Magnetospinography: Instruments and Application to Functional Imaging of Spinal Cords
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概要
- 論文の詳細を見る
Magnetospinography (MSG) is one of the most promising techniques to detect the nerve activity of spinal cords thanks to its noninvasiveness and high spatial/temporal resolutions. Multichannel superconducting quantum interference device (SQUID) MSG measurement systems optimized for supine subjects have been developed previously and employed in clinical applications in hospitals. Magnetic source analyses of MSG data based on spatial filter techniques reveal the transition of reconstructed current distributions adjacent to the spinal cord. The propagation of the neural signals was noninvasively visualized. The MSG measurements provide significant diagnostic information such as irregularities in the transitions of the reconstructed current distribution and/or considerable decreases in the current intensity at the lesion. Such functional imaging of the spinal cord in addition to conventional neurologic examinations and morphological imaging will be fairly effective in presurgical lesion localizations of the spinal cord.
著者
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Adachi Yoshiaki
Applied Electronics Laboratory, Kanazawa Institute of Technology
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Uehara Gen
Applied Electronics Laboratory Kanazawa Institute Of Technology
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Adachi Yoshiaki
Applied Electronics Laboratory Kanazawa Institute Of Technology
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HARUTA Yasuhiro
Yokogawa Electric Corporation
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KAWABATA Shigenori
Tokyo Medical and Dental University
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OYAMA Daisuke
Applied Electronics Laboratory, Kanazawa Institute of Technology
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SEKIHARA Kensuke
Tokyo Metropolitan University
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- Magnetospinography: Instruments and Application to Functional Imaging of Spinal Cords
- Magnetospinography : Instruments and Application to Functional Imaging of Spinal Cords