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胃肠道磁场的时空偶极子模拟

A spatio-temporal dipole simulation of gastrointestinal magnetic fields.

作者信息

Bradshaw L Alan, Myers Andrew, Wikswo John P, Richards William O

机构信息

Department of Surgery, Vanderbilt University, Nashville, TN 37235, USA.

出版信息

IEEE Trans Biomed Eng. 2003 Jul;50(7):836-47. doi: 10.1109/TBME.2003.813549.

Abstract

We have developed a simulation of magnetic fields from gastrointestinal (GI) smooth muscle. Current sources are modeled as depolarization dipoles at the leading edge of the isopotential ring of electrical control activity (ECA) that is driven by coupled cells in the GI musculature. The dipole moment resulting from the known transmembrane potential distribution varies in frequency and phase depending on location in the GI tract. Magnetic fields in a homogeneous volume conductor are computed using the law of Biot-Savart and characterized by their spatial and temporal variation. The model predicts that the natural ECA frequency gradient may be detected by magnetic field detectors outside the abdomen. It also shows that propagation of the ECA in the gastric musculature results in propagating magnetic field patterns. Uncoupling of gastric smooth muscle cells disrupts the normal magnetic field propagation pattern. Intestinal ischemia, which has been experimentally characterized by lower-than-normal ECA frequencies, also produces external magnetic fields with lower ECA frequencies.

摘要

我们已经开发出一种胃肠道(GI)平滑肌磁场的模拟。电流源被建模为电控制活动(ECA)等电位环前沿的去极化偶极子,该等电位环由胃肠道肌肉组织中的耦合细胞驱动。由已知跨膜电位分布产生的偶极矩根据胃肠道中的位置在频率和相位上有所变化。使用毕奥 - 萨伐尔定律计算均匀体积导体中的磁场,并通过其空间和时间变化来表征。该模型预测,腹部外的磁场探测器可能检测到自然的ECA频率梯度。它还表明,ECA在胃肌肉组织中的传播会导致磁场模式的传播。胃平滑肌细胞的解耦会破坏正常的磁场传播模式。肠道缺血在实验中表现为ECA频率低于正常水平,它也会产生具有较低ECA频率的外部磁场。

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