large Adult 31–40 Version 2 MOCA203 V2 User’s Manual Patient Setup: CNAP Setup a) Choose the correct CNAP double finger cuff size by means of the graphic on the CNAP Cuff Controller. If a patient's finger size is between two cuff sizes, choose the larger cuff. To avoid the possibility of occluding blood flow in the finger do not use a finger cuff that is too small for the patient's fingers. Use the cuff controller to estimate the correct size. The dual finger cuff should slide on and off the finger without resistance or effort. The patient's finger may swell in size if peripheral odema occurs. If in doubt use the next larger size of cuff. b) Assemble the CNAP hardware by connecting the CNAP double finger cuff, the CNAP Cuff Controller, the CNAP cable with the LiDCO CNAP Module. All plugs and connectors are designed so as to make it impossible to switch them accidentally. c) Attach the CNAP hardware to the patient: The CNAP double finger cuff is placed on the proximal joints of the index and middle fingers. Ensure that the cuff cables run along the outside of the patient's arm. Figure 24: CNAP Setup on Patient d) Fasten the CNAP Cuff Controller to the patient's forearm by means of the fixing cuff (with a Velcro fastener) and make sure that the hand with the CNAP double finger cuff is placed at heart level (see Figure 24). Note: ensure the CNAP Cuff Controller is in the middle of the cradle to allow for some movement. There should be no tension or pressure between the CNAP Cuff Controller and the finger cuff. NBP Setup a) Make sure that only NBP cuffs authorized by LiDCO are used and that you apply the correct size to the patient (Child, Small Adult, Adult, Large Adult). Figure 25: NBP Cuff Connection WARNING: Please be aware that CNAP finger cuffs as well as CNAP Cuff Controller needs to be setup without tension. The fixation of CNAP Cuff Controller is to be setup centrally. This obviates tension during a measurement due to movement of the patient which can affect the CNAP measurement significantly. b) Place the blood pressure cuff on the patient's upper arm, preferably contra laterally, at heart level. The marker on the NBP cuff should be directly above the brachial artery (see Figure 25). c) If possible, do not wrap the cuff over the patient’s clothing. The cuff should fit snugly to the patient’s arm for maximum oscillometric signal quality. d) Connect the NBP cuff with the NBP air connector on the patient side of the CNAP Module. Version 2 www.lidco.com 22 V2 MOCA203 User’s Manual 4.5 Welcome Screen and Module Navigation Figure 26: Welcome Screen – Rapid selected The Welcome Screen is the entry point to initiate patient monitoring with the LiDCOrapid. The Welcome Screen displays a circle with segments showing individual modules that may be connected to the monitor (e.g. BIS, CNAP). The graphic display for each module is greyed out until it is connected, then it changes colour to blue. A module that is blue can now be selected for use by touching inside the segment area. Once selected, it will change the segment colour from blue to green. When at least one module is selected the central accept (tick) icon will change from grey to green. Touching the tick icon will start the monitoring session. 4.5.1 Adding or Removing Modules after the Session Starts It is possible to add or remove modules after a monitoring session starts by simply plugging or unplugging them from the USB port. Module availability and selection is shown by selecting the Welcome Icon tray in the upper right corner of all screens. This icon expands into a tray to show the available modules and to allow selection/deselection of those available modules in the same way that the Welcome Screen functions. Each combination of modules results in a specific screen layout (refer to Combination Screens). 23 www.lidco.com Version 2 V2 MOCA203 User’s Manual The purpose of this feature is to allow the introduction or removal of devices as required, or to change the trend display. It also allows a monitoring session to start prior to having all equipment ready for use. Important points to remember: Selection of a module may require additional information to be entered to allow the module to start or function. An advisory alert will be issued to remind the user of what is required. Further, the display screen will adjust to the new combination of modules. Disconnection of a module will result in a loss of data from that module until it is reconnected. An advisory alert will be issued to remind the user if a module is removed. 4.5.2 LiDCOrapid Insert a new or previously used LiDCOsmart card to begin. The LiDCOrapid will indicate ‘connected’ status and display the card status). Select LiDCOrapid by pressing the LiDCOrapid section of the display. Press the green tick when ready to begin. The Welcome Screen will indicate that the LiDCOsmart is new or has been previously used. A new LiDCOsmart will start the monitoring session on the Patient Data Entry Screen. A previously used card will have all the patient details automatically entered. Note: It is important that previously used cards are not used on patients other than indicated on the card. The patient details will differ and will result in a poor estimation of stroke volume and cardiac output. The Welcome Screen will indicate if the LiDCOsmart is not valid (e.g. expired, damaged) or missing, and a valid LiDCOsmart will be required. 4.5.3 BIS Attach the BISx Pod to the LiDCOrapid Monitor via the USB port to begin. The BIS area will indicate connected status. Select BIS by pressing the BIS section of the display. Press the green tick when ready to begin. 4.5.4 CNAP Module Attach the CNAP module to the LiDCOrapid Monitor via the USB port, insert a LiDCOsmart CNAP Card and connect the power supply to begin. The CNAP area will indicate connected status. Select CNAP by pressing the CNAP section of the display. Press the green tick when ready to begin. Version 2 www.lidco.com 24 V2 MOCA203 User’s Manual 4.6 LiDCOsmart The LiDCOsmart card is used to access the LiDCOrapid’s Advanced Hemodynamic parameters. The LiDCOsmart is a single patient use card. When a valid LiDCOsmart is inserted, the LiDCOrapid will indicate it is now connected. When a valid LiDCOsmart CNAP card is inserted, the CNAP module will be available as well. If the LiDCOrapid was used previously the Welcome Screen will indicate the card is Used in the alert notice bar. The LiDCOrapid has a predefined period of use that is printed on the card. The LiDCOsmart use period begins when patient details have been entered and monitoring begins. For 12 hour cards, once the period has elapsed, the card becomes expired. If this happens while in use, monitoring will continue for a further 96 hours. Once the expired card is removed from the monitor for more than 15 minutes, or the monitor is shutdown for more than 5 minutes that LiDCOsmart card can no longer be used. How to insert the Card: Avoid heat, scratching, moisture or bending Figure 28: Avoid damage to IC contacts Figure 27: Insert Smartcard POC-125/127 WARNING: The LiDCOsmart must be fully inserted into the card reader. If the card is not recognised, remove and reinsert. 25 www.lidco.com Version 2 V2 MOCA203 User’s Manual 4.7 Patient Details Screen Enter Patient Information in the blue highlighted boxes for a new Patient. If resuming a previous patient these boxes will be automatically filled in and cannot be altered. Touch the box to reveal in input keypad. Missing Entries will be highlighted in red. Values outside valid ranges will generate a valid range above to the entry box. Figure 29: Patient Details Screen To start the monitoring session, open the device tray icon and press the green tick. Version 2 www.lidco.com 26 MOCA203 V2 User’s Manual Press to start Press to close tray The blood pressure (BP) waveform can be checked on the Rapid Setup Screen by selecting the Configure BP Graph. It will appear as soon as the cable is connected between the LiDCOrapid and the Patient Monitor’s BP signal. The values for pressure and heart rate will appear within 30 seconds. The LiDCOrapid reports values for stoke volume (SV) and cardiac output (CO) that are based on the PulseCO algorithm scaled to the patients’ specific characteristics. The PulseCO calibration factor reflects the patient-specific maximum aortic capacitance and will generally remain constant over short periods of time. The PulseCO algorithm has been demonstrated to trend without the need for recalibration in numerous studies for up to 24 hours 5-10, 12. The LiDCOrapid uses a nomogram-based estimate of the patient specific scaling factor. This was developed using in vivo calibration data from post surgical patients with radial arterial blood pressure waveform data. The nomogram estimate was then validated in an independent cohort of medical ICU patients giving a good correlation (r2=0.77), no bias and acceptable limits of agreement (+/-26%) when compared with indicator dilution based calibration. 27 www.lidco.com Version 2 V2 MOCA203 User’s Manual WARNINGS: • The calibration factor estimate cannot be as precise as an independent calibration of the PulseCO algorithm with a well performed indicator dilution measurement. • The estimate used has boundary conditions similar to any device using a nomogram-based approach to estimate physical characteristics. Individual patient history may include a variety of potentially confounding conditions such as chronic hypertension, arteriosclerosis and/or diabetes, which may alter aortic capacitance. • Care should be taken when using the LiDCOrapid in patients with severe peripheral vasoconstriction due to preexisting disease or as a result of vasoactive drug treatment. In these cases the radial artery pressure may be substantially different to the central aortic pressure. • The scaling factor estimate is derived from in vivo radial artery data and may be less accurate in patients with femoral arterial catheters11. Press the Navigate button to display a sub-menu: Press this button to go to the History Screen (See Section 7.7) Press this button to go to the Chart Screen (See Section 7.8) Press the CO button to calibrate the monitor (see Section 4.10) Press to adjust for incorrect HR display (See Section 4.2.5) Press the Camera button to take a screen shot Press the Exit button to shutdown the LiDCOrapid Figure 39: Configure Screen Navigate Menu Version 2 www.lidco.com 28 V2 MOCA203 User’s Manual 4.8 Operation 4.8.1 Overview of LiDCOrapid Screen Figure 40: LiDCOrapid Trend Screen The main Monitoring Screen is a single ‘heads up’ display that combines both standard and functional hemodynamic monitoring. In this way the user can see both long term and short term trends in key parameters such as BP, HR and SV. Dynamic preload responsiveness parameters SVV or PPV, give predicted fluid responsiveness assessment. Functional hemodynamic change in parameters such as SV or CO via Event Response provides immediate feedback on interventions. 29 www.lidco.com Version 2 V2 MOCA203 User’s Manual 4.8.2 Navigating the Screen Press the Navigate icon to reveal a submenu Figure 41: Trend Screen Navigate Menu Press to return to the Patient Details and Device Configuration Screens Press this button to go to the History Screen (See Section 7.7) Press this button to go to the Chart Screen (See Section 7.8) Press the CO button to calibrate the monitor (see Section 4.10) Press to adjust for incorrect HR display (See Section 4.2.5) Press to enter an event (7.5) Press to display the Event List (7.6) Press to capture the screen as a JPG file Press to shutdown the LiDCOrapid Monitor Version 2 www.lidco.com 30 V2 MOCA203 User’s Manual 4.8.3 Hemodynamic Monitoring Display The LiDCOrapid provides standard hemodynamic parameters of blood pressure and heart rate in a unique trend display that allows both long term and short term views. In addition, using the PulseCO blood pressure waveform analysis algorithm, the monitor also displays nominal stroke volume. The long term display contains the entire case up to a maximum of 24 hours. The time axis automatically adjusts scale to provide the highest resolution possible for the duration of the case. This display provides a complete overview of the case with the ability to identify trends and also where targets were met. A marker line can be placed on the Lower Trend Screen to mark a baseline or set a target. The short term or acute display shows data over a fixed 2 minute period. This provides an easy way to observe immediate changes and give an early warning for more immediate response. The scale of the axis can be adjusted by pressing on the magnifying glass icon next to the axis and using the increase/decrease buttons. The time axis is set to Autoscale (default). As the case progresses the time axis will adjust the display to show all data. Touch the increase/decrease buttons to remove Autoscale, or untick the box. Axis and Target line adjustment window For SV, CO and SVR, a target or marker line can be added by touching on the target icon and enabling the adjustment control Figure 48: Target line setpoint The location of the line can be adjusted by using the increase/decrease buttons. 