题名

Vulnerability to Unidirectional Conduction Block and Reentry in Rabbit Left Ventricular Wedge Preparation: Effects of Stimulation Sequence and Location

DOI

10.4077/CJP.2009.AMG075

作者

Xiao-Zhen Chen;Hong Zhang;Yin Bin Jin;Lin Yang

关键词

vulnerable window ; unidirectional conduction block ; reentry

期刊名称

The Chinese Journal of Physiology

卷期/出版年月

52卷1期(2009 / 02 / 01)

页次

16 - 22

内容语文

英文
英文摘要

Many factors influence the initiation of unidirectional conduction block and reentry. To explore the influential factors on the temporal vulnerable window of the unidirectional conduction block, we investigated the effect of stimulation sequence and location on the temporal vulnerability in epicardial and endocardial sites in an arterially perfused rabbit left ventricular wedge preparation at three basic cycle lengths (BCL) of 2,000, 1,000 and 500 ms. An extrastimulus (S2) was introduced at coupling intervals incremented by 1 ms to scan the entire diastolic interval. The results showed that the vulnerable window increased with the lengthening of BCL, which ranged from 48.55±18.04 ms at BCL of 500 ms to 92.50±25.59 ms at BCL of 2,000 ms for endocardial, and is a similar style for epicardial from 21.00±14.02 ms at BCL of 500 ms to 75.71±16.34 ms at BCL of 2,000 ms (P<0.05). The vulnerable window of endocardial was wider than that of epicardial (P<0.05). Furthermore, the window size for reentry was about 39% smaller than that for unidirectional conduction block. Meanwhile, we found that increasing the number of premature beats enlarged the vulnerable window markedly due to enhanced transmural dispersion of repolarization (TDR) of ventricle. The vulnerable window is an effective index to evaluate the increased risk for unidirectional conduction block. Therefore, the factors that increase the vulnerable window are associated with the higher incidence of ventricular arrhythmias.
主题分类 醫藥衛生 > 基礎醫學
参考文献
  1. Akar, F.G.,Yan, G.X.,Antzelevitch, C.(2002).Unique topographical distribution of M cells underlies reentrant mechanism of Torsade de Pointes in the long QT syndrome.Circulation,105,1247-1253.
  2. Banville, I.,Gray, R.A.(2002).Effect of action potential duration and conduction velocity restitution and their spatial dispersion on alternans and the stability of arrhythmia.J. Cardiovasc. Electrophysiol.,13,1141-1149.
  3. Clayton, R.H.,Holden, A.V.(2005).Dispersion of cardiac action potential duration and initiation of reentry: a computational study.Biomed. Eng. Online,4,11.
  4. Comtois, P.,Vinet, A.,Nattel, S.(2005).Wave block formation in homogeneous excitable media following premature excitations: Dependence on restitution relations.Phys. Rev. E. Stat. Nonlin. Soft Matter Phys.,72
  5. Henry, H.,Rappel, W.J.(2004).The role of M cells and the long QT syndrome in cardiac arrhythmias: simulation studies of reentrant excitations using a detailed electrophysiological model.Chaos,14,172-182.
  6. Laurita, K.R.,Rosenbaum, D.S.(2000).Interdependence of modulated dispersion and tissue structure in the mechanism of unidirectional block.Circ. Res.,87,922-928.
  7. Liu, D.W.,Antzelevitch, C.(1995).Characteristics of the delayed rectifier current (Ikr and Iks) in canine ventricular epicardial, midmyocardial and endocardial myocytes: a weaker Iks contributes to the longer action potential of the M cell.Circ. Res.,76,351-365.
  8. Moe, G.K.,Rheinboldt, W.C.,Abildskov, J.A.(1964).A computer model of atrial fibrillation.Am. Heart J.,67,200-220.
  9. Qu, Z.,Garfinkel, A.,Weiss, J.N.(2006).Vulnerable window for conduction block in a one-dimensional cable of cardiac cells, 1: single extrasystoles.Biophys. J.,91,793-804.
