6 ECG, Arrhythmia, and ST Monitoring

Switching Arrhythmia Analysis On and Off

Switching Arrhythmia Analysis On and Off

1In the Setup Arrhythmia menu, select Arrhythmia to toggle between On and Off.

2Select the Confirm pop-up key which appears at the bottom of the screen.

Be aware that when arrhythmia analysis is switched off,

the message Arrythmia OFF appears beside the ECG wave, if configured to do so

only the HR-related alarms are detected (the asystole alarm, the ventricular fibrillation/ventricular tachycardia alarm, the extreme tachycardia/extreme bradycardia alarms, the high heart rate/ low heart rate alarms)

HR High and HR Low alarms behave like normal yellow alarms, no timeout periods are active.

Choosing an ECG Lead for Arrhythmia Monitoring

It is important to select a suitable lead for arrhythmia monitoring.

Guidelines for non-paced patients are:

QRS should be tall and narrow (recommended amplitude > 0.5 mV)

R-Wave should be above or below the baseline (but not bi-phasic)

T-wave should be smaller than 1/3 R-wave height

the P-wave should be smaller than 1/5 R-wave height.

For paced patients, in addition to the above, the pace pulse should be:

not wider than the normal QRS

the QRS complexes should be at least twice the height of pace pulses

large enough to be detected, with no re-polarization.

To prevent detection of P-waves or baseline noises as QRS complexes, the minimum detection level for QRS complexes is set at 0.15 mV, according to AAMI-EC 13 specifications. Adjusting the ECG wave size on the monitor display (gain adjustment) does not affect the ECG signal which is used for arrhythmia analysis. If the ECG signal is too small, you may get false alarms for pause or asystole.

Aberrantly-Conducted Beats

As P-waves are not analyzed, it is difficult and sometimes impossible for the monitor to distinguish between an aberrantly-conducted supraventricular beat and a ventricular beat. If the aberrant beat resembles a ventricular beat, it is classified as ventricular. You should always select a lead where the aberrantly-conducted beats have an R-wave that is as narrow as possible to minimize incorrect calls.

Ventricular beats should look different from these ‘normal beats’. Instead of trying to select two leads with a narrow R-wave, it may be easier to just select one lead and use single lead arrhythmia monitoring. Extra vigilance is required by the clinician for this type of patient.

Atrial Fibrillation and Flutter

Since P-waves are not analyzed, it is not possible to discriminate atrial rhythms. If there is constant variance in the R-R interval, the rhythm is classified as Irregular. It is extremely important for accurate analysis of the rhythm to have p-waves with an amplitude of less than 1/5 the height of the R-wave or < 0.15 mV. If the p-waves are larger than this, they may be counted as QRS complexes.

108

Page 127 Page 129
Page 128
Image 128
Philips MP40/50, MP60/70/80/90 Switching Arrhythmia Analysis On and Off, Choosing an ECG Lead for Arrhythmia Monitoring
Page 127 Page 129

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.
Top Page Image Contents