31 www.lidco.com Version 2 V2 MOCA203 User’s Manual When events are marked, they are displayed on both the short and long term trend displays of the blood pressure and heart rate trend. Figure 49: MAP & HR Trend The display of numeric data to the right can be averaged over periods of 10, 20 or 30 seconds. This is adjusted in the Rapid Configuration Screen. A toggle switch allows selection of nominal stroke volume or cardiac output. Figure 50: Selector switch The nominal stroke volume and cardiac output is scaled to the patients’ demographic information using a nomogram based estimate of the patient specific scaling factor (see 4.8.1). Figure 51: Hemodynamic pull down Version 2 www.lidco.com 32 V2 MOCA203 User’s Manual Press this icon to select two of the three variables: CO, SV and SVR for display as numeric and graphical trend values. Figure 52: Hemodynamic Parameter Choices Press to temporarily change the variable on the hemodynamic numeric display between absolute and index. 4.8.4 Event Response Display Figure 54: Event response The Event Response Display is used to track changes in a hemodynamic parameter as a result of a therapeutic intervention. Simply press the green 'play' button to start and the display will show the relative change in the parameter both graphically and numerically, at regular intervals over a period of up to 40 minutes. Press the red 'stop' button when complete. To reset the start, simply press the green 'restart' button and the display will clear and start over again. The default parameter for display is Stroke Volume and the display/averaging interval is 10 seconds. These can be changed by using the Configuration Screen (see section 4.9). Alternately press the parameter name to switch between Cardiac Output, Mean Arterial Pressure, Heart Rate or Systemic Vascular Resistance. 33 www.lidco.com Version 2 MOCA203 V2 User’s Manual Press to Change the parameter displayed in the Event Response window. Figure 56: Event Response Parameter Menu When an event is started, restarted or stopped, an event is automatically selected. If not required, this event can be cancelled by selecting the red X. The event information is entered as normal to keep a record of the intervention. Other events can still be entered when the event response is running. (see 7.5) Press to switch between alternate displays Version 2 www.lidco.com 34 V2 MOCA203 User’s Manual 4.8.5 Dynamic Preload Responsiveness Display Figure 59: Preload Responsive Trend The Dynamic Preload Responsiveness Display is used to assess the likely response of a patient to a fluid challenge. Data is displayed both graphically and numerically on this screen for ease of use. WARNING: Dynamic Preload response variables (e.g. SVV or PPV) are only valid in patients with closed chests on full mode control ventilation. WARNING: Dynamic Preload response variables (e.g. SVV or PPV) are unreliable in patients with significant arrhythmia. The LiDCOrapid will alert when heart rate variation exceeds 10%. Figure 60: SVV Trend The display is made up of two independent graphical trends. The first is a trend of either the Stroke Volume Variation (SVV) or the Pulse Pressure Variation (PPV) over a 10 minute period, adjustable to 60 minutes. 35 www.lidco.com Version 2 V2 MOCA203 User’s Manual Figure 61: Delta SV Trend The second, Delta SV (or PP), is a short term trend of the change in stroke volume (or pulse pressure) normalised to the current mean stroke volume (or pulse pressure). This results in a percentage value that oscillates around a baseline of 0. The numeric value of SVV (or PPV) is displayed along with the heart rate variation. When the HRV exceeds 10% the SVV (or PPV) is considered unreliable. The background of the HRV display will change to yellow and the Trend of the dynamic preload responsiveness display will indicate unreliable data by substituting a yellow line for each affected data point. Figure 62: Numeric SVV HRV display Press this button to switch the display to PPV. Version 2 www.lidco.com 36 V2 MOCA203 User’s Manual 4.9 Configuration of LiDCOrapid Screen The LiDCOrapid Screen can be configured to adjust the display of hemodynamic parameter trends. Figure 63: LiDCOrapid Configuration Press the configuration button to make changes to the display. 37 www.lidco.com Version 2 V2 MOCA203 User’s Manual 4.9.1 Hemodynamic Trend: Parameters can be displayed as either absolute or indexed to body surface area The averaging period for numeric display can be chosen from: Never, 10, 20 (default) or 30 seconds CVP value can be entered for a more precise calculation of SVR 4.9.2 Event Response: Stroke Volume (default) can be replaced with any of the selected parameters: CO, MAP, HR or SVR 4.9.3 Dynamic Preload Responsiveness Parameters: SVV (default) or PPV SVV target zone limit: 10% (default) range 5 – 25% PPV target zone limit: 13% (default) range 5 – 25% Press to select the arterial blood pressure waveform input source Figure 64: BPM Channel Select Version 2 www.lidco.com 38 V2 MOCA203 User’s Manual 4.10 LiDCOrapid Calibration Press the CO Entry button to display the window for calibration Enter the value for CO in the Measured CO box and press the Equalize Button to generate a calibration factor. Press the Green tick to accept the calibration or press the Red X to cancel. Figure 65: Rapid Calibration Window The LiDCOrapid can be calibrated by entering a known value for Cardiac Output (CO) or Calibration Factor (CF). It is important that calibration is carried out in a hemodynamically stable period with minimal variation in blood pressure or heart rate. The entry of the cardiac output should be done in a timely manner to avoid introducing a bias due to a change in the patient's condition. PRE-CALIBRATION CHECK LIST The performance of the LiDCOrapid Hemodynamic Monitor may be compromised in the following patients: • Patients with aortic valve regurgitation • Patients being treated with an intra-aortic balloon pump (IABP) • Patients with highly damped peripheral arterial lines • Patients with peripheral arterial vasoconstriction WARNING: Do not use the LiDCOrapid Hemodynamic Monitor with the patient types listed above – the performance of the device may be significantly compromised in such patients. Before use of the LiDCOrapid Hemodynamic Monitor familiarize yourself with the full list of indications, contraindications and warnings concerning calibration as shown in this manual. 39 www.lidco.com Version 2 V2 MOCA203 User’s Manual 5.0 Bispectral Index and EEG monitoring 5.1 Overview The Bispectral Index (BIS) is designed to monitor the hypnotic state of the brain based on acquisition and processing of EEG signals. The BISx pod processes raw EEG signals to produce a single number, called the Bispectral Index, or BIS, which correlates with the patient's level of hypnosis. The BIS may be used as an aid in monitoring the effects of certain anesthetic agents. Use of BIS monitoring to help guide anesthetic administration may be associated with the reduction of the incidence of awareness with recall in adults during general anesthesia and sedation. A sensor placed on the patient’s head transmits EEG signals to the BISx pod. The BISx Pod filters the data, analyzes it for artefact and processes it using digital signal processing techniques, then sends the data to the monitor for display. The purpose of processing the EEG waveform data is to extract characteristic features from the complex signal in order to provide easier pattern recognition of changes over time during the recording. The monitor can be configured to display the following BIS related information: Figure 66: BIS Trend Screen Version 2 www.lidco.com 40 V2 MOCA203 User’s Manual • Bispectral Index (BIS) – a two-digit value ranging from 0 to 100 that represents the patient's level of consciousness, where 100 = awake and 0 = flatline EEG. • The BIS number is invalidated (displayed as dashes) when the SQI is less than 15 and is displayed as a hollow number when the SQI is less than 50. • A vertically oriented alarm limits bar graph – The High and Low BIS alarm limits are user configurable from the BIS Configuration menu. These limits are displayed as a green coloured area on the BIS Trend. • An Electromyograph (EMG) Indicator – The EMG bar graph displays the power (in decibels) in the frequency range 70–110 Hz. This frequency range contains power from muscle activity (i.e., electromyography or “EMG”) as well as power from other high-frequency artefacts. When the graph is low, it indicates that EMG activity is low, which is desirable. High levels of EMG may bias the BIS number high. BIS monitoring conditions are optimal when the bar is empty. • 1 bar represents power in the 30-38 range • 2 bars represent power in the 39-47 range • 3 bars represent power in the 48-55 range • 4 bars represent power greater than 55. • A Signal Quality Indicator (SQI) – The SQI bar graph is an indication of the quality of the EEG signal that is received and processed into onscreen data. Signal quality is optimal when all 6 bars are green. • A Suppression Ratio (SR) Number – The Suppression Ratio (SR) is a calculated parameter designed to indicate when an isoelectric (flatline) condition may exist. Suppression ratio is the percentage of time over the last 63-second period that the signal is considered to be in the suppressed state. For example: SR=11 (isoelectric over 11% of the last 63 second review). • A Burst Count (BC) – Only available when a BIS Extend Sensor is in use, the Burst Count is an alternative method of quantifying suppression, reported as the number of EEG bursts per minute. The Burst Count displays only when the Signal Quality Indicator (SQI) is greater than 15 and the Suppression Ratio (SR) is greater than 5. A RAW EEG WAVEFORM Filtered electroencephalogram (EEG) waveforms are displayed above the BIS trend graph with a sweep rate of 25 millimeters per second and a scale of 25 microvolts (1 channel) or 50 microvolts (2 channels) per division. One or two channels of EEG may be displayed in this area. EEG filters can be turned off, if desired. 41 www.lidco.com Version 2 V2 MOCA203 User’s Manual 5.2 Warnings 5.2 1 General • This LiDCOrapid Monitor uses a modular device in deriving the Bispectral Index (BIS) supplied by Covidien. It is important to recognize that this index is derived using solely that company's proprietary technology. It is recommended that clinicians have reviewed applicable information on its utility and/or risks in published articles and literature/web site information from Covidien, or contact that company itself if they have clinical-based BIS questions relating to this module portion of the LiDCOrapid Monitor. Failure to do so could potentially result in the incorrect administration of anesthetic agents and/or other potential complications of anesthesia or sedation. LiDCO recommend that clinicians also review the following practice advisory (that includes a section on BIS monitoring): The American Society of Anesthesiologists, Practice Advisory for Intra-operative Awareness and Brain Function Monitoring (Anesthesiology 2006;104:847-64). Clinicians are also recommended to maintain current knowledge of FDA or other federal-based regulatory, practice or research information on BIS and related topics. • Operation of the BISx in magnetic resonance imaging (MRI) environments is not currently supported. • Surgeons using electorcautery scalpel must ensure scalpel does not come into contact with BIS sensor, to avoid serious patient injury. • To reduce the hazard of burn in the high-frequency surgical neutral electrode connection, the sensor should not be located between the surgical site and the electro-surgical unit return electrode. 5.2.2 Precautions • Clinical judgement should always be used when interpreting the BIS in conjunction with other available clinical signs. Reliance on the BIS alone for intraoperative anesthetic or sedative management is not recommended. • Artefacts and poor signal quality may lead to inappropriate BIS values. Potential artefacts may be caused by poor skin contact (high impedance), muscle activity or rigidity, head and body motion, sustained eye movements, improper sensor placement and unusual or excessive electrical interference. • BIS values should be interpreted cautiously in patients with known neurological disorders, those taking other psychoactive medications and in children below the age of one. Version 2 www.lidco.com 42 V2 MOCA203 User’s Manual 5.2.3 Patient Preparation • In accordance with the instructions included on the sensor packaging, prepare the sensor site and place the BIS sensor on the patient. • CAUTION: The BISx has been designed to operate with a BIS sensor. The sensor is a silver/silver chloride electrode array that utilizes Covidien’s patented Zipprep technology and uses a proprietary connector. Use of other electrodes is not recommended. • WARNING: The conductive parts of BIS electrodes or sensor and connectors, including the neutral electrode, should not contact other conductive parts, including earth. • WARNING: To reduce the hazard of burns in the high-frequency surgical neutral electrode connection, the BIS sensor or electrodes should not be located between the surgical site and the electro-surgical unit return electrode. • WARNING: The BIS sensor must not be located between defibrillator pads when a defibrillator is used on a patient connected to the BISx pod. • WARNING: To minimize the risk of patient strangulation, the BIS Patient Interface Cable (PIC) must be carefully placed and secured. 