Sustained reentrant propagation in loops of decoupled cardiac cells

Proceedings of 17th International Conference of the Engineering in Medicine and Biology Society Pub Date : 1995-09-20 DOI:10.1109/IEMBS.1995.574981
A.A. Papazoglou, R. Barr
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引用次数: 0

Abstract

Simulations were designed to identify the minimum number of cardiac cells that sustained propagation. Cells were connected as a loop with elevated junction resistances. The decrease in the spatial extent of the action potential associated with increasing the junction resistances to 1200 M/spl Omega/ allowed propagation to be sustained in loops as small as 11 cells. Membrane kinetics spontaneously adjusted to the premature stimulation intrinsic to reentrant propagation, and thereby allowed propagation to be sustained with further decrease in the loop size. The simulations used the DiFrancesco-Noble membrane model. A minimum of 9 cells sustained propagation when the junction resistances were 1000 M/spl Omega/.
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脱耦心脏细胞环内持续可重入繁殖
设计模拟以确定持续繁殖的心脏细胞的最小数量。细胞连接成一个回路,具有升高的结电阻。当结电阻增加到1200 M/spl ω /时,动作电位的空间范围就会减小,这使得在小至11个细胞的环路中可以持续传播。膜动力学自发地适应了重入繁殖所固有的过早刺激,从而使繁殖在环尺寸进一步减小的情况下得以维持。模拟采用DiFrancesco-Noble膜模型。当结电阻为1000 M/spl ω /时,至少有9个细胞持续繁殖。
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Proceedings of 17th International Conference of the Engineering in Medicine and Biology Society
Proceedings of 17th International Conference of the Engineering in Medicine and Biology Society
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