磁刺激

  • 网络magnetic stimulation;Transcranial magnetic stimulation;tms;rTMS
磁刺激磁刺激
  1. 目的研究经颅磁刺激对运动传导通路的易化作用及其在脑卒中运动功能康复中的作用。

    ObjectiveWe discussed the effect of TMS on the motor conduction pathway and studied the function of TMS in the motor function of patients with stroke .

  2. 阐述了经颅磁刺激系统的设计和制作,其各项技术参数均能达到TMS实验研究的要求。

    This paper expounds the design and manufacture of the TMS system , which meets all the requirements of the TMS study and clinical diagnosis and treatments .

  3. 周围运动神经传导时间可由电或磁刺激脊髓神经根测量F波的潜伏期而得。

    Peripheral motor conduction time by electric or magnetic stimulation of spinal nerve root measurement of F wave latency .

  4. 磁刺激对脊髓损伤后脊髓组织c-fos基因表达的影响

    Effects of Magnetic Stimulation on c-fos Gene Expression in Spinal Cord after SCI

  5. 磁刺激中脑内感应电磁场分布的FDTD计算

    Calculation of Induced Electric and Magnetic Field in a Spherical Brain during Magnetic Stimulation Using FDTD Method

  6. 睡眠剥夺对青少年肌阵挛性癫痫患者皮质兴奋性的影响:经颅磁刺激和EEG的联合研究

    Effects of sleep deprivation on cortical excitability in patients affected by juvenile myoclonic epilepsy : A combined transcranial magnetic stimulation and EEG study

  7. 重复经颅磁刺激对抑郁症患者的抑郁程度和HPA轴的影响

    The Influences of Repetitive Transcranial Magnetic Stimulation on Depressive Degree and Hypothalamic-pituitary-adrenal Axis in the Patients with Depression

  8. 经颅重频磁刺激对Wistar大鼠大脑中动脉梗塞再灌流损伤模型影响初步探讨

    Study on the Effects of Repetitive Transcranial Magnetic Stimulation ( rTMS ) on the Middle Cerebral Artery Occlusion Reperfusion Injury Model of Wistar Rats

  9. 其中一项研究热点为重复经颅磁刺激(repetitiveTranscranialMagneticStimulation,rTMS)在精神疾病,尤其是抑郁症中的治疗性应用。

    One of the study focuses is repetitive transcranial magnetic stimulation ( rTMS ) as a treatment for psychiatric disorders , in particular , depression .

  10. 经颅磁刺激后脑梗死大鼠学习记忆与海马c-Fos的表达

    Effects of transcranial magnetic stimulation on the abilities of learning and memory and the expression of c-Fos in hippocampus of rats with cerebral infarction

  11. 目的探讨低频脉冲磁刺激对大鼠牙髓组织内降钙素基因相关肽(CGRP)免疫阳性的神经纤维的影响。

    Objective To investigate the effects of impulse magnetic stimulation ( IMS ) on calcitonin gene-related peptide ( CGRP ) in rat dental pulp .

  12. 目的探讨低频重复经颅磁刺激(rTMS)对帕金森病(PD)的治疗作用。

    Objective To study the efficacy and safety of treating Parkinson disease ( PD ) by repetitive transcranial magnetic stimulation ( rTMS ) .

  13. 另一个技术,称为颅磁刺激(TMS),也提出了增加的诺言。

    Another technology , known as transcranial magnetic stimulation ( TMS ), also holds out the promise of enhancement .

  14. 前言:目的:观察经颅脉冲磁刺激(TIMS)大鼠对青霉素所致大脑皮层样放电的作用。

    Objectives : To observe the effect of transcranial impulse magnetic stimulation ( TIMS ) on the cerebral cortex epileptiform discharges induced by penicillin sodium in rats .

  15. 脑电信号的功率谱分析:急性期磁刺激干预组和联合治疗组脑电信号的总功率较模型组下降,其中联合治疗组下降明显(P<0.05),差异有统计学意义。

    When EEG signals analysed using linear dynamics , we found that the overall power spectrum decreased in the magnetic stimulation group given after KA injected , and the therapeutic alliance group showed a significant decreased compared with the model group ( P0.05 ) .