43 www.lidco.com Version 2 MOCA203 V2 User’s Manual 5.3 Hardware Setup: Connecting the BISx Pod Patient Interface Cable (PIC) BISx Pod Monitor Interface Cable (MIC) Figure 67: BIS System with sensor 5.3.1 Connect the BISx Pod to the monitor • Plug the BISx Monitor Interface Cable (MIC) into a USB port (see Appendix 9.12) connector on the LiDCOrapid Monitor. Connect the Patient Interface Cable (PIC) to the BISx Pod Attach the 10-pin connector from the PIC to the BISx Pod. • The connector is designed with a keyway that ensures proper pin alignment. To disconnect the PIC, grasp the connector housing and pull firmly. DO NOT pull the cable. • An automatic Sensor Impedance Check is initiated each time a BIS sensor is connected to the sensor cable. Figure 68: BIS USB connector to Rapid monitor • All signal status messages and alarms are suppressed for 60 seconds after a Sensor Impedance Check has ended. This allows time for signal quality to recover. WARNINGS: • When placing the pod, assure adequate ventilation/heat dissipation and avoid direct contact of the patient with the pod’s exterior surface Figure 69: BIS Sensor attached to PIC • To avoid electric shock, inspect all cables before use. Do not spill fluids on connectors, electrodes or electrode cables. See Section 8.2.2, Cleaning • Avoid accidental contact between electrodes and other conductive parts. • To minimise the risk of patient strangulation, the BIS sensor cable must be carefully placed and secured. Version 2 www.lidco.com 44 MOCA203 V2 User’s Manual 5.3.2 Secure the BISx Pod Using the BISx clamp, secure the BISx Module to a convenient location near the patient’s head (e.g. IV pole, bed rail or bedsheet), ensuring that both the clamp and the module are not in direct contact with any part of the patient’s body. CAUTION: Proper placement of the BISx pod is on an IV pole, bed rail, or clipped to a bedsheet. WARNING: Ensure against prolonged contact between the patient’s skin and the BISx Pod. The heat that may be generated could cause discomfort. CAUTION: Do not open the BISx Pod for any reason. The seal to prevent liquids from entering the module may be damaged if opened. Service or repairs must be performed by qualified biomedical technicians only. 5.3.3 BIS Setup NOTE: Before starting BIS monitoring, ensure that the sensor is connected properly and has passed impedance check. To access the BIS Configuration menu ii. Click on the navigation icon iii. Click on the configuration icon iv. Click on BIS The BIS setup menu is displayed. Figure 70: BIS Configuration Screen 45 www.lidco.com Version 2 MOCA203 V2 User’s Manual 5.4 BIS Configuration Menu Options 5.4.1 Configuration Menu Target Range To aid in patient management, a target range of desired BIS values may be set. When the Target Range is activated, the selected range displays on the BIS Trend Graph. The monitor will notify the user when the patient’s BIS value is outside of the intended range by flashing yellow. The Target Range menu has two steps: 1. Activating the Target Range feature so that the range displays on the BIS Trend Graph. 2. Setting a Target Range of desired BIS upper and lower limit values. There are three preset target ranges: Custom OR ICU Target BIS Range 40 to 60 40 to 60 40 to 80 Secondary Variable None EMG EMG EEG Channel 1 Channel 1 Channel 1 BIS Smoothing 15 seconds 30 seconds 30 seconds Filtering On On On Quick Reference Table: Menu Item Description Available Settings Target Range High and Low BIS limits High: 5 – 95 Low: 0 – 90 Default Target Range Predetermined settings for specific environments Custom: 40 TO 60 CU : 40 TO 80 OR : 40 TO 60 BIS smoothing rate Averaging for BIS 10, 15 (def) or 30sec Filter Applies filter to EEG On (def) or OFF Secondary Variable Set second BIS parameter (Config Screen) Choices: None (def), EMG, SQI, Suppression Ratio, or Bursts/min EEG Channels Display of EEG Channel 1 or 2 1 Channel (def) or 2 Channel Suppression Ratio (SR) % of time over last 63 seconds that isoelectric conditions existed Burst Count Number of EEG ‘bursts’ per minute Displayed with Extend Mode Sensor; not displayed if SR <5% or SQI <15% Sensor Check Opens sensor check page See below Version 2 www.lidco.com 46 V2 MOCA203 User’s Manual 5.5 Sensor Check Figure 71: BIS Sensor Check display and button The Sensor Check tests the impedance of each electrode on the BIS sensor to verify that it is within an acceptable range for monitoring. A Sensor Check is initiated automatically when the sensor and PIC are connected to the BISx. It may also be initiated by the user by pressing the touch key. The message, “Sensor Check in Progress” appears. When the sensor successfully passes the test, the Main Screen displays and monitoring begins. Figure 72: BIS Sensor Check display 47 www.lidco.com Version 2 MOCA203 V2 User’s Manual If the sensor does not immediately pass the test, or if the user has manually initiated the test, the Sensor Check Screen displays (Fig 72). This screen shows the sensor with each electrode numbered. Colours indicate the status of each electrode: • Hollow circle – No status is available. The electrode label will appear after a few seconds. • Green circle with Checkmark – The electrode impedance is within the acceptable range. When all circles are green, monitoring can begin. • Red blinking circle with ‘X’ – The electrode impedance is not within the acceptable range. Press the edges of the sensor to ensure adhesion and then press each circle for 5 seconds to ensure proper contact. Check all connections. If the problem persists, remove sensor, clean skin thoroughly, and reapply sensor or apply new sensor in accordance with instructions on the sensor packaging. • Gray circle with Question Mark – The electrode impedance cannot be determined due to electrical interference (noise) from another source. Monitoring will not commence until the source of the noise has been removed and all electrodes have passed the sensor check. If the user has requested the Sensor Check and all electrodes pass the test, the circles return to their original display colour (green). If user action is required, messages in the message region of the screen issue instructions. The monitor continues updating the values until all impedance values are acceptable. The cancel key allows the user to exit the screen before the test has completed, however, the Sensor Check impedance test must be successfully completed before normal processing resumes. In this display, the impedance value for each electrode, in kilo ohms, appears on the screen along with its status: PASS – An electrode passes if the impedance for that electrode is less than 7.5 kilo ohms. The ground electrode (electrode #2) must be less than 30 kilo ohms to pass. HIGH – An electrode is labeled “HIGH” if its impedance value is above 7.5 kilo ohms (30 kilo ohms for the ground electrode). As long as the combined impedance of electrodes #1 and #3 and the combined impedance of electrodes #1 and #4 are less than 15 kilo ohms, and the ground electrode is less than 30 kilo ohms, the sensor check will be considered successful. NOISE – If the signal from the electrode goes beyond the measurable range, the label “NOISE” displays. POOR CONTACT – If the impedance check indicates that the electrode is not in contact with the patient, the label “POOR CONTACT” displays. Version 2 www.lidco.com 48 MOCA203 V2 User’s Manual 6.0 CNAP Operation 6.1 Overview CNAP – Continuous Non-Invasive Arterial Blood Pressure – is a non-invasive method for measuring the continuous blood pressure waveform in adult and pediatric patients from the age of 4 years. A patient's blood pressure waveform is recorded by the CNAP Module by means of a double finger cuff with an integrated IR light sensor and air chambers. The measured IR signal – similar to a pulse oximeter – helps to measure the blood volume in the finger, which is kept constant by means of CNAP: beat to beat a counter pressure in the finger cuff is built up, which fluctuates between the systolic and diastolic blood pressure. Counter pressure ControlSystem Constant finger volume Figure 73: CNAP Technology Graphic A NBP cuff (oscillometric blood pressure measurement), measures absolute blood pressure values which are used to calibrate the relative blood pressure in the finger, thus ensuring absolute accuracy. The NBP cuff can be placed on the patient's upper arm either on the same or on the other arm as the CNAP double finger cuff. NBP measurement is essential to ensure absolute accuracy of the recorded blood pressure values. 49 www.lidco.com Version 2 V2 MOCA203 User’s Manual 6.2 Warnings CAUTION: The accuracy of the CNAP measurement depends on the accuracy of the accompanying NBP measurement, which is particularly important during calibrations or before interventions. The clinician should be aware that there may be lateral differences in blood pressure. The CNAP device does not compensate for lateral blood pressure differences that may occur in some patients. Make sure that no movement artefacts occur during measurement, especially during and until approx. 2 min. after measurement initialization. Powerful light sources (e.g. cameras with flashlight) may affect the CNAP measurement and cause artefacts. Movements of the patient, which result in changes of position of the CNAP double finger cuff regarding heart level, will have immediate influence on the absolute values of blood pressure readings. To compensate these physical effects (hydrostatic height), recalibrate the CNAP measurement by triggering a single NBP measurement. CAUTION: Do not use CNAP and NBP in patients with vascular prostheses in the arm. Check the patient's hand for warmth prior to using the CNAP module. Cold temperatures may affect CNAP performance. If no perfusion index is detected during use then the module cannot be used. CNAP is designed for the concurrent measurement of only one patient at a time. The CNAP blood pressure waveform is calibrated by means of oscillometric NBP measurement. If the accuracy of the NBP measurement is affected by artefacts (weak pulse, irregular pulse, artefacts from patient movement or tremor, or respiratory artefacts), this may also affect and reduce the accuracy of values measured by the CNAP Module. The use of some surgical devices might cause interference and reduce the quality of CNAP recordings. Never connect the device's air connectors to an intravascular system! TO AVOID THE POSSIBILITY OF OCCLUDING BLOOD FLOW IN THE FINGER DO NOT USE A FINGER CUFF THAT IS TOO SMALL FOR THE PATIENT'S FINGERS . USE THE CUFF CONTROLLER TO ESTIMATE THE CORRECT SIZE. THE DUAL FINGER CUFF SHOULD SLIDE ON AND OFF THE FINGER WITHOUT RESISTANCE OR EFFORT. THE PATIENT'S FINGER MAY SWELL IN SIZE IF PERIPHERAL ODEMA OCCURS. IF IN DOUBT USE THE NEXT LARGER SIZE OF CUFF. Regularly inspect the patient’s hand during measurement to avoid possible lasting damages caused by prolonged impairment of the patient's blood circulation! In case of any signs of total arterial compression in a finger during measurement, immediately discontinue the measurement process by pressing Stop on the CNAP control panel or by pressing on the Notification bar. If the monitored hand is not visible then pay particular attention to the quality of the blood pressure waveform displayed on the monitor screen. Decreases in pulsatility, pulse pressure could be the result of movement of the cuff, or tissue swelling local to the measurement site. In such cases re examination of the hand and sensor fit and positioning is recommended. Version 2 www.lidco.com 50 V2 MOCA203 User’s Manual Pain or strong feelings of discomfort are in no way normal and are not a part of CNAP measurements! Should a patient report any of these feelings, stop the measurement process immediately! Before connecting any cables to a patient, visually inspect all components for damages or wear. Any faulty parts are to be replaced immediately. Check the correct positioning of the CNAP double finger cuff regularly during measurement. Make sure that the cuff is not positioned on the finger joints. NOTE: Avoid compressing the air hoses or reducing their diameter in any way (e.g. by bending the cables) as this could impair the quality of the CNAP measurement. To avoid mechanical damage to the CNAP finger cuff, remove all objects (e.g. rings) from the patient’s fingers before measuring. WARNING: The operating environment for CNAP hardware has to comply with the directions regarding ambient temperature, relative humidity and atmospheric pressure. Take care to ensure regular and sufficient air circulation around the CNAP Module by placing the device accordingly (e.g. do not cover it with sheets or blankets). In some cases, CNAP measurement is not suitable • Weak signal shown via the Perfusion Index indicator (Low PI <1) • Reduced peripheral blood flow (e.g. peripheral shock, hypothermia extreme centralization, extreme hypothermia) • Arterial vascular diseases (arteriosclerosis, Raynaud’s syndrome, endarteritis obliternans, collagenosis, extremely advanced vascular diseases (PAOD). 