Dispersion of refractoriness in canine ventricular myocardium. Effects of sympathetic stimulation

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Circulation Research. 1991;68:1204-1215

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ARTICLES

Dispersion of refractoriness in canine ventricular myocardium. Effects of sympathetic stimulation

T Opthof, AR Misier, R Coronel, JT Vermeulen, HJ Verberne, RG Frank, AC Moulijn, FJ van Capelle and MJ Janse
Department of Clinical and Experimental Cardiology, University of Amsterdam, The Netherlands.

In 18 dogs on total cardiopulmonary bypass, the average interval between local activations during artificially induced ventricular fibrillation (VF interval) was measured from extracellular electrograms, simultaneously recorded from up to 32 ventricular sites. VF intervals were used as an index of local refractoriness, based on the assumption that during ventricular fibrillation, cells are reexcited as soon as they have recovered their excitability. In support of this, microelectrode recordings in two hearts during ventricular fibrillation did not show a diastolic interval between successive action potentials. Refractory periods determined at a basic cycle length of 300 msec with the extrastimulus method correlated well with VF intervals measured at the same sites. Thus, this technique allows assessment of spatial dispersion of refractoriness during brief interventions such as sympathetic stimulation. The responses to left, right, and combined stellate ganglion stimulation varied substantially among individual hearts. This was observed both in dogs with an intact (n = 12) and decentralized (n = 6) autonomic nervous system. Individual ventricular sites could show effects of both left and right stellate ganglion stimulation (42% of tested sites) or show effects of left- sided stimulation only (31%) or right-sided stimulation only (14%). In 13% of sites, no effects of stellate stimulation were observed. Apart from these regional effects, the responses could be qualitatively different; that is, within the same heart, the VF interval prolonged at one site but shortened at another in response to the same intervention, although shortening was the general effect and prolongation the exception. Whenever sites responded to stellate ganglion stimulation with a shortening of VF interval, this shortening was approximately 10% for left, right, or combined stimulation, whether the autonomic nervous system was intact or decentralized. In six of 12 hearts in the intact group, there was a distinct regional effect of left stellate ganglion stimulation; in the other six hearts, the effects were distributed homogeneously over the ventricles. In three hearts, the effect of left stellate ganglion stimulation was strongest in the posterior wall, and in the other three hearts, in the anterior wall. The effects of right stellate ganglion stimulation were restricted to the anterior or lateral part of the left ventricle. Dispersion of VF intervals increased after left and combined stellate ganglion stimulation in the intact group and after right stellate ganglion stimulation in the decentralized group, but not significantly in every heart. This points to a marked individual variation with regard to the effects of sympathetic stimulation on electrophysiological properties of the heart.

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				R. Mantravadi, B. Gabris, T. Liu, B.-R. Choi, W. C. de Groat, G. A. Ng, and G. Salama Autonomic Nerve Stimulation Reverses Ventricular Repolarization Sequence in Rabbit Hearts Circ. Res., April 13, 2007; 100(7): e72 - e80. [Abstract] [Full Text] [PDF]

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				A. W.C. Chow, O. R. Segal, D. W. Davies, and N. S. Peters Mechanism of Pacing-Induced Ventricular Fibrillation in the Infarcted Human Heart Circulation, September 28, 2004; 110(13): 1725 - 1730. [Abstract] [Full Text] [PDF]

				T. Taneja, G. Horvath, D. K. Racker, D. Johnson, J. Goldberger, and A. Kadish Is there a correlation between ventricular fibrillation cycle length and electrophysiological and anatomic properties of the canine left ventricle? Am J Physiol Heart Circ Physiol, August 1, 2004; 287(2): H823 - H832. [Abstract] [Full Text] [PDF]

				J. Huang, J. M. Rogers, C. R. Killingsworth, K. P. Singh, W. M. Smith, and R. E. Ideker Evolution of activation patterns during long-duration ventricular fibrillation in dogs Am J Physiol Heart Circ Physiol, March 1, 2004; 286(3): H1193 - H1200. [Abstract] [Full Text] [PDF]

				R. R. Makkar, M. Lill, and P.-S. Chen Stem cell therapy for myocardial repair: Is it arrhythmogenic? J. Am. Coll. Cardiol., December 17, 2003; 42(12): 2070 - 2072. [Full Text] [PDF]

				A. V. Zaitsev, P. K. Guha, F. Sarmast, A. Kolli, O. Berenfeld, A. M. Pertsov, J. R. de Groot, R. Coronel, and J. Jalife Wavebreak Formation During Ventricular Fibrillation in the Isolated, Regionally Ischemic Pig Heart Circ. Res., March 21, 2003; 92(5): 546 - 553. [Abstract] [Full Text] [PDF]

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				J. Huang, J. L. Skinner, J. M. Rogers, W. M. Smith, W. L. Holman, and R. E. Ideker The effects of acute and chronic amiodarone on activation patterns and defibrillation threshold during ventricular fibrillation in dogs J. Am. Coll. Cardiol., July 17, 2002; 40(2): 375 - 383. [Abstract] [Full Text] [PDF]

				A. Shimizu and O. A. Centurion Electrophysiological properties of the human atrium in atrial fibrillation Cardiovasc Res, May 1, 2002; 54(2): 302 - 314. [Abstract] [Full Text] [PDF]

				R. Coronel, F. J. G. Wilms-Schopman, and J. R. deGroot Origin of ischemia-induced phase 1b ventricular arrhythmias in pig hearts J. Am. Coll. Cardiol., January 2, 2002; 39(1): 166 - 176. [Abstract] [Full Text] [PDF]

				A. D. Demir, K. Senen, Y. Balbay, M. Soylu, H. Tikiz, and S. Korkmaz Effects of Atrial Pacing on QT Dispersion in Patients with Coronary Artery Disease Without Angina Pectoris and ST Segment Depression Angiology, June 1, 2001; 52(6): 393 - 398. [Abstract] [PDF]

