Lewis Michael J
Department of Sports Science, Vivian Building, University of Wales Swansea, Singleton Park, Swansea SA2 8PP, UK.
J Sports Sci. 2003 Oct;21(10):793-802. doi: 10.1080/0264041031000140347.
Biomagnetometry is a non-invasive technique for detecting magnetic fields associated with the electrophysiology and magnetic susceptibility of body tissues. The aims of this paper are to provide a review of the discipline of biomagnetism and its measurement using a superconducting quantum interference device (SQUID), and to discuss the potential utility of this technique in sport and exercise science. A tutorial section is presented to provide an introduction to the theory and practical application of SQUID biomagnetometry. A review of the biomagnetism literature demonstrates the variety of previous biomagnetic investigations and suggests several potential applications of biomagnetometry in sport and exercise science. A discussion of these includes an assessment of the advantages of measuring biomagnetic fields as opposed to electrical potentials, with particular reference to the improved precision and accuracy of physiological source modelling using biomagnetic data. There is evidence to suggest that SQUID biomagnetometry would provide useful (and perhaps unique) information on functional, anatomical and physiological assessments in sport and exercise science. Further investigations of biomagnetometry in this discipline should focus on three main areas: cardiology, encephalography and neurology, and body composition assessment.
生物磁测量法是一种用于检测与身体组织的电生理和磁化率相关的磁场的非侵入性技术。本文的目的是对生物磁学学科及其使用超导量子干涉装置(SQUID)进行测量进行综述,并讨论该技术在体育与运动科学中的潜在用途。文中设有一个教程部分,旨在介绍SQUID生物磁测量法的理论和实际应用。对生物磁学文献的综述展示了以往各种生物磁学研究,并提出了生物磁测量法在体育与运动科学中的若干潜在应用。对这些应用的讨论包括评估测量生物磁场相对于测量电势的优势,特别是使用生物磁数据进行生理源建模时提高的精度和准确性。有证据表明,SQUID生物磁测量法将为体育与运动科学中的功能、解剖和生理评估提供有用(或许是独特)的信息。该学科中对生物磁测量法的进一步研究应集中在三个主要领域:心脏病学、脑成像和神经学,以及身体成分评估。