51 www.lidco.com Version 2 V2 MOCA203 User’s Manual 6.3 Hardware Setup: Connecting the CNAP Module NOTE: Place the CNAP double finger cuff on the index and the middle finger of a patient. In rare cases – if necessary – the CNAP double finger cuff may also be placed on the middle and the ring finger. Thumb and little fingers are not suited for CNAP blood pressure measurement. The use of a too big or too small CNAP double finger cuff may result in faulty blood pressure recordings. 6.3.1 Hardware Connections The LiDCO CNAP Module is connected to the LiDCOrapid via two cables The power cable which is a 12-24V DC input and The USB cable, type ‘A’ to ‘B’ via a type ‘B’ connector on the module and a type ‘A’ connector on the monitor. NOTE: The CNAP module requires power and communication via the LiDCOrapid V2 monitor in order to measure and display blood pressure. 6.3.2 Patient Setup (connection) Preparation for a measurement (refer to chapter 4.4 – Patient setup): Choose the correct size of a CNAP double finger cuff by means of the graphics on the top of the CNAP Cuff Controller. Assemble the CNAP hardware by connecting the CNAP double finger cuff, the CNAP Cuff Controller, the CNAP cable and the CNAP Module. All the plugs and connectors are designed so as to make it impossible to switch them accidentally. Attach the CNAP hardware to the patient: The CNAP double finger cuff is placed on the proximal joints of the index and middle fingers. Make sure that the cuff cables run along the upper side of the patient's arm. Ensure the finger cuff slides on and off the patient's fingers easily. Fasten the CNAP Cuff Controller to the patient's forearm by means of the Fixation Strap using the Velcro fastner and make sure that the hand with the CNAP double finger cuff is placed at heart level). Place the NBP blood pressure cuff on the patient's upper arm (calibration for CNAP) contralaterally, or, if necessary, on the same arm as the double finger cuff. As soon as you have selected the patient type in the Patient Details Screen, the CNAP measurement is ready to start. Version 2 www.lidco.com 52 V2 MOCA203 User’s Manual 6.4 CNAP Operation 6.4.1 Starting the Measurement 1. Press the (start) button located in the CNAP Control panel to begin. NOTE: A stat measurement of blood pressure can be performed using the arm cuff prior to starting the CNAP if required. CAUTION: At any time during the calibration or after the start of the measurement, it is possible to stop the CNAP by pressing either the Stop button adjacent to the CNAP waveform display, or the emergency stop button located on the Notification bar. 2. Perfusion Index The CNAP control panel will display the Perfusion Index at the start of a measurement. This is displayed until a finger waveform has been identified and the calibration to the arm cuff (NBP) is ready to begin. The Perfusion Index (PI) describes the signal quality of perfusion in the finger artery in the CNAP cuff on a scale from 0 (no signal) to 6 (very good signal). The currently found PI is shown on the screen as a yellow bar. The maximum value that has been found during this calibration phase is marked with a green rectangle in the bar graph. 53 www.lidco.com Version 2 V2 MOCA203 User’s Manual Patients with poor peripheral blood circulation can be identified by means of a very low PI ≤ 1. A red bar at the first position in the bar graph is displayed. If the PI is ≤ 1, the CNAP measurement will not complete. Such a case involves the risk of a CNAP interruption due to insufficient peripheral circulation, i.e., in the course of measurement it could fail temporarily or completely. The red rectangle will disappear if a PI > 1 is found. 3. NBP – Arm Cuff Calibration The CNAP measurement requires calibration to an arterial blood pressure measured from a large artery near the heart (e.g. brachial). 3.1 NBP – Automatic NBP Calibration NBP (Non-Invasive Blood Pressure) uses the oscillometric method to determine a patient's blood pressure on a noncontinuous basis. To achieve this, the NBP module is integrated into the CNAP Module. Blood pressure measurement is conducted by means of a NBP cuff (available in 4 sizes) which is placed around the patient's upper arm (brachial artery) and connected to the CNAP Module. For measurement purposes, the pressure in the NBP cuff is controlled by the NBP module. The cuff pressure is first increased above systolic blood pressure and decreased step by step. The pulsations in the NBP cuff provide the basis for deriving the blood pressure values Systolic and Diastolic. 3.2 Manual NBP Calibration The user can enter NBP values manually to complete the calibration. This option is selected on the CNAP Config screen (sect 6.6). When required the monitor will issue an alert, both visual and audible, and open a window to allow Systolic, Mean and Diastolic values to be entered (see figure to right). CAUTION: At any time during the calibration or after the start of the measurement, it is possible to stop the CNAP by pressing either the Stop button adjacent to the CNAP waveform display, or the emergency stop button located on the Notification bar. Version 2 www.lidco.com 54 V2 MOCA203 User’s Manual During the NBP measurement, the CNAP control panel will indicate the pressure in the arm cuff as shown above. Once complete the values of Systolic and Diastolic pressure from the NBP measurement are displayed in brackets beneath the continuous values. 4. CNAP Timer for Finger Change and CNAP Controls There is a user specified time interval between each finger measurement that can last for 5 to 60 minutes (refer to CNAP configuration). In the CNAP control panel, a timer is used to display the time remaining until the next change of finger. The timer starts after the calibration is complete and remains visible while the CNAP measurement is being displayed. When the CNAP automatically changes the finger, the new finger is calibrated to the previous blood pressure values. The user can request a change of finger at any time, except during a NBP measurement. A change of finger request will automatically result in a new NBP calibration. Prior to CNAP Measurement the user can request a NBP measurement for display only. During a CNAP measurement the user can request a NBP measurement at any time. The NBP values will be used to recalibrate the CNAP measurement. 55 www.lidco.com Version 2 V2 MOCA203 User’s Manual 6.5 Main LiDCO CNAP Module Measurement and Display Screen Figure 86: CNAP Trend • Description of sections during operation a. Trend The CNAP trends are provided as standard hemodynamic parameters of blood pressure and heart rate. The trend can be adjusted to display intervals from 30 minutes to 8hours, and the scale of the display can be adjusted from 100 to 300mmHg. The scale of the axis can be adjusted by pressing on the axis and using the slide to select the preferred settings. When events are marked, they are displayed on trend displays of the blood pressure and heart rate trend. Version 2 www.lidco.com 56 V2 MOCA203 User’s Manual b. Numeric Values The display of numeric data to the right can be averaged over periods of 10, 20 or 30 seconds. This is can be adjusted in the Configuration Screen. c. Waveform The Blood pressure waveform is displayed as a trend over a 6 second window. The y-axis scale is fixed at a range of 0-300mmHg. d. CNAP Control Panel The CNAP Control Panel displays different information and control buttons depending on the measurement mode (refer to section 4.4 for more detail): i. Pre-measurement 1. Start button ii. During CNAP Calibration 1. Stop button and Perfusion index 2. Stop Button and NPB cuff pressure iii. During CNAP Measurement 1. Stop Button 2. Manual Finger Change button 3. Manual NBP button 4. Timer to next automatic finger change • Measurement Stop a. Routine i. Press stop button to stop the CNAP measurement. ii. Press the stop button to stop the NIBP measurement, when in process. This will not stop CNAP. Pressing the stop button again will stop the CNAP. b. Emergency CNAP/NIBP stop i. Press this button, located on the Alert bar, to stop the NBP and CNAP measurement at any time. 57 www.lidco.com Version 2 V2 MOCA203 User’s Manual 6.6 CNAP Configuration Menu Options Figure 87: CNAP Config Screen 6.6.1 CNAP Calibration Interval The CNAP Calibration Interval controls the automatic change from one finger to the other. This interval can be set between 5 and 60 minutes, at 5 minute increments. Note: Automatic finger change will calibrate the new finger to the previous values of Systolic and Diastolic pressure. Version 2 www.lidco.com 58 MOCA203 V2 User’s Manual 6.6.2 Alarms Physiological Alarms are available for Systolic, Mean and Diastolic pressures. The default values are shown in the table below for both Adult and Pediatric patients. i. Alarms On/Off Physiological alarms can be set to on or off by using the tick box. When physiological alarms are on they create an audible alert automatically when exceeded by either the CNAP or NBP measurements. ii. Alarm Limits Settings Alarms limits can be changed for both Adult and Pediatric patients at any time. Adult limits if Adult is chosen as patient type mmHg Lower Lower limit Default Upper Lower Upper limit Default Upper Sys 40 90 255 45 140 260 Mean 35 60 250 40 110 255 Dia 30 50 245 35 90 250 Pediatric limits if Pediatric is chosen and patient type 59 mmHg Lower Lower limit Default Upper Lower Upper limit Default Upper Sys 40 70 175 45 120 180 Mean 35 50 170 40 90 175 Dia 30 40 165 35 70 170 www.lidco.com Version 2 V2 MOCA203 User’s Manual 7.0 Combined Display and Common Features 7.1 LiDCOrapid and BIS Figure 88: LiDCOrapid and BIS combined display When both the LiDCOrapid and the BIS modules are selected for use in a monitoring session a combined screen is the default display. The Rapid + BIS combined display maintains features of each individual display while allowing additional data to be displayed simultaneously. The Hemodynamic section is identical to the Rapid alone display. The BIS trend and numeric data are also similar with indications for SQI and EMG available as well as a second trend variable. Event Response and Preload Response displays are combined into a single smaller co-display. The functions remain identical. Version 2 www.lidco.com 60 V2 MOCA203 User’s Manual Press to alternate with the EEG or blood pressure waveform display Figure 89: Bis trend display options 7.2 LiDCOrapid and CNAP Figure 90: Rapid + CNAP Screen When both the LiDCOrapid and the CNAP modules are selected for use in a monitoring session a combined screen is the default display. The Rapid + CNAP combined display maintains features of each individual display while allowing additional data to be displayed simultaneously. The key difference is the control panel for the Blood Pressure which is designed to control the CNAP Module. 61 www.lidco.com Version 2 V2 MOCA203 User’s Manual 7.3 BIS and CNAP When both the CNAP and the BIS modules are selected for use in a monitoring session a combined screen is the default display. The CNAP + BIS combined display maintains features of each individual display while allowing additional data to be displayed simultaneously. The Hemodynamic section is identical to the CNAP alone display. The BIS trend and numeric data are also similar with indications for SQI and EMG available as well as a second trend variable. EEG data is displayed as well. Version 2 www.lidco.com 62 V2 MOCA203 User’s Manual 7.4 LiDCOrapid, BIS and CNAP Figure 92: Rapid + BIS + CNAP When both the LiDCOrapid the CNAP and the BIS modules are selected for use in a monitoring session a combined screen is the default display. The Rapid + CNAP + BIS combined display maintains features of each individual display while allowing additional data to be displayed simultaneously. The Hemodynamic section is identical to the Rapid alone display. The BIS trend and numeric data are also similar with indications for SQI and EMG available as well as a second trend variable. Event Response and Preload Response displays are combined into a single smaller co-display. The functions remain identical. 