心脏组织几何结构作为单向传导阻滞的决定因素：通过光学映射评估图案化细胞培养物和计算机模型中的微观兴奋传播

Cardiac tissue geometry as a determinant of unidirectional conduction block: assessment of microscopic excitation spread by optical mapping in patterned cell cultures and in a computer model.

作者信息

Fast V G, Kléber A G

机构信息

Department of Physiology, University of Berne, Switzerland.

出版信息

Cardiovasc Res. 1995 May;29(5):697-707.

PMID:7606760

Abstract

OBJECTIVE

Unidirectional conduction block (UCB) and reentry may occur as a consequence of an abrupt tissue expansion and a related change in the electrical load. The aim of this study was to evaluate critical dimensions of the tissue necessary for establishing UCB in heart cell culture.

METHODS

Neonatal rat heart cell cultures with cell strands of variable width emerging into a large cell area were grown using a technique of patterned cell growth. Action potential upstrokes were measured using a voltage sensitive dye (RH-237) and a linear array of 10 photodiodes with a 15 microns resolution. A mathematical model was used to relate action potential wave shapes to underlying ionic currents.

RESULTS

UCB (block of a single impulse in anterograde direction - from a strand to a large area - and conduction in the retrograde direction) occurred in narrow cell strands with a width of 15(SD 4) microns (1-2 cells in width, n = 7) and there was no conduction block in strands with a width of 31(8) microns (n = 9, P < 0.001) or larger. The analysis of action potential waveshapes indicated that conduction block was either due to geometrical expansion alone (n = 5) or to additional local depression of conduction (n = 2). In wide strands, action potential upstrokes during anterograde conduction were characterised by multiple rising phases. Mathematical modelling showed that two rising phases were caused by electronic current flow, whereas local ionic current did not coincide with the rising portions of the upstrokes.

CONCLUSIONS

(1) High resolution optical mapping shows multiphasic action potential upstrokes at the region of abrupt expansion. At the site of the maximum decrement in conduction, these peaks were largely determined by the electrotonus and not by the local ionic current. (2) Unidirectional conduction block occurred in strands with a width of 15(4) microns (1-2 cells).

摘要

目的

单向传导阻滞（UCB）和折返可能是组织突然扩张及电负荷相关变化的结果。本研究的目的是评估在心脏细胞培养中建立UCB所需的组织关键尺寸。

方法

采用图案化细胞生长技术培养新生大鼠心脏细胞，形成宽度可变的细胞束进入大细胞区域。使用电压敏感染料（RH - 237）和分辨率为15微米的10个光电二极管线性阵列测量动作电位上升支。使用数学模型将动作电位波形与潜在离子电流相关联。

结果

在宽度为15（标准差4）微米（宽度为1 - 2个细胞，n = 7）的狭窄细胞束中出现了UCB（单个冲动在顺行方向 - 从细胞束到大面积 - 阻滞，在逆行方向传导），而在宽度为31（8）微米（n = 9，P < 0.001）或更宽的细胞束中没有传导阻滞。动作电位波形分析表明，传导阻滞要么仅由于几何扩张（n = 5），要么由于传导的额外局部降低（n = 2）。在宽细胞束中，顺行传导期间的动作电位上升支具有多个上升阶段。数学建模表明，两个上升阶段是由电子电流流动引起的，而局部离子电流与上升支部分不一致。

结论

（1）高分辨率光学映射显示在突然扩张区域动作电位上升支多相。在传导最大衰减部位，这些峰值很大程度上由电紧张决定，而非局部离子电流。（2）在宽度为15（4）微米（1 - 2个细胞）的细胞束中发生单向传导阻滞。

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心脏组织几何结构作为单向传导阻滞的决定因素：通过光学映射评估图案化细胞培养物和计算机模型中的微观兴奋传播

Cardiac tissue geometry as a determinant of unidirectional conduction block: assessment of microscopic excitation spread by optical mapping in patterned cell cultures and in a computer model.

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出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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