AIMS: Recommendations for programming the rate-adaptive AV delay in CRT. METHODS AND RESULTS: In cases of continual biventricular pacing, the optimal AV delay in CRT (AVD(opt)) is the net effect of the pacemaker-related interatrial conduction time (IACT), duration of the left-atrial electromechanical action (LA-EAC(long)), and the duration of the left-ventricular latency period (S(V)-EAC(short)). It can be calculated by AVD(opt) = IACT+LA-EAC(long)-S(V)-EAC(short). We measured these three components in 20 CRT-ICD patients during rest and submaximal ergo metric exercise (71 +/- 9 W) resulting in a 22.5 +/- 9.6 bpm rate increase. IACT and S(V)-EAC(short) did not reveal significant differences. LA-EAC(long), however, varied significantly by -10.7 +/- 16.1 ms (P = 0.008) during exercise. In contrast to AVD(optVDD), there was a significant difference in AVD(optDDD) of -8.8 +/- 14.5 ms (P = 0.014) between the resting and submaximal exercise conditions. In DDD pacing, AVD(opt) was shortened by 2.6 ms/10 bpm. CONCLUSION: In consideration of the findings of the studies performed to date, the rate-adaptive AV delay should be deactivated.
AIMS: Recommendations for programming the rate-adaptive AV delay in CRT. METHODS AND RESULTS: In cases of continual biventricular pacing, the optimal AV delay in CRT (AVD(opt)) is the net effect of the pacemaker-related interatrial conduction time (IACT), duration of the left-atrial electromechanical action (LA-EAC(long)), and the duration of the left-ventricular latency period (S(V)-EAC(short)). It can be calculated by AVD(opt) = IACT+LA-EAC(long)-S(V)-EAC(short). We measured these three components in 20 CRT-ICDpatients during rest and submaximal ergo metric exercise (71 +/- 9 W) resulting in a 22.5 +/- 9.6 bpm rate increase. IACT and S(V)-EAC(short) did not reveal significant differences. LA-EAC(long), however, varied significantly by -10.7 +/- 16.1 ms (P = 0.008) during exercise. In contrast to AVD(optVDD), there was a significant difference in AVD(optDDD) of -8.8 +/- 14.5 ms (P = 0.014) between the resting and submaximal exercise conditions. In DDD pacing, AVD(opt) was shortened by 2.6 ms/10 bpm. CONCLUSION: In consideration of the findings of the studies performed to date, the rate-adaptive AV delay should be deactivated.
Authors: Artur Klimczak; Adam S Budzikowski; Marcin Rosiak; Marzenna Zielińska; Bożena Urbanek; Karol Bartczak; Michał Chudzik; Jerzy K Wranicz Journal: Ann Noninvasive Electrocardiol Date: 2014-03-06 Impact factor: 1.468
Authors: M M D Molenaar; B Oude Velthuis; M F Scholten; J Y Stevenhagen; W A Wesselink; J M van Opstal Journal: Neth Heart J Date: 2013-10 Impact factor: 2.380
Authors: Andreas Kyriacou; Christopher A Rajkumar; Punam A Pabari; S M Afzal Sohaib; Keith Willson; Nicholas S Peters; Phang B Lim; Prapa Kanagaratnam; Alun D Hughes; Jamil Mayet; Zachary I Whinnett; Darrel P Francis Journal: Pacing Clin Electrophysiol Date: 2018-06-01 Impact factor: 1.976