兔心室肌细胞中牵张激活和牵张调制电流的离子模型。

An ionic model of stretch-activated and stretch-modulated currents in rabbit ventricular myocytes.

作者信息

Healy Sarah N, McCulloch Andrew D

机构信息

Department of Bioengineering, University of California, San Diego, 92093, USA.

出版信息

Europace. 2005 Sep;7 Suppl 2:128-34. doi: 10.1016/j.eupc.2005.03.019.

DOI:10.1016/j.eupc.2005.03.019

PMID:16102510

Abstract

AIMS

To develop an ionic model of stretch-activated and stretch-modulated currents in rabbit ventricular myocytes consistent with experimental observations, that can be used to investigate the role of these currents in intact myocardium.

METHODS AND RESULTS

A non-specific cation-selective stretch-activated current I(ns), was incorporated into the Puglisi-Bers ionic model of epicardial, endocardial and midmyocardial ventricular myocytes. Using the model, we predict a reduction in action potential duration at 20% repolarization (APD(20)) and action potential amplitude, an elevated resting transmembrane potential and either an increase or decrease in APD(90), depending on the reversal potential of I(ns). A stretch-induced decrease in I(K1) (70%), plus a small I(ns) current (g(ns) = 10 pS), results in a reduction in APD(20) and increase in APD(90), and a reduced safety factor for conduction. Increasing I(K1) (150%) plus a large I(ns) current (g(ns) = 40 pS), also leads to a reduction in APD(20) and increase in APD(90), but with a greater safety factor. Endocardial and midmyocardial cells appear to be the most sensitive to stretch-induced changes in action potential. The addition of the K(+)-specific stretch-activated current (SAC) I(Ko) results in action potential shortening.

CONCLUSION

Transmural heterogeneity of I(Ko) may reduce repolarization gradients in intact myocardium caused by intrinsic ion channel densities, nonuniform strains and electrotonic effects.

摘要

目的

建立一个与实验观察结果相符的兔心室肌细胞牵张激活和牵张调制电流的离子模型，该模型可用于研究这些电流在完整心肌中的作用。

方法与结果

将一种非特异性阳离子选择性牵张激活电流I(ns)纳入普格利西-伯斯（Puglisi-Bers）的心外膜、心内膜和心肌中层心室肌细胞离子模型。利用该模型，我们预测在复极化20%时动作电位时程（APD(20)）和动作电位幅度会降低，静息跨膜电位升高，并且APD(90)会增加或减少，这取决于I(ns)的反转电位。牵张诱导的I(K1)降低（70%），加上一个小的I(ns)电流（g(ns)=10 pS），会导致APD(20)降低和APD(90)增加，以及传导安全系数降低。增加I(K1)（150%）加上一个大的I(ns)电流（g(ns)=40 pS），也会导致APD(20)降低和APD(90)增加，但安全系数更高。心内膜和心肌中层细胞似乎对牵张诱导的动作电位变化最为敏感。添加K(+)特异性牵张激活电流（SAC）I(Ko)会导致动作电位缩短。

结论

I(Ko)的跨壁异质性可能会降低完整心肌中由内在离子通道密度、不均匀应变和电紧张效应引起的复极化梯度。

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兔心室肌细胞中牵张激活和牵张调制电流的离子模型。

An ionic model of stretch-activated and stretch-modulated currents in rabbit ventricular myocytes.

作者信息

Healy Sarah N, McCulloch Andrew D

机构信息

Department of Bioengineering, University of California, San Diego, 92093, USA.

出版信息

Europace. 2005 Sep;7 Suppl 2:128-34. doi: 10.1016/j.eupc.2005.03.019.

DOI:10.1016/j.eupc.2005.03.019

PMID:16102510

Abstract

AIMS

METHODS AND RESULTS

CONCLUSION

Transmural heterogeneity of I(Ko) may reduce repolarization gradients in intact myocardium caused by intrinsic ion channel densities, nonuniform strains and electrotonic effects.

摘要

目的

建立一个与实验观察结果相符的兔心室肌细胞牵张激活和牵张调制电流的离子模型，该模型可用于研究这些电流在完整心肌中的作用。

方法与结果

结论

I(Ko)的跨壁异质性可能会降低完整心肌中由内在离子通道密度、不均匀应变和电紧张效应引起的复极化梯度。

兔心室肌细胞中牵张激活和牵张调制电流的离子模型。

An ionic model of stretch-activated and stretch-modulated currents in rabbit ventricular myocytes.

作者信息

机构信息

出版信息

AIMS

METHODS AND RESULTS

CONCLUSION

目的

方法与结果

结论

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兔心室肌细胞中牵张激活和牵张调制电流的离子模型。

An ionic model of stretch-activated and stretch-modulated currents in rabbit ventricular myocytes.

作者信息

机构信息

出版信息

AIMS

METHODS AND RESULTS

CONCLUSION

目的

方法与结果

结论

相似文献

引用本文的文献