Hsu Michael, Stevenson Fang F
Myoscience, Inc., Redwood City, California, 94063, USA.
Muscle Nerve. 2015 Feb;51(2):268-75. doi: 10.1002/mus.24306. Epub 2014 Dec 23.
A device has been developed to apply freezing temperatures to temporarily impede nerve conduction, resulting in inhibition of voluntary skeletal muscle contraction. This device was designed as an alternative to the neurotoxins usually used to treat movement disorders.
We evaluated the effects of single and 3 repeat treatments with a cryoprobe device (-55°C) on a sciatic nerve rat model. Long-term effects of repeated treatment were evaluated through assessments of physiological function and histological analysis.
There was consistent weakening of physiological function after each treatment, with recovery of normal function by 8 weeks posttreatment. Histological findings showed axonal degeneration with no disruption to the epineurial or perineurial structures. Progressive axonal regeneration was followed by normal recovery by 24 weeks post-treatment.
Low-temperature treatment of motor nerves did not result in permanent or long-term changes to nerve function or structure.
已研发出一种能施加冷冻温度以暂时阻碍神经传导的装置,从而抑制随意性骨骼肌收缩。该装置被设计用作通常用于治疗运动障碍的神经毒素的替代物。
我们评估了使用冷冻探头装置(-55°C)对大鼠坐骨神经模型进行单次及3次重复治疗的效果。通过生理功能评估和组织学分析来评估重复治疗的长期效果。
每次治疗后生理功能均持续减弱,治疗后8周恢复正常功能。组织学结果显示轴突变性,但神经外膜或神经束膜结构未受破坏。轴突逐渐再生,治疗后24周正常恢复。
运动神经的低温治疗未导致神经功能或结构的永久性或长期改变。