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General| Resolution | 1280 x 1024 pixels |
|---|---|
| Touchscreen | Yes |
| Display Type | TFT LCD |
| Parameters Monitored | ECG, SpO2, Temperature |
| Network Connectivity | Ethernet, Wi-Fi |
| Connectivity | USB, Ethernet |
| Operating Temperature | 10°C to 40°C |
| Storage Temperature | -20°C to 60°C |
Explains how the patient monitor acquires measurements using various devices and how to extend capabilities.
Details how to navigate the monitor's screen, interact with elements, and use keys and touch screen.
Covers how monitor functions and appearance are defined by settings, including categories like screen, measurement, and monitor settings.
Explains how to connect the monitor to an Information Center via a network using various interfaces.
Describes how to run applications on the integrated PC, display data, and manage PC functions.
Explains the system formed when connecting X2 or MP5 modules in companion mode to a host monitor.
Details the visual cues for alarms, including alarm messages, flashing numerics, and alarm lamps.
Explains how audible alarm indicators function, their patterns, and configuration options.
Guides on how to temporarily pause or permanently switch off alarms for patient monitoring needs.
Explains how to set alarm limits to trigger yellow and red limit alarms and how to view them.
Defines how alarm indicators behave when not acknowledged, including visual and audible indications.
Describes how to test visible and audible alarm indicators for correct functionality upon monitor startup.
Lists patient alarms alphabetically, detailing their source, condition, and indication.
Lists technical alarms (INOPs) arranged by source and alphabetically, with troubleshooting steps.
Provides instructions for proper skin preparation to ensure good electrode-to-skin contact for ECG signal quality.
Guides on choosing primary and secondary ECG leads for HR computation and arrhythmia analysis.
Covers essential safety precautions related to ECG monitoring, including defibrillation, electrosurgery, and cable handling.
Explains how arrhythmia analysis provides information on patient condition using ECG leads and continuous monitoring.
Details how to enable or disable arrhythmia analysis and the resulting impact on alarms and messages.
Describes ST segment analysis for elevations and depressions, and its use in monitoring patient condition.
Explains QT/QTc interval monitoring and its role in detecting prolonged QT interval syndrome.
Details the QT and QTc high limit alarms, their generation, and potential causes of invalid measurements.
Explains how to select the pulse rate source for system pulse monitoring, alarms, and trending.
Guides on how to switch individual pulse numerics on or off via the setup menu.
Discusses choosing ECG or Pulse as the active alarm source to avoid simultaneous alarms on HR and Pulse.
Details how to change high and low alarm limits for HR and Pulse, noting shared limits.
Provides guidance on correct patient skin preparation and electrode placement for accurate Resp measurement.
Covers how to change the Resp detection mode between automatic and manual settings.
Provides critical safety warnings regarding respiration detection level, apnea, and interference.
Lists available SpO2 sensors and adapter cables, emphasizing correct selection for patient category and site.
Details the steps for applying the SpO2 sensor, including site preparation and checking emitter/photodetector alignment.
Guides on selecting patient category and ensuring proper application site for accurate SpO2 and pulse measurements.
Explains how to assess suspicious SpO2 readings using signal quality indicators, pleth wave, and perfusion indicator.
Covers SpO2 specific alarms including high/low limit and high priority desat alarms.
Explains the delay between physiological events and alarm indications, with components and configuration options.
Describes the oscillometric method for measuring NBP and its accuracy compared to other techniques.
Details the four modes for NBP measurement: Manual, Auto, Sequence, and STAT.
Guides on connecting the cuff, tubing, and ensuring correct cuff application for accurate NBP measurement.
Explains how to start and stop NBP measurements using the setup menu, SmartKeys, or MMS hardkey.
Details how to set the monitor to Auto mode for automatic measurements and configure the repetition time.
Explains how to monitor alarm conditions in systolic, diastolic, and mean pressure, singly or in parallel.
Guides on selecting the correct probe, connecting it, applying it to the patient, and checking alarm settings.
