Atrial Evoked Response Integral for Automatic Capture Verification in Atrial Pacing

BORIANI, G., et al.: Atrial Evoked Response Integral for Automatic Capture Verification in Atrial Pacing. Beat‐by‐beat Autocapture is currently limited to operation in the ventricle with bipolar leads. The authors investigated the integral of the negative‐going portion of the atrial evoked response...

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Published in:Pacing and clinical electrophysiology 2003-01, Vol.26 (1p2), p.248-252
Main Authors: BORIANI, GIUSEPPE, BIFFI, MAURO, CAMERON, DOUGLAS, DATTERI, SERGIO, SNELL, JEFF, HOLMSTRÖM, NILS, PARK, EULJOON, BORNZIN, GENE A.
Format: Article
Language:English
Subjects:
Aged
Autocapture
automatic output regulation
Cardiac Pacing, Artificial - methods
Electrocardiography
Evoked Potentials
evoked response
Female
Heart Atria
Humans
Male
paced depolarization integral
pacemaker
Pacemaker, Artificial
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Summary:BORIANI, G., et al.: Atrial Evoked Response Integral for Automatic Capture Verification in Atrial Pacing. Beat‐by‐beat Autocapture is currently limited to operation in the ventricle with bipolar leads. The authors investigated the integral of the negative‐going portion of the atrial evoked response integral (AERI) as a potential resource for verification of atrial capture. Intracardiac electrogram signals were collected from 59 patients (ages 67.8 ± 15.1 years) with bipolar, low polarization atrial leads. The signals were collected over a mean period of 6.1 months (minimum 4 days) after lead implantation. St. Jude Medical Affinity pulse generators were used to perform automatic capture threshold tests while the electrogram signals were recorded by a Model 3510 programming device. These signals were transferred to a personal computer in digital form for later analysis. The AERI was calculated at each programmable pacing voltage until capture was lost. The difference between the polarization integral at loss of capture and evoked response integral with successful capture was sufficient to justify enabling the atrial Autocapture feature in 53 of 59 patients in whom bipolar pacing and unipolar sensing was performed. The authors developed a calibration routine to identify automatically those patients in whom atrial Autocapture could be programmed On, based on the polarization integral at loss of capture, the estimated maximum polarization integral, and the AERI. Preliminary analysis indicated that the AERI is a practical resource for beat‐by‐beat atrial capture detection when used with low polarization leads. (PACE 2003; 26[Pt. II]:248–252)
ISSN:0147-8389
1540-8159
DOI:10.1046/j.1460-9592.2003.00026.x