  10. Qu, Z.,Garfinkel, A.,Weiss, J.N.(2006).Vulnerable window for conduction block in a one-dimensional cable of cardiac cells, 2: multiple extrasystoles.Biophys. J.,91,805-815.
  11. Qu, Z.,Weiss, J.N.,Garfinkel, A.(1999).Cardiac electrical restitution properties and stability of reentrant spiral waves: a simulation study.Am. J. Physiol. Heart Circ. Physiol.,276,269-283.
  12. Restivo, M.,Gough, W.B.,el-Sherif, N.(1990).Ventricular arrhythmias in the subacute myocardial infarction period: high-resolution activation and refractory patterns of reentrant rhythms.Circ. Res.,66,1310-1327.
  13. Shaw, R.M.,Rudy, Y.(1995).The vulnerable window for unidirectional block in cardiac tissue: characterization and dependence on membrane excitability and intercellular coupling.J. Cardiovasc. Electrophysiol.,6,115-131.
  14. Shimizu, W.,Antzelevitch, C.(1998).Cellular basis for the ECG features of the LQT1 form of the long-QT syndrome: effects of β-adrenergic agonists and antagonists and sodium channel blockers on transmural dispersion of repolarization and Torsade de Points.Circulation,98,2314-2322.
  15. Shimizu, W.,Antzelevitch, C.(2000).Effects of a K+ channel opener to reduce transmural dispersion of repolarization and prevent Torsade de Pointes in LQT1, LQT2, and LQT3 models of the long-QT syndrome.Circulation,102,706-712.
  16. Tran, D.X.,Yang, M.J.,Weiss, J.N.,Garfinkel, A.,Qu, Z.(2007).Vulnerability to re-entry in simulated two-dimensional cardiac tissue: Effects of electrical restitution and stimulation sequence.Chaos,17,43115.
  17. Weiss, J.N.,Chen, P.S.,Qu, Z.,Karagueuzian, H.S.,Garfinkel, A.(2000).Ventricular fibrillation: how do we stop the waves from breaking?.Circ. Res.,87,1103-1107.
  18. Weiss, J.N.,Qu, Z.,Chen, P.S.,Lin, S.F.,Karagueuzian, H.S.,Hayashi, H.,Garfinkel, A.,Karma, A.(2005).The dynamics of cardiac fibrillation.Circulation,112,1232-1240.
  19. Wu, T.J.,Lin, S.F.,Weiss, J.N.,Ting, C.T.,Chen, P.S.(2002).Two types of ventricular fibrillation in isolated rabbit hearts-importance of excitability and action potential duration restitution.Circulation,106,1859-1866.
  20. Yan, G.X.,Antzelevitch, C.(1998).Cellular basis for the normal T wave and the electrocardiographic manifestations of the long-QT syndrome.Circulation,98,1928-1936.
  21. Yan, G.X.,Shimizu, W.,Antzelevitch, C.(1998).Characteristics and distribution of M cells in arterially perfused canine left ventricular wedge preparations.Circulation,98,1921-1927.
  22. Yan, G.X.,Wu, Y.,Liu, T.,Wang, J.,Marinchak, R.A.,Kowey, P.R.(2001).Phase 2 early afterdepolarization as a trigger of polymorphic ventricular tachycardia in acquired long QT syndrome.Circulation,103,2851-2856.
  23. Yang, M.J.,Tran, D.X.,Weiss, J.N.,Garfinkel, A.,Qu, Z.(2007).The pinwheel experiment revisited: effects of cellular electrophysiological property on vulnerability to cardiac reentry.Am. J. Physiol. Heart Circ. Physiol.,293,1781-1790.
  24. Zygmunt, A.C.,Eddlestone, G.T.,Thomas, G.P.,Nesterenko, V.V.,Antzelevitch, C.(2001).Larger late sodium current contributes to electrical heterogeneity in canine ventricle.Am. J. Physiol. Heart Circ. Physiol.,281,689-697.
被引用次数
  1. Zhao, Wei,Zhang, Hong,Yang, Lin,Wu, Rui-juan,Wang, Juan,Mei, Xi(2011).Vulnerability in Simulated Ischemic Ventricular Transmural Tissues.中國生理學雜誌,54(6),427-434.
  2. Zheng, Xiao,Zhang, Hong,Yang, Zhao,Yang, Lin,Zheng, Xiao,Zhang, Hong,Yang, Zhao,Yang, Lin(2013).Role of the Late Sodium Current in Rate-Dependent Repolarization of the Canine Ventricle.中國生理學雜誌,56(6),334-340.
print cancel