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用于研究大脑和心脏电活动的多通道生物磁系统。

Multichannel biomagnetic system for study of electrical activity in the brain and heart.

作者信息

Schneider S, Hoenig E, Reichenberger H, Abraham-Fuchs K, Moshage W, Oppelt A, Stefan H, Weikl A, Wirth A

机构信息

Central Research Laboratories, Siemens, Erlangen, Federal Republic of Germany.

出版信息

Radiology. 1990 Sep;176(3):825-30. doi: 10.1148/radiology.176.3.2389043.

Abstract

The authors designed a multichannel system for noninvasive measurement of the extremely weak magnetic fields generated by the brain and the heart. It uses a flat array of 37 superconducting magnetic field-sensing coils connected to sophisticated superconducting quantum interference devices. To prevent interference from external electromagnetic fields, the system is operated inside a shielded room. Complete sets of coherent data, even from spontaneous events, can be recorded. System performance was evaluated with phantom measurements and evoked-response studies. A spatial resolution of a few millimeters and a temporal resolution of a millisecond were obtained. First results in patients with partial epilepsy and investigations of the cardiac conductive pathway indicate that biomagnetism is now ready for a systematic clinical evaluation. Interpretation of measurements was facilitated by highlighting biomagnetically localized electrical activity in three-dimensional digital magnetic resonance images.

摘要

作者设计了一种多通道系统,用于无创测量大脑和心脏产生的极微弱磁场。该系统使用一个由37个超导磁场感应线圈组成的平面阵列,这些线圈连接到先进的超导量子干涉装置上。为防止外部电磁场的干扰,该系统在屏蔽室内运行。即使是来自自发事件的完整相干数据集也能被记录下来。通过模型测量和诱发反应研究对系统性能进行了评估。获得了几毫米的空间分辨率和一毫秒的时间分辨率。对部分癫痫患者的初步研究结果以及对心脏传导通路的研究表明,生物磁学现已准备好进行系统的临床评估。通过在三维数字磁共振图像中突出生物磁定位的电活动,有助于对测量结果进行解释。

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