An Algorithm for Automatic Measurement of Stimulation Thresholds: Clinical Performance and Preliminary Results

• Published in: Pacing and clinical electrophysiology Vol. 21; no. 5; pp. 1058 - 1068
• Main Authors: DANILOVIC, DEJAN, OHM, OLE-JØRGEN, STROEBEL, JOHN, BREIVIK, KJELL, HOFF, PER IVAR, MARKOWITZ, TOBY
• Format: Journal Article
• Language: English
• Published: Oxford, UK Blackwell Publishing Ltd 01.05.1998
• Subjects: Adult; Aged; Algorithms; Atrioventricular Node - physiology; automatic threshold measurement; Bradycardia - therapy; Cardiac Pacing, Artificial - methods; Electrodes; Equipment Design; Evaluation Studies as Topic; Female; Heart Arrest - therapy; Heart Block - therapy; Humans; lead maturation patterns; Male; Microcomputers; Middle Aged; Pacemaker, Artificial; steroid-eluting leads
• ISSN: 0147-8389; 1540-8159
• DOI: 10.1111/j.1540-8159.1998.tb00151.x

We have developed an algorithmic method for automatic determination of stimulation thresholds in both cardiac chambers in patients with intact atrioventricular (AV) conduction. The algorithm utilizes ventricular sensing, may be used with any type of pacing leads, and may be downloaded via telemetry links into already implanted dual‐chamber Thera® pacemakers. Thresholds are determined with 0.5 V amplitude and 0.06 ms pulse‐width resolution in unipolar, bipolar, or both lead configurations, with a programmable sampling interval from 2 minutes to 48 hours. Measured values are stored in the pacemaker memory for later retrieval and do not influence permanent output settings. The algorithm was intended to gather information on continuous behavior of stimulation thresholds, which is important in the formation of strategies for programming pacemaker outputs. Clinical performance of the algorithm was evaluated in eight patients who received bipolar tined steroid‐eluting leads and were observed for a mean of 5.1 months. Patient safety was not compromised by the algorithm, except for the possibility of pacing during the physiologic refractory period. Methods for discrimination of incorrect data points were developed and incorrect values were discarded. Fine resolution threshold measurements collected during this study indicated that: (1) there were great differences in magnitude of threshold peaking in different patients; (2) the initial intensive threshold peaking was usually followed by another less intensive but longer‐lasting wave of threshold peaking; (3) the pattern of tissue reaction in the atrium appeared different from that in the ventricle; and (4) threshold peaking in the bipolar lead configuration was greater than in the unipolar configuration. The algorithm proved to be useful in studying ambulatory thresholds.