Explains how to tell the monitor which temperature label to monitor, influencing color and alarm settings.
Describes how the monitor calculates and displays the difference between two temperature values.
Details steps for setting up pressure measurement, including plugging in the cable and flushing the system.
Explains how to select the pressure label, which determines stored settings and the processing algorithm.
Covers the critical procedure for zeroing the transducer to avoid inaccurate pressure readings and ensure safety.
Explains how to compare and set the calibration factor for reusable transducers to ensure accurate measurements.
Details how Pulse Pressure Variation (PPV) is calculated from beat-to-beat arterial pressure values.
Describes how to obtain PAWP values by introducing a balloon-tipped catheter and occluding the pulmonary artery.
Illustrates available hemodynamic parameters, their measurement methods, and display options.
Explains how to open and use the procedure window for carrying out C.O.-related tasks.
Details the PiCCO method, combining thermodilution and pulse contour analysis, for cardiac output measurement.
Guides through the steps of performing PiCCO C.O. measurements, including injection and data display.
Details how to save edited trials and calibrate the monitor for CCO measurement.
Provides critical safety warnings for C.O. and CCO measurements, including catheter constant and IABP precautions.
Explains the infrared transmission principle for measuring CO2 and the parameters provided.
Describes measuring carbon dioxide using mainstream or sidestream methods with M3014A or X2.
Guides on attaching the transducer, reaching operating temperature, and performing sensor zero calibration.
Details steps for connecting the sensor, airway adapter, and zeroing the sensor for sidestream CO2 measurement.
Covers tasks common to all CO2 measurements, including wave scale adjustment and CO2 corrections.
Explains how to configure CO2 specific alarms, including etCO2 High/Low and imCO2 High limits.
Provides guidance on selecting and attaching appropriate flow sensors for different patient categories.
Explains the process of zero calibration to maintain accuracy of spirometry waves and numerics.
Details how to set gas compensation modes (manual or gas analyzer) for accurate flow measurement.
Guides on adjusting inspired O2 and agent concentrations within the spirometry settings.
Explains how to set the transducer temperature for optimal correlation and response time.
Details the site timer function to reduce skin burn risk by limiting transducer use at one site.
Covers the procedure for calibrating the transducer to maintain accuracy, recommending frequency and conditions.
Provides steps to resolve issues encountered during tcGas transducer calibration attempts.
Guides on correct application of the tcGas transducer to the skin for optimal measurement.
Explains how temperature and metabolism corrections adjust transcutaneous CO2 values.
Explains how to select the correct label for catheter/probe location, crucial for oxygen extraction calculations.
Details the recommended pre-insertion calibration for all insertions, or in-vivo calibration if not possible.
Outlines the conditions and procedure for performing an in-vivo calibration of the oxygen saturation measurement.
Describes how the monitor calculates and displays oxygen extraction as the difference between SpO2 and SvO2 values.
Guides on preparing patient skin, selecting montage, and connecting electrodes for EEG monitoring.
Details the five pre-configured electrode montages and how to attach electrodes for EEG signal acquisition.
Explains electrode-to-skin impedance as the primary quality indicator for EEG signal measurement.
Describes CSA as a view of EEG values over time, processed using Fast Fourier Transformation.
Provides critical safety warnings for EEG monitoring, including defibrillation and electrical interference.
Covers setup for BIS monitoring using DSC/BIS Engine or BISx solutions.
Explains the continuous check of signal electrode and ground electrode impedance for optimal BIS values.
Describes the measurement of exact impedance for each electrode and its causes and manual controls.
Details how to open the BIS window to view sensor status and impedance indicators.
Explains how to adjust the smoothing rate to control BIS value averaging for responsiveness or trend stability.
Guides on switching the BIS measurement and individual numerics (SQI, TP, SEF, SR, EMG, Bursts) on or off.
Provides essential safety information for BIS monitoring, including conductive parts, surgery, and impedance checks.
