动脉灌注犬左心室楔形标本中M细胞的特征与分布

Characteristics and distribution of M cells in arterially perfused canine left ventricular wedge preparations.

作者信息

Yan G X, Shimizu W, Antzelevitch C

机构信息

Masonic Medical Research Laboratory, Utica, NY, USA.

出版信息

Circulation. 1998 Nov 3;98(18):1921-7. doi: 10.1161/01.cir.98.18.1921.

DOI:10.1161/01.cir.98.18.1921

PMID:9799214

Abstract

BACKGROUND

Much of the characterization of the M cell to date has been accomplished using isolated tissues and cells. This study uses an arterially perfused wedge preparation to examine the characteristics and distribution of M cells within the anterior wall of the canine left ventricle under more physiological conditions.

METHODS AND RESULTS

Floating microelectrodes were used to record transmembrane action potentials simultaneously from epicardial, M region, and endocardial or subendocardial Purkinje sites in isolated arterially perfused canine left ventricular wedge preparations. A transmural ECG was recorded concurrently. M cells with the longest action potentials were found in the deep subendocardium in wedge preparations isolated from the anterior wall of the left ventricle. Fairly smooth transitions in action potential duration (APD) were observed except in the region between epicardium and deep subepicardium. Tissue resistivity increased 2.8-fold in this region and much more modestly in the deep subendocardium. Dispersion of APD90 across the left ventricular wall averaged 51+/-19 and 64+/-25 ms at basic cycle lengths of 1000 and 2000 ms, respectively, whereas transmural dispersion of repolarization time was smaller (34+/-18 and 45+/-25 ms), owing to the endocardial to epicardial activation sequence.

CONCLUSIONS

We conclude that the qualitative differences between the 3 ventricular cell types previously described in isolated tissues and cells are maintained in intact canine left ventricular wall preparations in which the myocardial cells are electrically well coupled. As anticipated, differences in APD are quantitatively smaller because of electrotonic interactions among the 3 cell types. Our data indicate that transmural dispersion of repolarization is the result of intrinsic differences in APD of cells spanning the ventricular wall as well as a heterogeneous distribution of tissue resistivity across the wall.

摘要

背景

迄今为止，对M细胞的许多特性描述都是通过分离的组织和细胞来完成的。本研究使用动脉灌注楔形标本，在更接近生理的条件下，研究犬左心室前壁内M细胞的特性和分布。

方法与结果

在分离的动脉灌注犬左心室楔形标本中，使用浮动微电极同时记录心外膜、M区以及心内膜或心内膜下浦肯野纤维部位的跨膜动作电位。同时记录跨壁心电图。在从左心室前壁分离的楔形标本的心内膜深层发现了动作电位最长的M细胞。除了心外膜和心外膜深层之间的区域外，动作电位时程（APD）的过渡相当平滑。该区域的组织电阻率增加了2.8倍，而心内膜深层的增加幅度则小得多。在基础周期长度为1000和2000 ms时，左心室壁上APD90的离散度平均分别为51±19和64±25 ms，而由于心内膜到心外膜的激活顺序，复极时间的跨壁离散度较小（34±18和45±25 ms）。

结论

我们得出结论，先前在分离的组织和细胞中描述的三种心室细胞类型之间的定性差异，在心肌细胞电耦合良好的完整犬左心室壁标本中得以保留。正如预期的那样，由于三种细胞类型之间的电紧张相互作用，APD的差异在数量上较小。我们的数据表明，复极的跨壁离散是跨心室壁细胞APD的内在差异以及整个壁上组织电阻率的不均匀分布的结果。

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动脉灌注犬左心室楔形标本中M细胞的特征与分布

Characteristics and distribution of M cells in arterially perfused canine left ventricular wedge preparations.

作者信息

机构信息

出版信息

BACKGROUND

METHODS AND RESULTS

CONCLUSIONS

背景

方法与结果

结论

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