R.S. MacDonald scite author profile

The electrical interaction between the heart and an artificial pacemaker is often complex. Because of the sophistication and diversity of dual-chamber device algorithms, even experienced cardiologists can have difficulty interpreting paced electrocardiograms (ECG's). In order to study heart-pacemaker interaction (HPI), a computer model of the cardiac conduction system has been developed which includes the effects of artificial pacemaker function and failure. The stochastic network model of cardiac conduction consists of five vertices, each representing a functional electrophysiologic element. Electrophysiologic multidimensional conditional probability functions determine the depolarization status of each vertex. The atrioventricular (AV) node is emulated using a mathematical model which includes the influence of past cycle lengths on AV nodal conduction time. Twenty-three classes of arrhythmias may be simulated and, for pacing simulation, one of 12 antibradycardia pacing modes may be chosen. Random effects of pacemaker malfunction including oversensing, undersensing, or failure-to-capture may be simulated through the use of probability distribution functions. This model should prove useful in the development of pacemaker algorithms, determining patient-specific pacemaker therapy, and predicting causes for apparent pacemaker malfunction. The model has been used in the development of an expert system to analyze paced ECG's for pacemaker function and malfunction.

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Arrhythmia diagnosis using morphology and timing from atrial and ventricular leads

Lin¹,

Jenkins²,

DiCarlo³

et al.

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Real-time computer acquisition, analysis, and display of electrophysiology studies

Greenhut

MacDonald

Jenkins

et al.

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Computer simulation of heart-pacemaker interaction

Greenhut

MacDonald

Jenkins

1990

Journal of Electrocardiology

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R.S. MacDonald

A software trigger for intracardiac waveform detection with automatic threshold adjustment

A stochastic network model of the interaction between cardiac rhythm and artificial pacemaker

Arrhythmia diagnosis using morphology and timing from atrial and ventricular leads

Real-time computer acquisition, analysis, and display of electrophysiology studies

Computer simulation of heart-pacemaker interaction

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