Lesson 1Start-up procedure for a new patient: attaching leads/sensors, setting alarm limits, patient ID and demographicsThis section outlines the proper start-up process for a new patient, covering attachment of ECG, SpO2, NIBP, and temperature sensors, input of patient ID and details, configuration of alarm limits and profiles, and verification of stable readings prior to clinical monitoring.
Selecting the correct patient profileAttaching ECG, SpO2, NIBP, and temp sensorsEntering patient ID and demographicsSetting and confirming alarm limitsVerifying signal quality before monitoringHandover communication with clinical staffLesson 2Common faults and troubleshooting: monitor shutdowns, battery failures, display/firmware issues and basic corrective stepsThis section deals with common monitor problems like sudden shutdowns, battery issues, display or keypad faults, and firmware glitches, offering structured troubleshooting methods, safe user fixes, and guidelines for referring to biomedical engineering support.
Monitor will not power on or rebootsBattery not charging or short runtimeDisplay, touchscreen, and keypad faultsECG, SpO2, or NIBP channel failuresFirmware freezes, errors, and updatesEscalation to biomedical engineeringLesson 3Preventive checks and functional tests: battery capacity test, NIBP cuff leak test, SpO2 sensor performance check, ECG lead impedance checkThis section describes regular functional tests to ensure monitor readiness, including battery capacity evaluation, NIBP cuff leak and pressure checks, SpO2 sensor performance assessments, and ECG lead impedance tests using integrated or external tools.
Battery runtime and capacity test methodsNIBP cuff leak and valve function checksSpO2 sensor accuracy and response testsECG lead impedance and continuity checksUsing internal self-tests and service menusRecording and interpreting test resultsLesson 4Clinical roles and typical measurement parameters (ECG/HR, SpO2, NIBP, RESP, temperature)This section examines the clinical applications of multiparameter monitors and details common parameters like ECG, heart rate, SpO2, NIBP, respiratory rate, and temperature, covering normal values, clinical relevance, and limitations of each monitoring channel.
Overview of multiparameter monitor functionsECG and heart rate: uses and limitationsSpO2 and pulse rate interpretationNIBP measurement cycles and artifactsRespiratory rate and apnea detectionCore and skin temperature monitoringLesson 5Pre-use preparation: power, battery check, lead/patient cable inspection, sensor calibration verificationThis section explains preparation steps before patient connection, including power and battery verification, visual checks of leads and cables, confirmation of sensor calibration status, and ensuring accessories suit the clinical needs.
Verifying mains power and battery statusInspecting leads, cables, and connectorsConfirming correct sensors and accessoriesChecking calibration labels and due datesConfiguring default profiles and layoutsDocumenting pre-use safety checksLesson 6Alarm management: alarm priorities, escalation workflows, adjusting limits safelyThis section covers safe handling of alarms, including priority levels, setting limits and delays, escalation procedures, ways to minimise alarm fatigue, and ensuring alarms stay suitable for the patient's condition.
Alarm priority levels and meaningsSetting patient-specific alarm limitsAdjusting alarm volumes and delaysAlarm escalation and response workflowsStrategies to reduce alarm fatigueTesting alarms after configurationLesson 7Daily and weekly maintenance: cleaning disinfection protocols, visual inspection, cable and connector checks, sensor functional testsThis section addresses daily and weekly upkeep tasks, such as cleaning and disinfecting casings and sensors, visual damage checks, cable and connector inspections, and quick functional tests to spot early issues and maintain reliability.
Approved cleaning and disinfection agentsCleaning housings, screens, and sensorsDaily visual inspection for damageCable, connector, and strain relief checksQuick functional checks of key channelsWeekly review of accessories and sparesLesson 8Signal artefact troubleshooting: removing motion, poor contact, grounding and electrical interference checksThis section focuses on identifying and fixing motion artefacts, poor electrode or sensor contact, grounding problems, and electrical interference through waveform analysis, lead repositioning, and systematic checks to restore clear monitoring signals.
Identifying motion artefacts on ECG and SpO2Correcting poor electrode and sensor contactChecking patient grounding and equipotential linksTracing mains and RF interference sourcesUsing monitor filters and notch settingsWhen to replace cables, leads, or sensorsLesson 9Documentation and reporting: logging preventive maintenance, incident reports, calibration records, device history trackingThis section outlines documentation for maintenance and incidents, including logging preventive upkeep, recording faults and fixes, managing calibration certificates, and keeping device history records for safety, audits, and compliance purposes.
Preventive maintenance log requirementsIncident and near-miss report contentRecording repairs and part replacementsManaging calibration records and labelsBuilding a device history fileUsing CMMS or digital tracking tools