63 www.lidco.com Version 2 MOCA203 V2 User’s Manual 7.5 Event Marking Events can be marked at any time during the use of the LiDCOrapid. A flag is placed on the hemodynamic or BIS monitoring display with the event number. Each event can be individually annotated. Standard event types are listed and additional information can be entered as well. A full list of events is available for review at any time. Press to display the submenu and choose to mark an event Use the following window to annotate the event: Figure 93: Event Entry Screen Choose an Event and Characteristic from the pull down options menu. Touch the white box to add additional information in the Notes field. Press the ‘green’ tick when complete. Press the ‘red’ X to cancel the event. Version 2 www.lidco.com 64 V2 MOCA203 User’s Manual 7.6 Event History Press this button to display a list of events as shown below Figure 94: Event History Window Editing Events Press this button to edit the specific event details 65 www.lidco.com Version 2 V2 MOCA203 User’s Manual 7.7 History Screen Press this button to display the Trend History Screen The History Screen can be used to look back over up to 24hrs of hemodynamic and/or BIS data, including preload response parameters SVV, PPV and HRV. Absolute or index values are displayed based on the Configuration Screen settings. Figure 96: History Screen LiDCOrapid Parameters available: CO (CI), SV (SVI), SVR (SVRI), MAP, HR, SVV, PPV, HRV BIS Parameters available: BIS, EMG, SQI, SR (if selected) Touch the magnifying glass to adjust the vertical or horizontal (time) scale Touch to display a target window for CO, SV or SVR BIS, SVV and PPV targets are displayed based on the Configuration Screen settings Version 2 www.lidco.com 66 MOCA203 V2 User’s Manual 7.8 Chart Screen Press this button to display a Chart of numeric data for up to 24 hours. The Chart Screen allows for numeric data display to assist in recording values for routine clinical charts as well as general review. The Chart Screen displays all the LiDCOrapid hemodynamic and BIS parameters, including absolute and index values, in seven (7) columns. Data are available for up to the past 24 hours. The Earliest data is the oldest data available Patient Information The Latest data is the most recent data available. Figure 97: Chart Screen Data Navigation: Press to move by one column The period between each displayed time point. The interval choices are 5 (default), 15 and 30 minutes or 1, 2 and 4 hours by one page to start of data 67 The time period for data averaging at each time point. The data can be averaged for periods of 10, 30 (default) or 60 seconds. www.lidco.com Version 2 V2 MOCA203 User’s Manual 8.0 Alarms, Safety, Cleaning and Maintenance Figure 98: Alarms Display 8.1 Alarms i. Alarm Description/Categories • There are 2 categories of alarm a. Advisory: white text on a blue background, This alarm text remains until acknowledged or the alarm condition is removed. b. Serious: black text on a flashing yellow background, i. This alarm continues to flash until it has been acknowledged. ii. Alarm text remains until the alarm condition is removed. ii. Alarm Display and Control • All alarms are displayed in the common notification bar when they occur. • The highest priority alarm is displayed when there is more than one alarm activated. • Alarms of the same priority are ordered in the following manner: a. By the time they occurred, with the most recent at the top, and b. Whether they have been acknowledged, with unacknowledged alarms at the top of the list. c. When there are multiple alarms the highest priority alarms will rotate every 15 seconds until acknowledged or removed. iii. Alarm Acknowledgement • Alarms are acknowledged by touching the alarm. • Audible alarms can be silenced by touching the speaker icon. Version 2 www.lidco.com 68 V2 MOCA203 User’s Manual 8.2 Safety Instructions, Cleaning, Maintenance 8.2.1 Safety Requirements Safety Instructions (see also inside front cover) • Always refer to this LiDCOrapid Hemodynamic Monitor User’s Manual. • Disconnect the LiDCOrapid Hemodynamic Monitor and the power supply unit from the voltage supply when not being used. • Check the power supply voltage is suitable for use with the LiDCOrapid Hemodynamic Monitor before connecting the equipment to the power outlet. • Disconnect this equipment from any AC outlet before cleaning. Use a damp cloth and do not use liquids or spray detergents for cleaning. • When disconnecting a cable, pull on the connector not the cable itself. • Do not attempt to remove the back cover of the LiDCOrapid Hemodynamic Monitor, any modules or open the power supply unit as you will be exposed to an electric shock hazard. This operation should only be performed by LiDCO Ltd certified service personnel. • To avoid the risk of electric shock, or permanent damage to the product, do not expose any of the LiDCOrapid Hemodynamic Monitor, power supply unit components or modules to rain, liquids or excessive moisture. • Consult qualified service personnel if the LiDCOrapid Hemodynamic Monitor or any associated module does not operate normally, the power supply unit or power cord is damaged or moisture/liquid has penetrated the product. 69 www.lidco.com Version 2 V2 MOCA203 User’s Manual 8.2.2 Cleaning and Disinfection Instructions Clean any spillage of blood or solutions on either the monitor or modules as soon as possible. Dampen the towel with detergent and lukewarm water to aid in cleaning. Use lint-free absorbent towels for spill cleanups. WARNING: WHENEVER AN EVENT SUCH AS SPILLAGE OF BLOOD OR SOLUTIONS OCCURS, RE-TEST LEAKAGE CURRENT BEFORE FURTHER USE. Recommended cleaning materials and methods are shown below: • To clean: Wipe with a cloth moistened with warm water or a soap solution. • Do not allow liquid to enter the monitor or any connectors. • Do not immerse any components in liquid. • Do not let residues of detergents or disinfectants air-dry on any parts of the device. Wipe them off with a cloth moist with water, then dry the instruments with a clean cloth. • Never use scouring agents, bleaching agents, or abrasive detergents. • After cleaning, wipe connector ends with alcohol and allow to dry completely. Residual moisture inside a connector may affect performance. • Dry thoroughly with a lint-free cloth. To disinfect: Wipe with a lint-free absorbent towels moistened with a dilute alcohol, 10% bleach solution, gluteraldehyde-based disinfectant or a commercial disinfectant. CAUTION: • Disinfectant agents: Never mix different kinds of disinfecting solutions (e.g. bleaching agents and ammonia), as this might result in the production of dangerous gases. • Internal hospital regulations: Disinfect the product in accordance with your own hospital regulations in order to avoid long-term damage of any kind. CAUTION: Do not autoclave the monitor, modules or any of the components. Autoclaving will seriously damage this product. Version 2 www.lidco.com 70 V2 MOCA203 User’s Manual 8.2.3 Maintenance or Service The following maintenance is recommended for the LiDCOrapid Hemodynamic Monitor Annual electrical safety check in accordance with hospital protocol Acceptable service/repair of the BISx Module in the field is limited to: • Replacement of the Monitor Interface Cable (MIC) • Replacement of the Patient Interface Cable (PIC) Replacing the PIC and MIC cables is an important routine maintenance action which will improve the reliability of the BIS monitoring system. CNAP Module maintenance includes an annual safety inspection to be performed by LiDCO certified service personnel: Functional technical inspection and check to determine if the unit is in calibration Safety test including leakage current measurement acc. IEC 60601-1 71 www.lidco.com Version 2 MOCA203 V2 User’s Manual 8.3 Troubleshooting LiDCOrapid Description Possible Causes and Corrective Measures Setup Screen Cannot access the LiDCOrapid Screen • Data must be filled into the fields: Patient’s ID, Height, Weight and Age before accessing the LiDCOrapid Screen Enter data in boxes Press ‘Rapid’ button Set-Up Procedure Difference of greater than 5% between parameters displayed on primary Monitor and those shown on the BP Window of the LiDCOrapid • BP Cable not connected to patient monitor and/or at the LiDCOrapid ADC connection Check connections • Patient Monitor analog output is not to the LiDCOrapid Hemodynamic Monitor ADC Specification of 100 mmHg = 1 volt Check analog pressure output specification of Monitor or Module used No BP Waveform is observed on any channel • Check all cable connections • For Channel 2 zero the Patient Monitor IBP waveform No values are displayed for Channel 1 Check all cable connections Zero Fail: Signal Varying Zero Fail: Offset too large Channel 1 must be zero’ed before values will display No BP waveform or values are displayed for Channel 2 Check cable connections No cable for Channel 2 Contact your LiDCO representative to obtain a cable Specify the Make/Model of your Patient Monitor The BPM is compliant with the applicable EMC requirements. It may still be affected by and/or affect other equipment. If interference occurs: Version 2 Reposition to reorient and/or increase the separation between the equipment. Connect the equipment to a power outlet on a different circuit www.lidco.com 72 MOCA203 V2 User’s Manual LiDCOSmart Card Description Possible Causes and Corrective Measures Smartcard is not recognised or Invalid Smartcard Wrong card or inserted incorrectly Check card is a LiDCOsmart and is oriented facing the user with the chip-end entering the monitor first (see section 4.6) Card has expired and can no longer be used Replace card with a new LiDCOsmart Data Download Buttons Not Active Download does not complete • USB device is not attached • USB device is full • USB device is not compatible Check USB device is attached Try a different USB device Serial Data Interface Data does not appear on Philips Monitor Data does not appear on Interfacing Monitor • Vuelink Enabled not selected for Serial Link Select Vuelink in Engineering Screen, Data Communications, then restart monitor • LiDCOserial Enabled not selected Serial Link Select LiDCOserial in Engineering Screen, Data Communications, then restart monitor 73 www.lidco.com Version 2 MOCA203 V2 User’s Manual 8.4 BIS Technical Alarms and Status Messages Status Messages: Possible Causes: Corrective Actions: Connect BISx 1. BISx disconnected. 2. Defective BISx cable. 3. Defective BISx. 4. Defective monitor. 1. Connect BISx. Verify all cable connections. 2. Inspect/repair cable at connector end. 3. Replace the BISx. 4. Replace monitor. Press electrode(s) x, y Temporarily unable to measure electrode(s) x, y [ 13 ] 1. Sensor is not fully in contact with patient’s skin. 2. Incorrect sensor application. 3. Defective PIC. 4. Defective BISx. 1. Press electrode indicated on the screen. 2. Read Instructions on sensor package to ensure correct sensor placement. 3. Replace the PIC. 4. Replace BISx. Sensor Disconnected/Connect sensor or PIC [ 14 ] 1. Disconnected sensor. 2. Poor or contaminated connection between sensor and PIC. 3. Disconnected PIC. 4. Defective PIC. 5. Defective BISx. 1. Connect the sensor. 2. Connect/clean connection between sensor and PIC. 3. Connect the PIC. 4. Replace the PIC. 5. Replace the BISx. Last Sensor Check Failed / Restart sensor check or reconnect sensor [ 16 ] 1. At least one element of sensor has too high impedance, and EXIT pressed (before sensor check completes). 2. Incorrect sensor application. 3. Poor sensor connection. 4. Defective PIC. 5. Defective BISx. 1. Verify Sensor Check passes. 2. Read Instructions on sensor package and reapply sensor. 3. Check sensor connection. 4. Replace the PIC. 5. Replace the BISx. Version 2 www.lidco.com 74 V2 MOCA203 User’s Manual Status Messages: Possible Causes: Corrective Actions: Excessive Artefact Detected in Signal [ 27 ] 1. Artefact, such as those generated by motion or eyeblinks, is causing loss of EEG recognition. 2. EMG Bar indicates electrical activity that may be interfering with EEG recognition. 3. PIC is defective. 4. BISx is defective. Note: This message may occur as the results of artefact (nonEEG signal) such as those generated from motion (patient movement or eye blinks) or the presence of electrocautery, warming blankets, or other devices. 1. If ARTEFACT label appears above the EEG waveform box, attempt to identify and eliminate artefact source. 2. If EMG bar is illuminated, attempt to determine and eliminate cause. 3. Verify Sensor Check passes. If not, replace PIC. 4. Replace BISx. The Signal Quality is less than half of the level desirable for optimal monitoring conditions. 75 www.lidco.com Version 2 V2 MOCA203 User’s Manual Status Messages: Possible Causes: Corrective Actions: Data unavailable due to poor signal quality [ 28 ] The signal quality is too low to accurately calculate a BIS value. The BIS value and other trend variables that are adversely affected by artefact are not displayed. 1. If ARTEFACT label appears above the EEG waveform box, attempt to identify and eliminate artefact source. 1. Artefact, such as those generated by motion or eye blinks, is causing loss of EEG recognition. 2. EMG Bar indicates electrical activity that may be interfering with EEG recognition. 2. If EMG bar is illuminated, attempt to determine and eliminate cause. 3. Verify Sensor Check passes. If not, replace PIC. 4. Replace BISx. 3. PIC is defective. 4. BISx is defective. Note: This message may occur as the results of artefact (nonEEG signal) such as those generated from motion (patient movement or eye blinks) or the presence of electrocautery, warming blankets, or other devices. BIS Out of Target Range Low – [ 29 ] High – [ 30 ] Version 2 The BIS has fallen outside the target range set by the user. www.lidco.com 1. Check patient. 