Magnetocardiography with high-TC Gradiometers Working in Unshielded Environments

P Seidel , R Weidl , S Brabetz , F Schmidl , H Nowak , U Leder
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引用次数: 4

Abstract

The noninvasive measurement of magnetic heart activity based on high-TC DC SQUIDs, could be a tool for investigating cardiac electrophysiological properties, if such a system is able to work in unshielded environments. For the realization of such a system we use thin film planar SQUID gradiometers with bicrystal or step-edge Josephson junctions. Even for a small baseline of approximately 4 mm (limited by substrate dimensions), the field gradent resolution is in the range required for clinical analysis. We use a portable system which consists of a glass fiber cryostat with a measuring unit where we can place up to four sensors, different read-out electronics, and signal filtering methods. Firstly, measurements inside a magnetically shielded room were used to show the capability of our magnetocardiography (MCG) system in medical applcations. The system works in an unshielded environment also, without additional field compensation. We demonstrate a measurement of a magnetocardiogram in a real clinical environment, and discuss the possibilties as well as the limitations of this system in magnetocardiography.

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在非屏蔽环境下工作的高tc梯度磁心动图
如果该系统能够在无屏蔽环境下工作,基于高tc直流squid的无创心脏磁活动测量可以成为研究心脏电生理特性的工具。为了实现这样的系统,我们使用具有双晶或阶边约瑟夫森结的薄膜平面SQUID梯度仪。即使对于大约4毫米的小基线(受衬底尺寸的限制),视场梯度分辨率也在临床分析所需的范围内。我们使用一个便携式系统,它由一个玻璃纤维低温恒温器和一个测量单元组成,我们可以放置多达四个传感器,不同的读出电子设备和信号滤波方法。首先,在一个磁屏蔽室内进行测量,以展示我们的心脏磁图(MCG)系统在医疗应用中的能力。该系统也可在无屏蔽环境下工作,无需额外的磁场补偿。我们演示了在真实的临床环境中测量心脏磁图,并讨论了该系统在心脏磁图中的可能性和局限性。
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