Explains combining monitors and telemetry devices via indirect or direct connections for patient data integration.
Details the process of manually pairing a telemetry device with the monitor at the Information Center or monitor.
Describes possible direct connections for automatic pairing of telemetry devices with monitors via MSL cable.
Explains automatic pairing of X2/MP5 with telemetry interfaces to host monitors and manual pairing options.
Guides on changing settings for a paired telemetry device directly from the monitor.
Explains how the Information Center tracks ECG signal source between monitor and telemetry device.
Details how monitor settings are synchronized with the telemetry device via the Information Center.
Explains how to view trend information embedded on screens or in windows (graphic, tabular, histogram).
Covers setting up trends in Configuration Mode and making temporary changes in Monitoring Mode.
Defines the resolution of trend data, explaining suitability for neonatal vs. adult monitoring.
Explains how to set a priority list for measurements when configuration restricts the number of trended measurements.
Details how parameter scales define trend waveform appearance and can be set for different patient categories.
Explains how to open the Calculations window and select calculation types for display.
Guides on checking input values and performing calculations, including using the Calcs SmartKey.
Details how to enter or edit calculation values manually or use automatically entered values.
Guides on sending calculations recordings to a connected recorder or printing reports.
Explains how to trigger event capture manually or automatically based on patient values or procedures.
Guides on setting event triggers and episode types for NER and Basic Event Surveillance.
Details setting triggers and notification types for Advanced Event Surveillance groups.
Explains how to access the Event Summary, Event Review, and Event Episode windows to view stored events.
Guides on printing reports or making recordings of events history or individual event episodes.
Describes the SSC Sepsis Protocol for screening and monitoring severe sepsis treatment.
Explains how to transfer patient data and settings between monitors for moving patients between phases.
Details the Severe Sepsis Screening phase, comparing patient values to criteria and confirming infection.
Covers the treatment recommendations for sepsis resuscitation and monitoring their implementation.
Presents stabilization recommendations and monitors their implementation after sepsis resuscitation.
Emphasizes the importance of discharging patients when monitoring ends to clear protocol logs and reset timers.
Explains how to perform central recording by connecting the monitor to an Information Center via a network.
Guides on starting and stopping recordings using SmartKeys and pop-up keys.
Details how to create and change recording templates for commonly used recording settings.
Explains the priority hierarchy for manually-started, automatically-started, and alarm recordings.
Lists and explains various recorder status messages and their possible causes and suggested actions.
Guides on starting report printouts by selecting Main Setup, Reports, and then the report name.
Details how to start various types of reports, including Vital Signs, Graphic Trends, and ECG Reports.
Covers setting up Auto Reports that print automatically based on triggers like predefined intervals or patient discharge.
Explains how to check printer settings, including paper size and orientation, defined in Configuration Mode.
Guides on viewing print request status and manually printing reports that are not printed automatically.
Details how to access the Drug Calculator via Main Setup or a SmartKey.
Explains how to perform drug calculations using pre-configured lists or for non-specific drugs.
Describes how to view the Drip Table to monitor infusion progress and remaining time.
Explains how to use the Titration Table to see drug doses at different infusion rates.
Guides on inserting the module, checking the EC5 ID, connecting the device, and confirming communication.
Details how to change the waves and numerics displayed from the IntelliBridge module on the screen.
Explains how the IntelliBridge module transmits external device alarms and generates INOPs.
Warns about language conflicts when connecting modules with different operating languages.
Guides on inserting the module, checking the device selection LED, and connecting/switching on the external device.
Details how to change the waves and numerics from a VueLink module displayed on the screen.
Explains how to switch VueLink measurements on and off via the device interface setting.
Describes how VueLink modules transmit external device alarms and generate INOPs.
Explains how to view active timers in the Timers window or directly on the Main Screen.
Guides on setting up timers, including selecting labels, run time, and counting direction.
Details how to substitute a timer for a numeric on the Main Screen for at-a-glance viewing.
