Effect of autonomic nervous system on the transmural dispersion of ventricular repolarization in intact canine

Zhang Cuntai; Xu Dawen; Li Yang; Liu Nian; Wang Lin; Lu Zaiying

doi:10.1007/BF02830701

Current Medical Science ›› 2004, Vol. 24 ›› Issue (10) : 37 -40. DOI: 10.1007/BF02830701

Article

Effect of autonomic nervous system on the transmural dispersion of ventricular repolarization in intact canine

Author information +

History +

PDF

Abstract

The effect of the autonomic nerves on the transmural dispersion of ventricular repolarization in intact canine was investigated. By using the monophasic action potential (MAP) recording technique, monophasic action potentials (MAPs) of the epicardium (Epi), midmyocardium (Mid) and endocardium (Endo) were recorded simultaneously by specially designed plunge-needle electrodes at the left ventricular free wall in 12 open-chest dogs. MAPD₉₀ and transmural dispersion of repolarization among three myocardial layers as well as the incidence of the EAD before autonomic that the MAPD₉₀ of Epi, Mid and Endo before autonomic nervous stimulation were 278±11 ms, 316±16 ms and 270±12 ms respectively, the MAPD₉₀ of Mid was significantly longer than that of Epi or Endo (P<0.01). MAPD₉₀ of Epi, Mid and Endo were shortened by 19±4 ms, 45±6 ms, 18±3 ms respectively during sympathetic stimulation. Compared with that of the control, the transmural dispersion of repolarization during sympathetic stimulation was shortened from 44±4 ms to 15±3 ms (P<0.01), but early afterdepolarizations were elicited in the Mid of 5 dogs (41%) during sympathetic stimulation. Parasympathetic stimulation did not significantly affect the MAPD₉₀ in the three layers. It is concluded that there is the transmural dispersion of ventricular repolarization in intact canine. Sympathetic stimulation can reduce transmural dispersion of repolarization, but it can produce early afterdepolarizations in the Mid. Parasympathetic stimulation does not significantly affect the transmural dispersion of ventricular repolarization.

Keywords

autonomic nervous system / monophasic action potential / transmural dispersion of repolarization / early afterdepolarization

Cite this article

Download citation ▾

Zhang Cuntai, Xu Dawen, Li Yang, Liu Nian, Wang Lin, Lu Zaiying. Effect of autonomic nervous system on the transmural dispersion of ventricular repolarization in intact canine. Current Medical Science, 2004, 24(10): 37-40 DOI:10.1007/BF02830701

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	SicouriS, AntzelevitchC. A subpopulation of cells with unique electrophysiological properties in the deep subepicardium of the canine ventricle: the M cells. Circ Res, 1991, 68: 1279-1279

[2]	LiuS W, LinZ H. The relationship between the autonomic nerves and arrhythmia. Chin J Cardiol (Chinese), 1999, 27(1): 75-75

[3]	LiY T, ZhangC T, LuZ Y. Experimental observation on genesis of U wave in ECG in rabbits. Chin J Cardiol (Chinese), 2000, 28(2): 124-124

[4]	AntzelevitchC, SicouriS, LitovskyS H, et al.. Heterogeneity with the ventricular wall: electrophysiology and pharmacology of epicardial, endocardial and M cells. Circ Res, 1991, 69: 1427-1427

[5]	ZipesD P. Influence of myocardial ischemia and infarction on autonomic innervation of heart. Circulation, 1990, 82(4): 1095-1095

[6]	BurashnikovA, AntzelevitchC. Differences in the electrophysiologic response of four canine ventricular cell types to alpha₁-adrenergic agonists. Cardiovasc Res, 1999, 43(4): 901-901

[7]	ShimizuW, AntzelevitchC. Cellular basis for the ECG features of the LQT1 form of the long-QT syndrome: Effect of β-adrenergic agonists and antagonists and sodium channel blockers on transmural dispersion of repolarization and Torsade de Pointes. Circulation, 1998, 98: 2314-2314

[8]	ShimizuW, AntzelevitchC. Differential effects of beta-adrenergic agonists and antagonists in LQT1, LQT2 and LQT3 models of long QT syndrome. JACC, 2000, 35: 778-778

[9]	TakeiM, SasakiY, YonezawaT, et al.. The autonomic control of transmural dispersion of ventricular repolarization in anesthetized dog. J Cardiovasc Eletrophysiol, 1999, 10(8): 124-124

[10]	PrioriS G, ManticaM, SchwartzP J. Delayed afterdepolarizations elicited in vive by left stellate ganglion stimulation. Circulation, 1988, 78: 178-178

[11]	AntzelevithC, SicouriS. Clinical relevance of cardiac arrhythmia generated by afterdepolarizations: The role of M cells in the generation of U waves, triggered activity and torsade de pointes. JACC, 1994, 23: 259-259