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In vivo magnetic and electric recordings from nerve bundles and single motor units in mammalian skeletal muscle. Correlations with muscle force

机译:哺乳动物骨骼肌中神经束和单个运动单元的体内磁和电记录。与肌肉力量的关系

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Recent advances in the technology of recording magnetic fields associated with electric current flow in biological tissues have provided a means of examining action currents that is more direct and possibly more accurate than conventional electrical recording. Magnetic recordings are relatively insensitive to muscle movement, and, because the recording probes are not directly connected to the tissue, distortions of the data due to changes in the electrochemical interface between the probes and the tissue are eliminated. In vivo magnetic recordings of action currents of rat common peroneal nerve and extensor digitorum longus (EDL) muscle were obtained by a new magnetic probe and amplifier system that operates within the physiological temperature range. The magnetically recorded waveforms were compared with those obtained simultaneously by conventional, extracellular recording techniques. We used the amplitude of EDL twitch force (an index of stimulus strength) generated in response to graded stimulation of the common peroneal nerve to enable us to compare the amplitudes of magnetically recorded nerve and muscle compound action currents (NCACs and MCACs, respectively) with the amplitudes of electrically recorded nerve compound action potentials (NCAPs). High, positive correlations to stimulus strength were found for NCACs (r = 0.998), MCACs (r = 0.974), and NCAPs (r = 0.998). We also computed the correlations of EDL single motor unit twitch force with magnetically recorded single motor unit compound action currents (SMUCACs) and electrically recorded single motor unit compound action potentials (SMUCAPs) obtained with both a ring electrode and a straight wire serving as a point electrode. Only the SMUCACs had a relatively strong positive correlation (r = 0.768) with EDL twitch force. Correlations for ring and wire electrode- recorded SMUCAPs were 0.565 and -0.366, respectively. This study adds a relatively direct examination of action currents to the characterization of the normal biophysical properties of peripheral nerve, muscle, and muscle single motor units.
机译:记录与生物组织中的电流相关的磁场的技术的最新进展提供了一种检查动作电流的方法,该方法比传统的电记录更为直接,甚至可能更准确。磁记录对肌肉运动相对不敏​​感,并且由于记录探针未直接连接到组织,因此消除了由于探针与组织之间的电化学界面变化而导致的数据失真。通过在生理温度范围内运行的新型磁探针和放大器系统,获得了大鼠腓总神经和趾长伸肌(EDL)肌肉的动作电流的体内磁记录。将磁记录的波形与通过常规细胞外记录技术同时获得的波形进行比较。我们使用了响应于腓总神经的分级刺激而产生的EDL抽搐力的振幅(刺激强度的指标),以使我们能够比较磁记录的神经和肌肉复合动作电流(分别为NCAC和MCAC)的振幅与电记录的神经复合动作电位(NCAP)的幅度。发现NCAC(r = 0.998),MCAC(r = 0.974)和NCAP(r = 0.998)与刺激强度呈高度正相关。我们还计算了以环形电极和直线作为点获得的EDL单电机单元抽动力与磁记录的单电机单元复合作用电流(SMUCAC)和电记录的单电机单元复合作用电位(SMUCAP)的相关性电极。只有SMUCAC与EDL抽拉力具有相对较强的正相关(r = 0.768)。环形和线电极记录的SMUCAP的相关性分别为0.565和-0.366。这项研究增加了对动作电流的相对直接检查,以表征周围神经,肌肉和肌肉单个运动单位的正常生物物理特性。

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