2. Take note of BIS at limit set by user. 76 MOCA203 V2 User’s Manual Status Messages: Possible Causes: Corrective Actions: Isoelectric EEG Detected [ 31 ] No discernible EEG activity is detected for sixty-three seconds; SR=100. Note: This message notifies user of a flatline EEG. This is a normal condition when Sensor Simulator or Test Sensor is connected. If unintended: 1. Check patient vital signs, dosage, etc. 2. Check leads for proper connection and possible shorts. 3. Verify Sensor Check passes. 4. Verify DSC Self-test passes. 5. Verify PIC. Use Test Sensor or Sensor Simulator and Sensor Check. Replace with compatible sensor [ 83 ] The sensor is not compatible with the monitor configuration. Replace sensor. Sensor Ground Fault [ 92 ] (negative) [ 93 ] (positive) Problem is detected relating to sensor ground element. 1. Disconnect and examine sensor connection. Clean any contamination present. 2. Replace sensor if necessary. 3. Replace PIC. 4. Replace BISx. Sensor Overcurrent [ 94 ] Sensor is using too much current. 1. Disconnect and examine sensor connection. Clean any contamination. 2. Replace sensor if necessary. 3. Replace PIC. 4. Replace BISx. 77 www.lidco.com Version 2 MOCA203 V2 User’s Manual Status Messages: Possible Causes: Corrective Actions: No more Uses for this Sensor [ 95 ] Sensor has been connected and disconnected too many times. Replace the sensor. Reinsert sensor firmly [ 96 ] 1. Poor or contaminated connection between sensor and PIC. 1. Connect/clean connection between sensor and PIC. 2. Replace the PIC. 2. Defective PIC. 3. Replace the BISx. 3. Defective BISx. Sensor used for over 24 hours [ 109 ] Unrecoverable BISx error [ 517 ] Replace PIC. Possible PIC problem. [ 548 ] Sensor was attached to system for more than 24 hours. Replace sensor. (See Message 1000). 1. Defective PIC. 1. Test another PIC with Sensor Simulator. 2. Defective Sensor Simulator. 2. If failure persists, replace simulator and retest. Possible PIC problem. Check cable using Sensor Simulator [ 549 ] Defective PIC. Unrecoverable BISx Error /BISx initialization error [ 1000-1999 ] 1. Poor connection between BISx monitor cable and monitor. 1. Test PIC using Sensor Simulator or Test Sensor. 2. Replace PIC. 2. Defective BISx. 1. Follow on-screen instructions. If necessary, power OFF and unplug power cord to shut down monitor completely. Then plug in and restart monitor. 3. Defective monitor. 2. Replace the BISx. 3. Replace the monitor. Version 2 www.lidco.com 78 V2 MOCA203 User’s Manual 8.5 CNAP Alarms and Status Message 8.5.1 Summary The CNAP issues five (5) different types of Message or Alert to the user: Status messages, Physiological Alerts, Critical Alerts, Fatal Alerts and Arm Cuff Alerts. All of these will appear in the Alert Bar, and certain ones will issue an audible notification as well. When a Critical Alert occurs, the CNAP Module will indicate to ‘Disconnect and Reconnect the CNAP Cuff Controller’. If a Fatal Alert occurs, the CNAP Module will indicate to ‘Disconnect and Reconnect the USB cable’. 8.5.2 CNAP Alert Types Overview 8.5.2.1 Status Messages The CNAP Module will issue status messages to indicate what is happening with the setup or measurement. The most common are ‘CNAP Initializing’ when it is first connected, ‘CNAP Put Fingers In Cuff’ when initializing is complete and ‘CNAP Ready’ when fingers are in cuffs and it is ready to start. These messages can be acknowledged or they will disappear as the CNAP changes to a new operation step. These status messages do not result in an audible notification. 8.5.2.2 Physiological Alerts The LiDCOrapidV2 has the option to monitor CNAP Systolic, MAP and Diastolic pressures against a set of user defined limits for High and Low values (refer to 6.6.2). These alert settings are located in the CNAP Configuration screen. The alerts can be turned on or off, and the High/Low limits for each pressure can be adjusted individually. There are different limits for Adult and Pediatric patients. These alerts will issue an audible notification as well as a flashing notice in the Alert Bar. 8.5.2.3 Critical CNAP Alerts The CNAP Module will issue a Critical Alert when there is a fault related to the measurement function. These can include, for example: air leaks or poor connections, or faulty finger cuffs. When a Critical Alert is issued, it will be accompanied by a unique message describing the fault and a common message indicating that the user must disconnect and reconnect the CNAP Cuff Controller in order to proceed. 8.5.2.4 Fatal CNAP Alerts The CNAP Module will issue a Fatal Alert when there is a system fault. This is a less common, but more severe system fault. The fault can be cleared by disconnecting and reconnecting the USB cable between the CNAP and the LiDCOrapid. 8.5.2.5 Arm Cuff Alerts The CNAP Module will issue alerts when the NIBP Arm Cuff has a fault. The most common would be NIBP leakage ( e.g. tube not connected) or NIBP terminated (e.g. user presses stop). These are cleared the next time the NIBP is successfully used. 79 www.lidco.com Version 2 MOCA203 V2 User’s Manual 8.5.3 Detailed Listing of CNAP Alerts Status Messages Message Condition/Cause Actions CNAP Module USB Cable Disconnected USB cable disconnected Reconnect USB Cable CNAP Ready Ready to begin measurement None CNAP Cuff Controller Disconnected NA Connect Cuff Controller CNAP Finger Cuff Disconnected NA Connect Finger Cuff CNAP Initializing CNAP Starting Up None CNAP Put Fingers in Cuff CNAP waiting for patient None CNAP Cuff Near End of Life Finger Cuff total use time is high Replace finger cuff soon CNAP Calibration with NIBP Waiting for Arm Cuff measurement to complete None CNAP Ringing Faulty cuff controller check cable connections replace cuff controller CNAP - Check Power Supply Power has been removed Check cable connections Check that mains power is on CNAP Calibration: Manually Enter NIBP Values Waiting for NIBP Values Enter Sys/MAP/Dia values from Patient Monitor Message Condition/Cause Actions Sys/MAP/Dia is High or Low Physiological values is above upper limit or below lower limit Check Patient and treat as necessary Check/adjust alarm limits Check cable and connections Replace cuff or cable if necessary. Physiological Version 2 www.lidco.com 80 MOCA203 V2 User’s Manual Critical Message Condition/Cause • CNAP ERROR - Disconnect and Reconnect Cuff Controller Critical Alerts issued; will accompany all Critical Alerts • CNAP Fault - Reservoir Pressure Air Leak in System • CNAP Zero Offset Controller Fault Faulty Cuff Controller • CNAP Fault - Initial Pressure Actions Check all connections between CNAP Module, Cuff Controller and Finger Cuff Disconnect and Reconnect Cuff Controller • CNAP Fault - Pump/Tubing/Valve Leaky Replace Cuff Controller • CNAP: Cuff Cannot Deflate/Blocked Replace Finger Cuff • CNAP Fault - Blocked Or Leaky Valve • CNAP Fault - Left Cuff Leak • CNAP Fault - Right Cuff Leak • Finger Light Amplitude Check size/fit of finger cuff • CNAP Cuff Fault - Light Sensor Left Finger Cuff fit is too loose on finger • CNAP Cuff Fault - Light Sensor Right Faulty Finger Cuff Disconnect and Reconnect Cuff Controller Incompatible Cuff Controller or Finger Cuff Replace Cuff Controller or Finger Cuff • CNAP Check Cuff - Ambient Light Replace Finger Cuff • CNAP Check Cuff - Low Light Signal • CNAP Invalid Cuff Controller • CNAP Invalid Finger Cuff • CNAP Cuff Fault Expired • CNAP Cuff Fault - Memory Finger Cuff has reached use limit Faulty Finger Cuff • CNAP Check Arm Cuff - Timeout On Calibration • Watchdog Error disconnect/reconnect cuff controller NIBP Measurement or External NIBP Values not obtained within 3 minutes Disconnect and Reconnect Cuff Controller System Fault Disconnect and Reconnect Cuff Controller • CNAP Power Supply Repeat measurement If problem persists, return CNAP Module, cuff controller, cable and finger cuffs. • CNAP Temperature Exceeded • Cuff Pressure Exceeded • SCIA Watchdog Overflow • SCIB Watchdog Overflow • CNAP Controller Non-volatile Memory Fault 81 www.lidco.com Version 2 MOCA203 V2 User’s Manual Fatal Alerts Message Condition/Cause Actions • CNAP Fault - Module Auto Reset Fatal Alert issued Disconnect and Reconnect USB cable between CNAP Module and Monitor • CNAP Coprocessor Fault Faulty CNAP Module Will Accompany all Fatal Alerts • CNAP Memory Overflow Disconnect and Reconnect USB cable If problem persists contact LiDCO representative. • CNAP Reset • CNAP Temperature Sensor Fault • CNAP EEPROM Fault • CNAP Cuff Inflation Timeout • CNAP Fault ADC • CNAP Failure - Cuff Overpressure Left Faulty Pressure Control • CNAP Failure - Cuff Overpressure Right Disconnect and Reconnect USB cable If problem persists contact LiDCO representative. • CNAP Failure - Reservoir Overpressure Version 2 www.lidco.com 82 MOCA203 V2 User’s Manual Arm Cuff Alerts Message Condition/Cause Actions • NIBP: Weak Or No Signal Check Arm Cuff Kinked or Blocked tubing Check connections and tubing Arm Cuff too large or too small Check arm cuff size Arm Cuff not near to brachial artery Check location of arm cuff on patient • NIBP Leakage Tubing disconnected or connectors not fully attached to plugs Check connections and tubing • NIBP Terminated User or System as issued a Stop • NIBP Safety Timeout Faulty CNAP Module • NIBP: Artefact - Check Arm Cuff • NIBP Blocked Line • NIBP Out of Range BP Value • NIBP Overpressure • NIBP Hardware Fault If problem persists contact LiDCO representative. • NIBP Autozero Failure • NIBP Transducer Failure • NIBP ADC Failure • NIBP Calibration Failure 83 www.lidco.com Version 2 V2 MOCA203 User’s Manual 9.0 Appendices The LiDCOrapid allows for configuration of the monitor, downloading of data files and a demonstration mode. This is accessed from the Welcome Screen by pressing the configuration button. These screens have three main purposes Demonstration Data Download Configuration Functions 9.1 Demonstration Figure 99: Demonstration Data Screen Version 2 www.lidco.com 84 V2 MOCA203 User’s Manual i. Select each module for demonstration and a file or files will appear in the section below. Demonstration mode allows the user to playback one of several waveforms into the LiDCOrapid. Note that the monitor will display an alert message when a demonstration waveform is being displayed. In this mode, the normal blood pressure signal input is ignored. ii. The following waveforms are available in demonstration mode: • Fluid Responsive • Fluid Challenge • Inotrope • Stable • High Heart Rate • Post Fluid Challenge 9.2 Data Download Figure 100: Data Download Screen 85 www.lidco.com Version 2 V2 MOCA203 User’s Manual i. The LiDCOrapid stores patient data for up to 6 months. The data download feature allows patient files to be downloaded either as LiDCOview files (*.LVU) or for the specific files to be downloaded separately. All data is downloaded to USB drives which must be inserted before a download can occur. The files are organised according to the patient ID field. The patient's name is not included in any of the data files. ii. The Download Screen allows easy navigation of the available data by collecting all files with the associated patient ID 'folder'. In the lower window all the associated files are displayed. iii. To download data 1. Attach a USB device and ensure it is acceptable 2. Select the Patient ID 3. Select the specific file in the lower window and press the 'File Download' button. iv. The display can be sorted by each category by touching the category. The default is by Session ID. Figure 100a v. A summary of all Patient ID's can be created and downloaded to USB for auditing purposes by pressing . 1. Insert USB 2. Press 3. File Name : Patient_ID_List_(Serial Number)_DateTTime.csv vi. Delete all Patient Data by pressing green tick to confirm and delete. . A confirmation window will appear (fig 100d). Type YES and press the NOTE: DATA CANNOT BE RECOVERED AFTER IT IS DELETED Figure 100d Version 2 www.lidco.com 86 MOCA203 V2 User’s Manual 9.3 Data Output 9.3.1 Serial Data Configuration Connect 9-pin D-type cable to COM1 port Data Output: CO/CI, SV/SVI, SVR/SVRI, PPV, SVV, HRV, Sys/MAP/Dia and BIS/EMG/SQI/BC/SR Figure 101: LiDCOserial Data Output Config • LiDCOrapid has two serial data output formats: a. IntelliBridge or Vuelink (for Philips Monitors) i. Configurable data output frequency b. LiDCO serial (using RS232) i. Configurable data output frequency ii. Configurable data averaging periods iii. Configurable RS232 port settings (default) 1. Baud Rate: 57600 2. Data Bits: 8 3. Stop Bits: none 4. Parity: 1 87 www.lidco.com Version 2 V2 MOCA203 User’s Manual 9.3.2 TCP/IP Configuration Figure 102: TCP/IP Configuration Version 2 www.lidco.com 88 V2 MOCA203 User’s Manual 9.4 Date/Time Select the year, month, day hour and minute from the pull down menu. Select the green tick button to accept or the red X button to cancel any changes. Figure 103: Set Date/Time 89 www.lidco.com Version 2 V2 MOCA203 User’s Manual 9.5 Language Select a language by touching the radio button next to the language name. Select the green tick button to accept or the red X button to cancel any changes. A change will require the monitor to restart. Figure 104: Set Language Version 2 www.lidco.com 90 V2 MOCA203 User’s Manual 9.6 Software Upgrade The LiDCOrapid software can be upgraded via a USB flash drive. LiDCO will issue the new software and passwords to allow monitors to be upgraded. It is not possible to modify the software without these specific drives, software and password. Separate instructions will accompany each upgrade. Figure 105: Software Upgrade Screen 91 www.lidco.com Version 2 V2 MOCA203 User’s Manual 9.7 Service Mode The Service mode provides access for global configuration changes and equipment servicing and calibration. This mode is restricted by special smartcard and password authentication to authorised LiDCO representatives. Figure 106: Service Mode NIBP Calibration Version 2 www.lidco.com 92 V2 MOCA203 User’s Manual 9.8 Parameters 9.8.1 Rapid Variable Name Description Display Range Cardiac Output (CO) (Index) The product of stroke volume and heart rate. The CO is the amount of blood pumped by heart over a minute. 