				H. Ramanna, A. Elvan, F. H. M. Wittkampf, J. M. T. de Bakker, R. N. W. Hauer, and E. O. Robles de Medina Increased dispersion and shortened refractoriness caused by verapamil in chronic atrial fibrillation J. Am. Coll. Cardiol., April 1, 2001; 37(5): 1403 - 1407. [Abstract] [Full Text] [PDF]

				F. L Burton and S. M Cobbe Dispersion of ventricular repolarization and refractory period Cardiovasc Res, April 1, 2001; 50(1): 10 - 23. [Full Text] [PDF]

				E. G. Zouridakis, F. I. Parthenakis, G. E. Kochiadakis, E. M. Kanoupakis, and P. E. Vardas QT dispersion in patients with mitral valve prolapse is related to the echocardiographic degree of the prolapse and mitral leaflet thickness Europace, January 1, 2001; 3(4): 292 - 298. [Abstract] [PDF]

				M. Zabel, M. R. Franz, T. Klingenheben, B. Mansion, H.-P. Schultheiss, and S. H. Hohnloser Rate-dependence of QT dispersion and the QT interval: comparison of atrial pacing and exercise testing J. Am. Coll. Cardiol., November 1, 2000; 36(5): 1654 - 1658. [Abstract] [Full Text] [PDF]

				A.J. Camm, M.J. Janse, D.M. Roden, M.R. Rosen, J. Cinca, and S.M. Cobbe Congenital and acquired long QT syndrome Eur. Heart J., August 1, 2000; 21(15): 1232 - 1237. [PDF]

				A. Patwardhan, S. Moghe, K. Wang, and F. Leonelli Frequency modulation within electrocardiograms during ventricular fibrillation Am J Physiol Heart Circ Physiol, August 1, 2000; 279(2): H825 - H835. [Abstract] [Full Text] [PDF]

				T. Opthof and M. B Rook The hibernators heart: Nature's response to arrhythmogenesis? Cardiovasc Res, July 1, 2000; 47(1): 6 - 8. [Full Text] [PDF]

				J.-M. Cao, M. C. Fishbein, J. B. Han, W. W. Lai, A. C. Lai, T.-J. Wu, L. Czer, P. L. Wolf, T. A. Denton, I. P. Shintaku, et al. Relationship Between Regional Cardiac Hyperinnervation and Ventricular Arrhythmia Circulation, April 25, 2000; 101(16): 1960 - 1969. [Abstract] [Full Text] [PDF]

				H. Ramanna, R. N. W. Hauer, F. H. M. Wittkampf, J. M. T. de Bakker, E. F. D. Wever, A. Elvan, and E. O. Robles de Medina Identification of the Substrate of Atrial Vulnerability in Patients With Idiopathic Atrial Fibrillation Circulation, March 7, 2000; 101(9): 995 - 1001. [Abstract] [Full Text] [PDF]

				K. Yoshioka, D.-W. Gao, M. Chin, C. Stillson, E. Penades, M. Lesh, W. O�Connell, and M. Dae Heterogeneous Sympathetic Innervation Influences Local Myocardial Repolarization in Normally Perfused Rabbit Hearts Circulation, March 7, 2000; 101(9): 1060 - 1066. [Abstract] [Full Text] [PDF]

				A. V. Zaitsev, O. Berenfeld, S. F. Mironov, J. Jalife, and A. M. Pertsov Distribution of Excitation Frequencies on the Epicardial and Endocardial Surfaces of Fibrillating Ventricular Wall of the Sheep Heart Circ. Res., March 3, 2000; 86(4): 408 - 417. [Abstract] [Full Text] [PDF]

				J. E. Olgin, H. J. Sih, S. Hanish, J. V. Jayachandran, J. Wu, Q. H. Zheng, W. Winkle, G. K. Mulholland, D. P. Zipes, and G. Hutchins Heterogeneous Atrial Denervation Creates Substrate for Sustained Atrial Fibrillation Circulation, December 8, 1998; 98(23): 2608 - 2614. [Abstract] [Full Text] [PDF]

				F. L Burton and S. M Cobbe Effect of sustained stretch on dispersion of ventricular fibrillation intervals in normal rabbit hearts Cardiovasc Res, August 1, 1998; 39(2): 351 - 359. [Abstract] [Full Text] [PDF]

				N. Chattipakorn, B. H. KenKnight, J. M. Rogers, R. G. Walker, G. P. Walcott, D. L. Rollins, W. M. Smith, and R. E. Ideker Locally Propagated Activation Immediately After Internal Defibrillation Circulation, April 14, 1998; 97(14): 1401 - 1410. [Abstract] [Full Text] [PDF]

				M. W. Dae, R. J. Lee, P. C. Ursell, M. C. Chin, C. A. Stillson, and N. S. Moise Heterogeneous Sympathetic Innervation in German Shepherd Dogs With Inherited Ventricular Arrhythmia and Sudden Cardiac Death Circulation, August 19, 1997; 96(4): 1337 - 1342. [Abstract] [Full Text]

				R. Coronel, T. Opthof, P. Taggart, J. Tytgat, and M. Veldkamp Differential electrophysiology of repolarisation from clone to clinic Cardiovasc Res, March 1, 1997; 33(3): 503 - 517. [PDF]

				A. P. Winecoff, J. J. Sims, M. L. Markel, and M. R. Ujhelyi Pinacidil's Effects on Defibrillation Outcomes: Role of Increased Potassium Conductance Via the KATP Channel Journal of Cardiovascular Pharmacology and Therapeutics, January 1, 1997; 2(3): 171 - 180. [Abstract] [PDF]