display settings 24

disposal

gas cylinder 307

parts and accessories 307

documenting events 251

dosemeter (drug calculator) 279

dPmax 162

drip table (drug calculator) 280

drug calculator 277

DSC (BIS)

software revision 221 dual SpO2 141

dual Temp measurement 150

dyshemoglobins intravascular (SpO2) 139

E

early systolic blood pressure, NBP 146

EASI activating 96

ECG monitoring 102 lead placement 102

EASI ECG lead labels 97 ECG 91

accessories 309

alarms off (Config Mode) 105 changing lead sets 96 choosing electrode sites 96 conventional 12-lead 100 external pacing electrodes 106 filter settings 95

fusion beat pacemakers 106 intrinsic rhythm 106 modified 12-lead 100 New Lead Setup 96 pacemaker failure 106

rate adaptive pacemakers 106 unfiltered 96

wave size 94

ECG analog (sync) output 330, 332, 333 ECG analog output 329

ECG cable

for operating room 106 ECG cables, connecting 91

ECG connector 91

ECG display 93

ECG electrode colors 97

ECG electrode placement during electrosurgery 106

ECG gain

in recordings 261 in reports 268

ECG lead labels 97

ECG lead placement

choosing EASI/Standard 96

ECG leads monitored 96

ECG output 345

ECG report 276 lead layout 268

ECG safety information 105

ECG wave autosize 94 calibration bar 94

ectopic status messages (arrhythmia monitoring) 111

editing C.O. measurements (PiCCO method) 166

editing C.O. measurements (RH method) C.O.

saving measurements (RH method) 169

EEG accessories 322

monitor configuration and upgrade 214 EEG monitoring 207

buffer time 211

changing filter frequencies 213 changing wave scale 212 changing wave speed 213 choosing electrode montages 209 CSAs 211

electrical interference 214 electrode-to-skin impedance 210 gridlines 212

impedance quality indicators 210 Impedance/Montage Window 208 international 10-20 electrode placement system 209

safety information 214 setting report buffer time 213 setting screen buffer time 212 setup 208

skin preparation 208

switching numerics on and off 212

EEG wave changing scale 220

electrical input symbol 328

electrical interference

during EEG monitoring 214

electrical output symbol 328 electrode montage

EEG 209

electrode placement (ECG) 91 conventional 12-lead 100 modified 12-lead 100

electrode placement (Resp) 131 with abdominal breathing 132 with lateral chest expansion 132

electrode-to-skin impedance (BIS) 219

electrode-to-skin impedance (EEG) 210

electromyographic activity numeric (BIS) 215

electrosurgery and ECG 106

EMC interference Resp 134

EMG numeric (BIS) 215

EMI filter for ECG 95

end case

discharging a patient 79 report, printing 79

end case reports setup 269

enhanced arrhythmia option 104, 107

entering values calculations 236

equipotential ground connector 332

equipotential grounding symbol 328

event annotation 251 combi-events 248

counting oxyCRG/NER events 248 event counter 247

event episode 242

event episode recording 253 event episode types 243 event episode window 250 event post-time 242 event pre-time 242

event retriggering 245 event review recording 252 event review window 249 event summary view 249 event time 242

event triggers 244 event values 251 manual event triggers 246 recording 251

setting up NER 245

event database 247

event episode reports 270 event groups 242

event report 254

event review reports 270 event snapshots 243

event surveillance 241 options 241

events pop-up keys 243

EVLW/EVLWI 162 exclamation mark symbol 328

exhaust gases, removing 179, 182

extension cable for SpO2 138 external devices

alarms and INOPS 283 connecting to VueLink 281

iv

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Philips MP20/30, MP60/70/80/90, MP40/50 manual Dsc Bis
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MP60/70/80/90, MP40/50, MP20/30 specifications

Philips MP20/30, MP40/50, and MP60/70/80/90 are advanced patient monitoring systems designed to enhance clinical workflows and patient care in diverse healthcare settings. These devices combine cutting-edge technologies and user-friendly interfaces, making them essential tools for hospitals and healthcare providers.

The MP20 and MP30 are notable for their compact design, making them ideal for environments where space is limited. They come equipped with a variety of monitoring parameters, including ECG, SpO2, and non-invasive blood pressure, providing a comprehensive overview of patient health. These models are particularly suited for use in general wards or recovery areas, offering reliability and ease of use.

Moving to the MP40 and MP50, these monitors incorporate more advanced functionalities, including multi-gas monitoring, which is vital for anesthetic applications. They feature a robust data storage capacity, allowing for extensive patient history tracking and improved decision-making capabilities. The intuitive touchscreen interfaces facilitate quick access to essential information, enabling healthcare professionals to respond efficiently to changes in a patient's condition.

The MP60, MP70, MP80, and MP90 series represent the pinnacle of Philips' patient monitoring technology. These monitors are equipped with advanced algorithms that enhance the precision of vital sign measurements, including advanced ECG analysis capabilities that assist in detecting arrhythmias. The MP80 and MP90 models further integrate advanced monitoring technologies such as 3D visualization for hemodynamics and deep learning algorithms for early warning systems.

Connectivity is a key feature across the Philips monitoring range, with many models offering seamless integration with hospital information systems and electronic health records. This connectivity ensures that patient data is easily accessible to clinicians, promoting informed decision-making. Moreover, alarm management features are designed to minimize false alarms, significantly improving the staff's response time by focusing on critical alerts.

In summary, Philips MP20/30, MP40/50, MP60/70/80/90 monitors deliver exceptional monitoring capabilities, combining user-friendly design with advanced technology. Their varied features allow them to cater to different clinical needs, enhancing patient care and supporting healthcare professionals in their critical roles. With these monitors, healthcare facilities can achieve a new standard in patient monitoring, ensuring quality and safety in patient management.
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