0 – 30 l/min (l/min/m2) Stroke Volume (SV) (Index) The amount of blood ejected by the heart in a given beat; updated beat-by-beat based on the PulseCO pulse power analysis algorithm. 1-500ml (ml/m2) Sys/MAP/Dia Pressure The Systolic, Mean Arterial and Diastolic pressures derived from the arterial blood pressure waveform. 0 – 240 mmHg Heart Rate (HR) The number of beats per minute of the heart. 0-220 bpm Systemic Vascular Resistance (Index) The quotient of pressure and cardiac output. SVR reflects the resistance to flow and is calculated as the quotient of pressure and cardiac output. 50 - 60,000 dyn s /cm5 (dyn s m2 /cm5) Stroke Volume Variation SVV The maximum SV minus the minimum SV divided by the mean SV across at least one respiratory cycle (10 seconds). Values below 10% indicate the patient is unlikely to respond to fluids values above 10% indicate the patient will respond to fluids. 0-100% Pulse Pressure Variation (PPV) The maximum PP minus the minimum PP divided by the mean PP across at least one respiratory cycle (10 seconds). Values below 10% indicate the patient is unlikely to respond to fluids values above 10% indicate the patient will respond to fluids. 0-100% Heart Rate Variation (HRV) The standard deviation in heart rate over a respiratory cycle (10 sec) divided by the mean HR. Values above 10% will not display the SVV or PPV. 0-100% 93 www.lidco.com Version 2 MOCA203 V2 User’s Manual 9.8.2 BIS Variable Name Description Display Range Bispectral Index (BIS) The output from a multivariate discriminate analysis that quantifies the overall bispectral properties (frequency, power, and phase) throughout the entire frequency range. 0 – 100 Signal Quality Indicator (SQI) A measure of the signal quality for the EEG channel source(s) that is calculated based on impedance data, artefact, and other variables. Not affected by Suppression Ratio. 0 – 100 15 points per bar EMG The absolute power in the 70-110 Hz range. The power value is reported in dB with respect to 0.0001μV2. All the artefact detection is turned off for this variable. 30 – 80 dB Trend 30 – 55 dB Bar Graph Suppression Ratio (SR) The percentage of epochs in the past 63 seconds in which the EEG signal is considered suppressed. 0 – 100 % Burst Count The number of EEG bursts per minute, where a “burst” is defined as a short period of EEG activity preceded and followed by periods of inactivity (suppression). 0 – 20 Description Display Range Sys/MAP/Dia Pressure The Systolic, Mean Arterial and Diastolic pressures derived from the arterial blood pressure waveform. 0 – 240 mmHg Heart Rate (HR) The number of beats per minute of the heart. 0-220 bpm 9.8.3 CNAP Parameters Variable Name Version 2 www.lidco.com 94 MOCA203 V2 User’s Manual 9.9 Technical Specifications 9.9.1 LiDCOrapid Monitor Monitor – HM 8101 Platform: POC-125 DTP-1201 Weight: 4.8kg 4.75kg Dimensions: 350 x 290 x 90mm 310 x 260 x 80mm Input: 24VDC 100-250 VAC 50-60 Hz Power Consumption: 50w 60w Display: 12" Colour LCD 12" Colour LCD User Interface: Touchscreen Touchscreen External Connections: Power input Analog Blood Pressure Input File Download Power input Power output 12VDC, 11W File Download Operating Conditions: 10-40 °C 30-75% RH noncondensing 700-1060hPa 10-40 °C 30-75% RH noncondensing 700-1060hPa Storage Conditions: -20-50 °C -20-50 °C 10-95% RH noncondensing 10-95% RH noncondensing Equipment Classification SELV (IEC60601-1) Class I For Continuous Use For Continuous Use Not Protected against water ingress Not for use in the presence of flammable gases Fitted with a 3V, 195mA lithium battery. Only to be replaced by qualified service personnel. Dispose of the old battery in a safe manner that complies with applicable laws. Analog IBP Input Signal Specification: Scaling 1V/100mmHg Range 0-2.5 VDC (0-250mmhg) Accuracy ± 3% full scale Signal to noise > -55dB Internal ADC Card Specification: 95 NA, uses LiDCO BP Module Resolution 12 bit Accuracy 0.01% ± bit Stability > 0.5% full scale over 4 hours www.lidco.com Version 2 V2 MOCA203 User’s Manual 9.9.2 Power Supply Unit (POC-125 only) Power Supply Unit: POC-125 PSU PCM80P524 Input: 100-250 VAC 50-60 Hz Output: 24VDC Equipment Classification Class 1 (IEC 601) 9.9.3 LiDCOsmart Card LiDCOsmart Card Type Microprocessor-integrated chip Size (WxLxT) Nominal 86 x 54 x 0.76 (7816-1) Memory 1Kb minimum 9.9.4 LiDCO Blood Pressure Module and components Dimensions (H x W x L) Overall 35 x 207 x115 mm Mounting plate 4 x 120 x 105 mm Weight 300g BPM interface cable length 3m USB Cable, A to B 30 cm Compatible transducers sensitivity 5uV/Ve/mmHg Analog input specification 1V=100mmHg, 0-2.5VDC, 0V offset. Accuracy +/-3% of full scale Power (USB) 5VDC, 500mA max Operating Conditions 10-40 °C 30-75% RH Storage Conditions 0-40 °C 20-90% RH Not protected against water ingress Type CF applied part. F-type isolated (floating) patient part providing a high degree of protection against shock and is suitable for use during defibrillation. Defibrillation recovery <5 seconds. The BPM is not Category AP or Category APG and should not be used in the vicinity of a flammable anaesthetic mixture with air or oxygen or nitrous oxide. Version 2 www.lidco.com 96 MOCA203 V2 User’s Manual 9.9.5 BISx BISx Specifications: BISx: Weight: 10.0 oz (0.284 kg) including integral cable Dimensions: 3.75 in diameter x 2.5 in thick (9.5 cm x 6.3 cm) Cable Length: 9 ft (2.7 m) Integral BISx Cable 4 ½ ft (1.4 m) from BISx to sensor connector Analog to Digital Converter: Noise-shaped sigma-delta Sampling Rate: 16,384 samples/second Resolution: 16 Bits at 256 samples/second Input Impedance: 50 Mohms typical Noise: Common Mode Rejection: (Isolation mode) < 0.3 μV RMS (2.0 μV peak-to-peak); 0.25 Hz to 50 Hz 110 dB at 50/60 Hz to earth ground Frequency/Bandwidth: 0.16 – 450 Hz Equipment Classification Class I, type BF, defib proof Applied Part: BIS Sensors (supplied separately) Quattro: Extend: Pediatric: 97 Operating Conditions: 10 – 40 C / 20 – 90% RH Storage/Transport Conditions: -20 to 60 C / 10 – 95% RH www.lidco.com Version 2 V2 MOCA203 User’s Manual 9.9.6 BISx EEG Specifications: Epoch Duration: 2 seconds Artefact Rejection: Automatic Input Amplifier Range +/- 1 mV EEG Scales: One channel display: EEG Sweep Speed: 25 μV/div (+/- 50 μV full scale) 25 mm/sec Computed Parameters: Bispectral Index, Suppression Ratio, EMG, Signal Quality Indicator, and Burst Count User-defined Displays: Trend and real-time EEG waveforms Update Rate: 1 second for BIS number, 10 seconds for Trend Filters: ON (2 – 70 Hz with notch) or OFF (.25 – 100 Hz) Mode: Sensor automatically selects mode. 9.9.7 CNAP Module Specifications Dimensions (H x W x L) Overall 65 x 140 x 230 mm Mounting points – VESA pitch 75 x 75 mm (2 faces) Weight 800g LEMO to miniDIN power cable 35 cm USB Cable, A to B 30 cm CNAP Main Board Described below NBP Board Described below Power (USB) 5VDC, 500mA max Operating Conditions 10-40 °C 30-75% RH Storage Conditions 0-40 °C 20-90% RH Not protected against water ingress type BF applied part. F-type isolated (floating) patient part providing a high degree of protection against shock and is suitable for use during defibrillation. The CNAP Module is not Category AP or Category APG and should not be used in the vicinity of a flammable anaesthetic mixture with air or oxygen or nitrous oxide. Version 2 www.lidco.com 98 V2 MOCA203 User’s Manual CNAP - continuous non-invasive arterial pressure Main Board 99 Parameter classification Sys, Dia, Mean [mmHg] Heart Rate [bpm] Measuring range Sys: 40 - 250 mmHg (5.3 – 33.3 kPa) Dia: 30 - 210 mmHg (4 - 28 kPa) Mean: 35 - 230 mmHg (4 – 30.6 kPa) Heart rate indication range 20-200 bpm Accuracy ±5 mmHg (0.6 kPa) Display resolution 1 mmHg (0.1 kPa) Inflation pressure Typ.: 120 mmHg (16 kPa) Min.: 30 mmHg (4 kPa) Max.: 300 ±10 mmHg (41.3 kPa ±1.3 kPa) Excess pressure limit: 300 ±10 mmHg (40 kPa ±1.3 kPa) Response time: < 3 sec. Deflation time: < 15 sec. Protection against electric shock Type BF www.lidco.com Version 2 MOCA203 V2 User’s Manual NBP – non-invasive blood pressure Board Parameter classification Sys, Dia [mmHg] Measuring method Oscillometric: diastolic value for phase 5 Korotkoff Measuring range Sys: Dia: ADULT 40 - 260 mmHg PEDIATRIC 40 - 160 mmHg ADULT 20 - 200 mmHg PEDIATRIC 20 - 120 mmHg Heart rate indication range 40-200 bpm Inflation pressure at start ADULT: 160 mmHg PEDIATRIC: 120 mmHg Clinical accuracy Meets ANSI/AAMI SP10:1992 and 2002 Accuracy of pressure recording ± 3mmHg between 0 - 300 mmHg at operating temperatures of 0 – 50°C Calibration interval for pressure recording 12 months Atmospheric pressure No influence on accuracy of measurement Measuring time max. 130 s (ADULT) Max. inflation time 50 s Max. cuff pressure 300 mmHg Automatic deflation after 180 s Protection against electric shock Type BF Version 2 www.lidco.com 100 V2 MOCA203 User’s Manual 9.10 Electrical Safety and EMC IEC 60601-1 Guidance and Manufacturer’s Declaration The LiDCOrapid Hemodynamic Monitor System needs special precautions regarding EMC and needs to be installed and put into service according to the EMC information provided below. Portable and mobile RF communications equipment can affect the LiDCOrapid Hemodynamic Monitor System. To assure compliance the LiDCOrapid Hemodynamic Monitor System should only be used with the following cables, supplied by LiDCO: Part Number Description Maximum length CM32-001, CM-044 AC Power Cord <3.0m Li10705 LiDCO CNAP, DC Power <1.0m Li10xxx PulseCO (LiDCOrapid) to Patient Blood Pressure Monitor <3.0m Li106xx BPM Interface Cable <4.0m BIS 175-0075 BIS Monitor Interface Cable, USB <4.0m Li10739 USB Cable(s) (BP Module, CNAP Module) <1.0m Use of accessories and cables with the LiDCOrapid Hemodynamic Monitor System, other than those supplied by LiDCO, may result in increased emissions or reduced immunity of the LiDCOrapid Hemodynamic Monitor System. 101 www.lidco.com Version 2 MOCA203 V2 User’s Manual Guidelines and manufacturer’s declaration – electromagnetic emissions The LiDCOrapid is intended for use in an electromagnetic environment as specified below. The customer or operator of the LiDCOrapid is to ensure it is used in such an environment. Emission test Compliance Electromagnetic environment - guidelines RF emissions CISPR 11 Group 1 The LiDCOrapid uses RF energy only for its internal function. Therefore, its RF emissions are very low and are not likely to cause any interference in nearby electronic equipment. RF emissions CISPR 11 Class A Harmonic emissions IEC 61000-3-2 Class A Voltage fluctuations/ flicker emissions IEC 61000-3-3 Complies Version 2 The LiDCOrapid system is suitable for use in all establishments, other than domestic and those directly connected to the public low voltage power supply network that supplies buildings used for domestic purposes. www.lidco.com 102 MOCA203 V2 User’s Manual Guidelines and manufacturer’s declaration – electromagnetic immunity The LiDCOrapid is intended for use in an electromagnetic environment as specified below. The customer or operator of the LiDCOrapid is to ensure that it is used in such an environment. Immunity test IEC 60601 test level Level of compliance Electromagnetic environment - guidelines Electrostatic discharge (ESD) IEC 61000-4-2 ± 6 kV contact ± 8 kV air ± 6 kV contact ± 8 kV air Floors should be wooden, concrete or ceramic tile. If floors are covered with synthetic material, relative humidity should be at least 30%. Electrical fast transient/ burst IEC 61000-4-4 ± 2 kV for power supply lines ± 1 kV for input/output lines ± 2 kV for power supply lines Mains power supply quality should be that of a typical commercial or hospital environment. Surge IEC 61000-4-5 ± 1 kV differential mode ± 2 kV common mode ± 1 kV differential mode ± 2 kV common mode Mains power supply quality should be that of a typical commercial or hospital environment. Voltage dips, short interruptions and voltage variations on power supply input lines IEC 61000-4-11 < 5% UT (> 95% dip in UT) for 0.5 cycle 40% UT (60% dip in UT for 5 cycles 70% UT (30% dip in UT) for 25 cycles < 5% UT (> 95% dip in UT) for 5 sec < 5% UT (> 95% dip in UT) for 0.5 cycle 40% UT (60% dip in UT) for 5 cycles 70% UT (30% dip in UT) for 25 cycles < 5% UT (> 95% dip in UT) for 5 sec Mains power quality should be that of a typical commercial or hospital environment. If the operator of the LiDCOrapid requires continued operation during power mains interruptions, it is recommended that the LiDCOrapid be powered from an uninterruptible power supply or a battery. Power frequency (50 Hz/60 Hz) magnetic field IEC 61000-4-8 3 A/m 3 A/m Power frequency magnetic fields should be at levels characteristic of a typical location in a typical commercial or hospital environment. Note: UT is the a.c. mains voltage prior to application of the test level. 