Influence of M-cells on the generation of re-entry in Short QT Syndrome

P. Priya, Srinivasan Jayaraman
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Abstract

The distribution of M-cells have always been vital in creating intrinsic spatial heterogeneity thereby acting as a substrate for the development and maintenance of re-entry. Here, a 2D anisotropic transmural tissue made up of endocardial (endo), midmyocardial (mid) and epicardial (epi) layers was constructed by using the ventricular cell model developed by Ten Tusscher et al. Two configurations, the entire column of mid layer and an island within the mid layer of the tissue were considered as M cells. In the latter configuration, slight alterations were introduced in the slow delayed rectifying potassium current and the outward transient current so that the APD is highest in the M-cells followed by the endo, mid and epi cells. The likelihood of reentry generation under conditions of KCNQ1-linked Short QT syndrome type 2 (SQTS2) was then analysed in these two types of tissue configurations. Simulation results show that on including SQTS2 conditions and on pacing the tissue with premature beats in between normal beats, re-entrant waves were generated in the tissue containing a column of M - cells whereas in the tissue including the M-cell island, re-entry was not generated. This study is not in line with those reported earlier due to the variations in the size of the chosen M -cell island as well as the cellular electrophysiological properties. From this investigation, the need for further analysis on the size, location as well as the ionic properties of the M-cells in relation to the neighbouring cells has been emphasized.
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m细胞对短QT综合征再入发生的影响
m细胞的分布在创造内在的空间异质性方面一直是至关重要的,从而作为再入发展和维持的基础。本研究采用Ten Tusscher等人建立的心室细胞模型,构建了由心内膜(endo)、心肌中层(mid)和心外膜(epi)层组成的二维各向异性跨壁组织。两种构型,整个中间层柱状和组织中间层内的岛状被认为是M细胞。在后一种结构中,缓慢延迟的整流钾电流和向外瞬态电流发生了轻微的变化,因此APD在m细胞中最高,其次是内、中、上皮细胞。然后在这两种类型的组织构型中分析kcnq1相关的2型短QT综合征(SQTS2)条件下再入的可能性。仿真结果表明,在包括SQTS2条件和在正常心跳之间对早搏组织进行起搏时,在含有M细胞柱的组织中产生再入波,而在含有M细胞岛的组织中不产生再入波。由于所选择的M细胞岛的大小以及细胞电生理特性的变化,本研究与先前报道的不一致。从这项调查,需要进一步分析的大小,位置以及离子性质的m细胞相对于邻近的细胞已被强调。
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