Electrophysiological effects of acute dilatation in the isolated rabbit heart: cycle length-dependent effects on ventricular refractoriness and conduction velocity. Export

@article{citeulike:500096, abstract = {BACKGROUND: Acute ventricular dilatation has important electrophysiological effects: Dilatation shortens action potential duration and refractoriness without an apparent effect on conduction velocity. These effects have been implicated as a potential mechanism of arrhythmias in patients with congestive failure. Because the influence of cycle length on these phenomena has not been studied, we examined the effects of dilatation during ventricular pacing at cycle lengths from 1000 to 150 ms. METHODS AND RESULTS: Thin epicardial layers were created in isolated, perfused rabbit left ventricles (n=7). A fluid filled latex balloon was secured in the left ventricle to dilate the left ventricle. Mapping was performed with 248 epicardial electrodes. Longitudinal conduction velocity (76+/-1 cm/s; mean+/-SEM) and transverse conduction velocity (26+/-1 cm/s) were not influenced by dilatation at any cycle length. In contrast, the effects of dilatation in decreasing left ventricular effective refractory period (ERP) were significantly greater at shorter drive cycle lengths: The decrease in ERP was 2+/-2 ms (a 1\% change) at a drive cycle length of 1000 ms and 18+/-4 ms (a 20\% change) at a drive cycle length of 150 ms. In 10 additional intact, isolated perfused rabbit hearts, dilatation decreased ERP to a greater degree during 250 ms drive cycle length pacing than during pacing at 400 ms (25+/-4 versus 16+/-3 ms; P=.01). CONCLUSIONS: Acute dilatation exaggerates the normal rate-dependent shortening of refractoriness but does not influence transverse or longitudinal conduction velocity. This observation suggests that the electrophysiological effects of acute dilatation may be greater during tachycardia than at slower cycle lengths. This may have implications for arrhythmias in patients with congestive heart failure.}, address = {Department of Physiology, Maastricht University, The Netherlands. Michael.Reiter@UCHSC.edu}, author = {Reiter, M. J. and Landers, M. and Zetelaki, Z. and Kirchhof, C. J. and Allessie, M. A.}, citeulike-article-id = {500096}, citeulike-linkout-0 = {http://circ.ahajournals.org/cgi/content/abstract/96/11/4050}, citeulike-linkout-1 = {http://view.ncbi.nlm.nih.gov/pubmed/9403631}, citeulike-linkout-2 = {http://www.hubmed.org/display.cgi?uids=9403631}, day = {2}, issn = {0009-7322}, journal = {Circulation}, keywords = {erp, increase, pacing}, month = {December}, number = {11}, pages = {4050--4056}, posted-at = {2006-02-09 14:39:10}, priority = {2}, title = {Electrophysiological effects of acute dilatation in the isolated rabbit heart: cycle length-dependent effects on ventricular refractoriness and conduction velocity.}, url = {http://circ.ahajournals.org/cgi/content/abstract/96/11/4050}, volume = {96}, year = {1997} }

TY - JOUR ID - citeulike:500096 L3 - citeulike-article-id:500096 N2 - BACKGROUND: Acute ventricular dilatation has important electrophysiological effects: Dilatation shortens action potential duration and refractoriness without an apparent effect on conduction velocity. These effects have been implicated as a potential mechanism of arrhythmias in patients with congestive failure. Because the influence of cycle length on these phenomena has not been studied, we examined the effects of dilatation during ventricular pacing at cycle lengths from 1000 to 150 ms. METHODS AND RESULTS: Thin epicardial layers were created in isolated, perfused rabbit left ventricles (n=7). A fluid filled latex balloon was secured in the left ventricle to dilate the left ventricle. Mapping was performed with 248 epicardial electrodes. Longitudinal conduction velocity (76+/-1 cm/s; mean+/-SEM) and transverse conduction velocity (26+/-1 cm/s) were not influenced by dilatation at any cycle length. In contrast, the effects of dilatation in decreasing left ventricular effective refractory period (ERP) were significantly greater at shorter drive cycle lengths: The decrease in ERP was 2+/-2 ms (a 1% change) at a drive cycle length of 1000 ms and 18+/-4 ms (a 20% change) at a drive cycle length of 150 ms. In 10 additional intact, isolated perfused rabbit hearts, dilatation decreased ERP to a greater degree during 250 ms drive cycle length pacing than during pacing at 400 ms (25+/-4 versus 16+/-3 ms; P=.01). CONCLUSIONS: Acute dilatation exaggerates the normal rate-dependent shortening of refractoriness but does not influence transverse or longitudinal conduction velocity. This observation suggests that the electrophysiological effects of acute dilatation may be greater during tachycardia than at slower cycle lengths. This may have implications for arrhythmias in patients with congestive heart failure. IS - 11 JF - Circulation SN - 0009-7322 AD - Department of Physiology, Maastricht University, The Netherlands. Michael.Reiter@UCHSC.edu EP - 4056 TI - Electrophysiological effects of acute dilatation in the isolated rabbit heart: cycle length-dependent effects on ventricular refractoriness and conduction velocity. VL - 96 SP - 4050 KW - erp KW - increase KW - pacing AU - Reiter, MJ AU - Landers, M AU - Zetelaki, Z AU - Kirchhof, CJ AU - Allessie, MA PY - 1997/12/02/ UR - http://circ.ahajournals.org/cgi/content/abstract/96/11/4050 ER -