Explains how to view current and stored respiratory loops, and access pop-up keys for further actions.
Guides on capturing current loops for reference and deleting loops from the reference list.
Details how to adjust the display size of loops in the Loops window.
Explains how to change the loop type (Press/Volume, Flow/Volume, Press/Flow) for display.
Guides on printing reports of individual loops or all loops from the Loops window.
Describes how to view received laboratory data, grouped by categories, and how manual entries are marked.
Provides general precautions for keeping equipment clean and free of dust and dirt.
Details the recommended method for cleaning the monitor, screen, and connectors using lint-free cloth and mild soap.
Lists recommended disinfecting agents and emphasizes following hospital policy to avoid product damage.
Refers to accessory instructions for cleaning, disinfecting, and sterilizing reusable transducers, sensors, and cables.
Outlines the visual inspection procedure for the monitor and accessories before each use.
Details inspection of system cables, power plug, Measurement Link cable, and patient cables for damage or loose connections.
Presents a schedule of maintenance tasks and performance tests for qualified service professionals.
Provides guidance on troubleshooting individual measurements and system-wide problems by checking setup logs.
Covers safe and proper disposal of the monitor and accessories according to country laws and recycling guidelines.
Lists ECG/Resp accessories, including trunk cables, and highlights special protection features.
Details NBP accessories, including multi-patient comfort cuffs, disposable cuffs, and reusable cuff kits.
Lists transducers, accessories, sensor kits, and cables for invasive pressure measurements.
Lists accessories for Philips SpO2 technology, including reusable and disposable sensors and adapter cables.
Lists Aspect BIS sensors and other accessories for BIS monitoring, including patient interface cables.
Provides accessory information for the M1011A module, including optical modules and catheters.
Defines the intended use of the monitor for physiological parameter monitoring in healthcare facilities.
Lists the monitor's compliance with Medical Device Directives and various IEC/EN/UL safety standards.
Lists physical specifications such as weight and dimensions for the MX800 monitor and its modules.
Details the operating and storage temperature, humidity, and altitude ranges for the monitor and accessories.
Provides performance specifications for the MX800 monitor, including power, sounds, trends, and events.
Details the specifications for various interfaces, including Network, MIB/RS232, USB, and Wireless Network Adapters.
Lists performance specifications for ECG, Arrhythmia, ST, QT, Respiration, SpO2, NBP, and other measurements.
Documents default settings specific to countries, including line frequency, units, and ECG cable color.
Lists default settings for alarms and measurements, including wave speed and patient category configurations.
Details factory default settings for alarm volume, pausing, reminders, and visual/audible latching.
Provides factory default settings for ECG, arrhythmia, ST, and QT parameters like limits, modes, and filters.
Lists default settings for pulse alarms, including alarm source, limits, and tone settings.
Details factory default settings for respiration parameters like apnea time, detection modes, and alarms.
Covers default settings for SpO2 measurements, including mode, averaging time, alarms, and signal quality.
Lists default settings for NBP measurements, including mode, limits, alarms, and overpressure settings.
Provides default settings for temperature measurements, including limits, alarms, unit, and color.
Details default settings for invasive pressure measurements like limits, alarms, scale, and filter.
Covers default settings for C.O. and CCO measurements, including calibration, limits, and alarms.
Lists default settings for CO2 measurements, including limits, alarms, scale, and corrections.
Provides default settings for spirometry measurements like apnea time, volume, pressure, and gas compensation.
Details default settings for tcGas measurements, including limits, alarms, site timer, and transducer temperature.
Lists default settings for SO2 measurements, including limits, alarms, and light intensity.
Provides default settings for SvO2 measurements, including limits, alarms, and light intensity.
Lists default settings for ScvO2 measurements, including limits, alarms, and light intensity.
Details default settings for EEG measurements, including TP, SEF, impedance, and filters.
Covers default settings for BIS measurements, including SQI, EMG, SR, SEF, and filters.
Lists default settings for VueLink modules, including device alarms and color.
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