103 www.lidco.com Version 2 MOCA203 V2 User’s Manual Guidelines and manufacturer's declaration – electromagnetic immunity The LiDCOrapid is intended for use in an electromagnetic environment as specified below. The customer or operator of the LiDCOrapid is to ensure that it is used in such an environment. Immunity test IEC 60601 test level Level of compliance Electromagnetic environment - guidelines Portable and mobile RF communication equipment should be used no closer to any part of the LiDCOrapid, including cables, than the recommended separation distance calculated from the equation applicable to the frequency of the transmitter. Recommended separation distance: Conducted RF IEC 61000-4-6 3 Vrms 150 kHz to 80 MHz 3 ➔ V1 in V Radiated RF IEC 61000-4-3 3 V/m 80 MHz to 2.5 GHz 3 ➔ E1 in V/m for 80 MHz to 800 MHz for 800 MHz to 2.5 GHz Where P is the maximum output power rating of the transmitter in watts (W) according to the transmitter manufacturer and d is the recommended separation distance in meters (m). Field strengths from fixed RF transmitters, as determined by an electromagnetic site survey, should be less than the compliance level in each frequency range b. Interference may occur in the vicinity of equipment marked with the following symbol: Note 1 At 80 MHz and 800 MHz, the higher frequency range applies. Note 2 These guidelines may not apply in all situations. Electromagnetic propagation is affected by absorption and reflection from structures, objects and people. Version 2 www.lidco.com 104 MOCA203 V2 User’s Manual Guidelines and manufacturer's declaration – electromagnetic immunity The LiDCOrapid is intended for use in an electromagnetic environment as specified below. The customer or operator of the LiDCOrapid is to ensure that it is used in such an environment. Immunity test IEC 60601 test level a Field strengths from fixed transmitters, such as base stations for radio (cellular/cordless) telephones and land mobile radios, amateur radio, AM and FM radio broadcast and TV broadcast cannot be predicted theoretically with accuracy. To assess the electromagnetic environment due to fixed RF transmitters, an electromagnetic site survey should be considered. If the measured field strength in the location in which the LiDCOrapid is used exceeds the applicable RF compliance level above, the LiDCOrapid should be observed to verify normal operation. If abnormal performance is observed, additional measures may be necessary, such as reorienting or relocating the LiDCOrapid. b Above the frequency range 150 kHz to 80 MHz, field strengths should be less than 1 V/m. 105 Level of compliance www.lidco.com Electromagnetic environment - guidelines Version 2 MOCA203 V2 User’s Manual Recommended separation distance between portable and mobile RF-communication devices and the LiDCOrapid The LiDCOrapid is intended for use in an electromagnetic environment with controlled RF disturbances. The customer or operator of the LiDCOrapid can avoid electromagnetic disturbances by complying with the minimum distance between portable or mobile RF-communication equipment (transmitter) and LiDCOrapid, depending on the power output of the communication equipment as specified below. Rated power output of the transmitter W Separation distance depending on the transmitting frequency m 150 kHz to 80 MHz 80 MHz to 800 MHz 800 MHz to 2.5 GHz 0.01 0.12 0.12 0.23 0.1 0.37 0.37 0.74 1 1.17 1.17 2.33 10 3.69 3.69 7.38 100 11.67 11.67 23.33 For transmitters whose maximum rated power output values are not listed in the above list, the minimum distance can be calculated depending on the transmitting frequency and rated power output by means of the respective formula, whereas the maximum rated power output is P in watts (W) according to the specification of the manufacturer. Note 1 At 80 MHz and 800 MHz, the higher frequency range applies. Note 2 These guidelines may not apply in all situations. Electromagnetic propagation is affected by absorption and reflection from structures, objects and people. Version 2 www.lidco.com 106 MOCA203 V2 User’s Manual 9.11 Standards IEC 60601-1 Ed. 3.0 : 2005 Medical electrical equipment – Part 1: General requirements for basic safety and essential performance – IEC 60601-1-30: 2000 (Non-invasive BP monitoring equipment) – IEC 60601-2-26: 2012 (ElectroEncephaloGraphs) 9.12 Monitor Connectors Layout POC-125/127 Bottom view of monitor DTP-1201 Bottom view of monitor 1 2 Rear view of monitor 2 1 6 3 2 1 6 4 5 4 7 6 3 6 7 4 7 6 5 1. DC power cable input 4 5 2. On/off switch 3. BP signal input to ADC card 4. RS-232 5. VGA 6. USB ports 7. Ethernet 3 1. AC power cord input 2. On/off switch 3. DC output 4. RS-232 5. VGA 6. USB ports 7. Ethernet 4 Figure 107: a, b, c Connector Layout 107 www.lidco.com Version 2 MOCA203 V2 User’s Manual 9.13 Mounting Details 9.13.1 LiDCOrapid • Pole mount clamp Use 4 off 10-32 x 5/16” FHMS POC-125/127 DTP-1201 Use 4 off M4x12mm Pan Head Machine Screws Use 4 off M4x10mm Pan Head Machine Screws Figure 108: a, b, c Rapid + Pole/Rail Clamp or VES Plate Version 2 www.lidco.com 108 MOCA203 V2 User’s Manual 9.13.2 LiDCOrapid and BP Module POC-125/127 DTP-1201 • Pole/Rail Clamp Use 4 off M4x20mm Pan Head Machine Screws Use 4 off M4x12mm Pan Head Machine Screws VESA Mounting Use 4 off M4x20mm Pan Head Machine Screws Use 4 off M4x16mm Pan Head Machine Screws Figure 109: Rapid + BPM + Pole/Rail Clamp 109 www.lidco.com Version 2 MOCA203 V2 User’s Manual 9.13.3 LiDCOrapid and the CNAP Module Mounting Options POC-125/127 DTP-1201 Mounting Bracket to CNAP Module to Finger Cuff Bracket Mounting Bracket to CNAP Module to Finger Cuff Bracket 6-off M4x10mm, countersunk 6 off M4x10mm countersunk 2-off M4x10mm, countersunk 2 off M4x10mm PHMS Figure: 110: a, b CNAP Module bracket with and without BPM Version 2 www.lidco.com 2 off M4x12mm PHMS 110 MOCA203 V2 User’s Manual POC-125/127 DTP-1201 • Pole/Rail Clamp Use 4 off M4x25mm Pan Head Machine Screws Use 4 off M4x16mm Pan Head Machine Screws • VESA Mounting Use 4 off M4x25mm Pan Head Machine Screws Use 4 off M4x16mm Pan Head Machine Screws Figure 109: Rapid + BPM + Pole/Rail Clamp 111 www.lidco.com Version 2 MOCA203 V2 User’s Manual Cable Connection Diagram Warning: Connect only LiDCO supplied cables between the CNAP, PSU and Monitors 2 POC-125/127 1 3 1. Li10705, Cable Assembly, LiDCO CNAP, DC Power 2. Li10571, Cable Assembly, USB, A-B, 200mm 3. DC input to CNAP from POC-125 PSU PCM80PS24, PSU for POC-125 DTP-1201 1 2 3 4 1. Li10705, Cable Assembly, LiDCO CNAP, DC Power 2. Li10571, Cable Assembly, USB, A-B, 200mm 3. Li10739, Cable Assembly, USB, A-B, 300mm 4. AC power input to DTP-1201 Figure 112: Cable Connection Version 2 www.lidco.com 112 MOCA203 V2 User’s Manual 10.0 References 1. Kemps H, Thijssen E, Schep G, Sleutjes B,De Vries W, Hoogeveen A, Wijn P, Doevendans P. (2008) Evaluation of two methods for continuous cardiac output assessment during exercise in chronic heart failure patients. Journal of Applied Physiology 105: 1822-1829 2. Mills E, Jonas M, Wolff C, O’Brien T (2010) PulseCO consistency: variation in calibration factor over 24 and 48 hours. Poster presentation ISICEM, Brussels. Critical Care 14(1), p101 3. Jonas M, Mills E, Wolff C, O’Brien T (2010) Effect of cardiac arrhythmias on PulseCO calibration and performance. Poster presentation ISICEM, Brussels. Critical Care 14(1), p102 4. Green D, Paklet L (2010) Latest developments in perioperative monitoring of the high-risk major surgery patient. International Journal of Surgery 8 90-99 5. Abdel-Galil K, Craske D, McCaul J (2010) Optimisation of intraoperative haemodynamics: early experience of its use in major head and neck surgery. Brit Journal of Oral and Maxillofacial Surgery 48 (3) 189-191 6. Purushothaman B, O’Brien T, Green D (2010) The Hemodynamic Effects of Anaesthetic Induction and Their Correlation with Changes in Depth of Anaesthesia. Proceedings of the 2010 Annual Meeting of the ASA 7. Koff M, Richard K, Novak M, Canneson M, Dodds T (2010) Elevated PPV Predict an increased Length of Stay and Morbidity during High Risk Abdominal Surgery. Proceedings of the 2010 Annual Meeting of the ASA 8. Hadian M, Severyn D, Pinsky M (2010) The effects of vasoactive drugs on pulse pressure and stroke volume variation in postoperative ventilated patients. Critical Care In press 9. Linton N, Linton R (2003) Haemodynamic response to a small intravenous bolus injection of epinephrine in cardiac surgical patients. European Journal of Anaesthesiology 20: 298-304 10. Dyer RA, Piercy JL, Reed AR, Lombard CJ, Schoeman LK, James MF (2008) Hemodynamic changes associated with spinal anesthesia for cesarean delivery in preeclampsia. Anesthesiology Vol. 108, No. 5, 802 – 811 113 11. Jonas M, Fennell J, Brudney CS. (2008). Haemodynamic optimsation of the surgical patient revisited. Anaesthesia International, Spring 2008 Vol 2 No1 12. Archer T, Knape K, Liles D, Wheeler A, Carter B. (2008). The hemodynamics of oxytocin and other vasoactive agents during neuraxial anesthesia for cesarean delivery: findings in six cases. Int. J. Obstetric Anesthesia Vol. 17:3, 247-254. 13. Kim H, Hadian M, Severyn D, Pinsky M (2009). Crosscomparison of the trending accuracy of continuous cardiac output measurement devices in postoperation patients. Poster presentation ISICEM, Brussels. Critical Care, 13(Suppl 1):P209doi:10.1186/cc7373 14. Dyer R, Reed A, van Dyk D, Arcache M, Hodges O, Lombard C, Greenwood J, James M (2009) Hemodynamic Effects of Ephedrine, Phenylephrine, and the Coadministration of Phenylephrine with Oxytocin during Spinal Anesthesia for Elective Cesarean Delivery. Anesthesiology 111:753-65 15. Cecconi M, Monti G, Dawson D, Vamadan S, Hamilton M, Della Rocca G, Grounds RM, Rhodes A (2009) Dynamic Indices by PulseCO in post surgical intensive care patients. Proceedings of the 2009 Annual Meeting of the ESICM 16. P Brass, E Mills. J Latza, J Peters, E Berendes. LiDCOrapid and PICCOplus preload response parameter validation study. 2011 doi:10.1186/cc9481 17. P Brass, E Mills. J Latza, J Peters, E Berendes. Comparison of cardiac index: LiDCOrapid and PICCOplus in the ICU. 2011 doi:10.1186/cc9482 18. P2.64 P D Santis, C Marano, F Cavallor, A Della’Anna, P DE Santis, C Bonarrigo, C Falcone, C Sandroni. Prediction of fluid responsiveness with the LiDCO System. Journal List, 2011 doi:10.1186/cc9484 19. C Willars, A Dada, D Green, Functional haemodynamic monitoring the relative merits of SVV, SPV and PPV as measured by the LiDCOrapid in predicting fluid responsiveness in high-risk surgical patients. Poster presentation, 2011 doi:10.1186/cc9486 www.lidco.com Version 2 V2 MOCA203 User’s Manual Level of Conciousness BISTM Publications B1: Gan T, Glass P, Windsor A, Payne F, Rosow C, Sebel P, Manberg P. Bispectral index monitoring allows faster emergence and improved recovery from propofol, alfentanil, and nitrous oxide anesthesia. BIS Utility Study Group. (1997) Anesthesiology, 87(4):808815. B2. Myles P, Leslie K, McNeil J, Forbes A, Chan M. Bispectral index monitoring to prevent awareness during anaesthesia: the B-Aware randomised controlled trial. (2004) Lancet. 363(9423):1757-1763. B3. Ekman A, Lindholm M-L, Lennmarken C, Sandin R. Reduction in the incidence of awareness using BIS monitoring. (2004) Acta Anaesthesiol Scand. 48(1):20-26. B4. Song D, Joshi G, White P. Titration of volatile anesthestics using bispectral index facilities recovery after ambulatory anesthesia. (1997) Anesthesiology, 87(4):842-848. B5. Luginbühl M, Wüthrich S, Petersen-Felix S, Zbinden AM, Schnider TW. Different benefit of bispectal index (BIS) in desflurane and propofol anesthesia. Acta Anaesthesiol Scand. 2003;47(2):165-173. B6. Depth of anaesthesia monitors – Bispectral Index (BIS), E-Entropy and Narcotrend-Compact M. Issued: November 2012. NICE diagnostics guidance #6 Version 2 www.lidco.com 114 V2 MOCA203 User’s Manual 115 www.lidco.com Version 2 V2 MOCA203 User’s Manual, LiDCOrapid, V2.05, English Li10788/6 www.redgraphic.co.uk 3616 User’s Manual Registered Office, Sales, R&D and Production LiDCO Limited 16 Orsman Road, London, N1 5QJ, UK Telephone: +44 (0) 20 7749 1500 Fax: +44 (0) 20 7749 1501 Marketing LiDCO Limited Unit M, South Cambridge Business Park, Babraham Road, Sawston, Cambridge, CB22 3JH, UK For your local Distributor see www.lidco.com HM 81-02 UM-044 Version 2 www.lidco.com
