中国组织工程研究

中国组织工程研究 ›› 2011, Vol. 15 ›› Issue (46): 8693-8697.doi: 10.3969/j.issn.1673-8225.2011.46.034

• 组织构建基础实验 basic experiments in tissue construction • 上一篇    下一篇

兔腓肠肌表面肌电信号与肌肉收缩及运动中枢的关系

李  欣,赵海红,孙爱萍,张学敏,曹  效,赵文汝   

  1. 国家康复辅具研究中心附属康复医院神经训导康复部,北京市  100176
  • 收稿日期:2011-04-19 修回日期:2011-08-16 出版日期:2011-11-12 发布日期:2011-11-12
  • 通讯作者: 赵文汝,硕士,主任医师,教授,国家康复辅具研究中心附属康复医院神经训导康复部,北京市 100176 zhaowenru@hotmail.com
  • 作者简介:李欣★,女,1986年生,北京市人,汉族,2010年首都医科大学毕业,硕士,医师,主要从事神经康复的研究。 fillyglory@163.com

Relations of surface electromyogram signal with muscle contraction and motor centers in rabbit gastrocnemius muscle

Li Xin, Zhao Hai-hong, Sun Ai-ping, Zhang Xue-min, Cao Xiao, Zhao Wen-ru   

  1. Department of Neurological Training Rehabilitation, National Rehabilitation Hospital of National Research Center for Rehabilitation Technical Aids, Beijing  100176, China
  • Received:2011-04-19 Revised:2011-08-16 Online:2011-11-12 Published:2011-11-12
  • Contact: Zhao Wen-ru, Master, Chief physician, Professor, Department of Neurological Training Rehabilitation, National Rehabilitation Hospital of National Research Center for Rehabilitation Technical Aids, Beijing 100176, China zhaowenru@hotmail.com
  • About author:Li Xin★, Master, Physician, Department of Neurological Training Rehabilitation, National Rehabilitation Hospital of National Research Center for Rehabilitation Technical Aids, Beijing 100176, China fillyglory@163.com

PDF

715

被引次数

5

摘要:

背景:以往的验证实验均采用电刺激方法诱发肌肉收缩,施加电流的影响使接收到的表面肌电信号混有外来电流成分,无法有效分析其与肌肉收缩,特别是与高位运动中枢的关系。
目的:观察新西兰兔腓肠肌表面肌电信号与肌肉收缩及高位、低位运动中枢的关系。
方法:在新西兰兔清醒状态下通过针刺右侧跟腱诱发腓肠肌收缩,局麻清醒状态下离断右侧坐骨神经,分别在针刺跟腱、钳夹离断的坐骨神经远侧断端、针刺腓肠肌和被动活动腓肠肌时,检测腓肠肌表面肌电信号的强弱及类型。局麻下于L3平面横断脊髓,针刺左侧跟腱诱发腓肠肌收缩,检测腓肠肌表面肌电信号的强弱和类型。
结果与结论:正常状态下经针刺跟腱诱发腓肠肌随意收缩时,可接收到400 μV、持续4 s的宽底随意波;横断脊髓后针刺跟腱诱发的反射性腓肠肌收缩接收到的信号小于100 μV、持续时间小于1 s;离断坐骨神经后刺激跟腱、神经和肌肉时,均未引起肌肉收缩,但可接收到强度小于10 μV、持续时间小于0.5 s的干扰波;被动活动关节牵拉腓肠肌时未检测到肌电信号活动。说明兔腓肠肌表面肌电信号产生于肌肉收缩之前,是以高位运动中枢为主、低位运动中枢为辅发放到肌肉的驱动电信号的综合,而非肌肉收缩本身产生。

关键词: 表面肌电信号, 腓肠肌, 肌肉收缩, 类型, 皮质运动中枢, 随意运动

Abstract:

BACKGROUND: In the previous verification tests, muscle contraction is induced by electric stimulation. Therefore, the detected surface electromyogram signal is mixed with applied electric current. So the relations between surface electromyogram signal, muscle contraction and upper motor centers can not be fully analyzed, especially the latter one.
OBJECTIVE: To assess the relations between surface electromyogram signal, muscle contraction and upper or lower motor centers in New Zealand rabbit gastrocnemius muscle.
METHODS: The right heel tendon of a conscious rabbit was pricked by an acupuncture needle to induce gastrocnemius muscle contraction. The right sciatic nerve was severed under the local anesthesia. The intensity and category of the gastrocnemius muscle surface electromyogram signal were measured respectively when pricking the right heel tendon, clamping the distal end of the severed sciatic nerve, pricking the right gastrocnemius muscle and inducing passive gastrocnemius muscle movement. Then the spinal cord was cut off at L3 plane under the local anesthesia. The gastrocnemius muscle contraction was induced by pricking the left heel tendon. The intensity and category of the gastrocnemius muscle surface electromygram signal were measured.
RESULTS AND CONCLUSION: Under normal condition, a high magnitude (400 μV) and wide bottom (4 seconds) voluntary wave was detected when voluntary gastrocnemius muscle contraction was induced by pricking the heel tendon. After cutting off the spinal cord, a low magnitude ( < 100 μV) and narrow bottom ( < 1 second) reflex wave was detected when reflexive gastrocnemius muscle contraction was induced by pricking the heel tendon. After severing the sciatic nerve, muscle contraction cannot be induced when pricking the heel tendon, the muscle or the sciatic nerve distal end. However, some very low magnitude ( < 10 μV) and very narrow bottom ( < 0.5 second) interference wave was detected during the procedures above. No surface electromyogram signal was detected when gastrocnemius muscle was in the passive motion. These findings suggest that rabbit gastrocnemius muscle surface electromyogram signal is generated before the muscle contraction. It is a combination of drive electrical signal transmitted to muscles, which is based on upper motor center, supplemented by lower motor center. Surface electromyogram signal cannot be generated by muscle contraction itself.

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