  16. 目的观察功能性磁刺激(FMS)治疗脊髓损伤患者神经源性膀胱的疗效。

    Objective To assess the efficacy of functional magnetic stimulation ( FMS ) in treatment of neurogenic dysfunction of bladder and urethra in patients with spinal cord injury .

  17. 采用经颅磁刺激运动诱发电位(MEP)对72例脑血管病(CVD)患者和50例正常人进行检测。

    72 patients with cerebrovascular diseases ( CVD ) and 50 normal controls were examined by motor evoked potentials of transcranial magnetic stimulation ( MEP ) .

  18. 对70名健康人进行磁刺激运动诱发电位(MEP)上下肢周围段测定。

    Abstract The peripheral segments of magnetic evoked potential ( MEP ) of upper and lower extremities were determined in 70 healthy adults .

  19. 经颅磁刺激对局灶性脑缺血大鼠梗死周边区GAP-43和Syp表达的影响

    The effects of transcranial magnetic stimulation on the expressions of GAP-43 and Syp in rats with focal cerebral infarction

  20. 但当他们用一种名为经颅磁刺激(transcranialmagneticstimulation)的非侵入性过程,暂时阻断志愿者的大脑皮层时,实验对象不再调整自身行为来服从群体行为。

    But when they temporarily shut down the cortices of the volunteers with a non-invasive procedure known as transcranial magnetic stimulation , the subjects ceased to adjust their behaviour to comply with that of the group .

  21. 自传体记忆神经机制的经颅磁刺激(TMS)研究

    The Neural Mechanisms of Autobiographical Memory by Transcranial Magnetic Stimulation ( TMS ); Microsurgical Decompression of Traumatic Optic Neuropathy via Transcranial Approach

  22. 研究磁刺激运动诱发电位(MEP)对高位颈髓损伤患者膈肌功能状态的诊断及预后判断价值。

    To study the diagnosis and prognostic evaluation of diaphragm function in the patients with upper cervical spinal cord injuries with magnetic stimulated MEP .

  23. CREB磷酸化在电针结合重复经颅磁刺激激活脑缺血后内源性神经再生的作用机制研究

    Role of CREB Phosphorylation in Neurogenesis in Vivo Activated by Electro-acupuncture Combined with Repetitive Transcranial Magnetic Stimulation after Focal Cerebral Ischemia

  24. 方法:20例神经源性膀胱患者采用MagLite型磁刺激仪,经S3神经根和膀胱区行FMS治疗,每日2次,5d/周,4-6周1个疗程。

    Methods : Twenty patients accepted FMS of the sacral nerves at S 3 and bladder area , twice every day , 5 days / week , 4-6 weeks .

  25. 电刺激MEP波幅比磁刺激高2.47~41倍(平均11.3倍);

    The amplitude of MEP by electric stimulation was 2 . 47-41 times ( average 11 . 3 ) higher than that by magnetic stimulation .

  26. 近阈值电刺激MEP与相应的超强磁刺激MEP潜伏期相近,波幅也相差不大。

    The latency and amplitude of MEP elicited by near threshold electric stimulation were similar to that of MEP evoked by super intensive magnetic stimulation .

  27. 目的比较功能性磁刺激(FMS)和骶神经电刺激(SNS)治疗神经原性膀胱排尿功能障碍的疗效。

    Objective : To assess the efficiency of functional magnetic stimulation ( FMS ) and sacral nerve stimulation ( SNS ) in patients of neurogenic dysfunction of bladder and urethra .

  28. 经颅重复性低频磁刺激后大鼠海马ΔFosB阳性标记的变化

    Effects of repetitive transcranial magnetic stimulation on Δ FosB expressions in rat hippocampi

  29. 科恩・卡多什博士最初是在以色列上大学时想到了这种可能性。当时他用经颅磁刺激术(transcranialmagneticstimulation)做了一次实验(经颅磁刺激术采用磁性线圈来形成更强大的电流。)

    Dr. Cohen Kadosh first thought about the possibility as a university student in Israel , where he conducted an experiment using transcranial magnetic stimulation , a tool that employs magnetic coils to induce a more powerful electrical current .

  30. 磁刺激面神经时线圈的不同位置可以影响面肌复合动作电位(CMAP)的结果。

    Varying CMAP results with changing coil location during magnetic stimulation of facial nerve have been noted in the literature .