氧化亚氮相关性周围神经病的电生理特征:76例患者的回顾性研究
Electrophysiologic Characteristics of Nitrous-Oxide-Associated Peripheral Neuropathy: A Retrospective Study of 76 Patients.
作者信息
Fang Xiuying, Yu Miao, Zheng Dongming, Gao Han, Li Weishuai, Ma Ying
机构信息
Department of Neurology, Shengjing Hospital of China Medical University, Shenyang, China.
出版信息
J Clin Neurol. 2023 Jan;19(1):44-51. doi: 10.3988/jcn.2023.19.1.44.
BACKGROUND AND PURPOSE
The electrophysiologic characteristics of peripheral neuropathy secondary to nitrous oxide (NO) abuse remain unclear. The paper therefore aimed to summarize the electrophysiologic characteristics of NO-associated peripheral neuropathy and identify the risk factors of severe nerve injury.
METHODS
The electrophysiologic results and clinical data of patients with peripheral neuropathy secondary to NO abuse at our hospital between 2018 and 2020 were analyzed retrospectively, and their electrophysiologic changes were summarized.
RESULTS
Most patients exhibited decreased sensory and motor nerve conduction velocities (75% and 76%), decreased sensory nerve and compound motor action potentials (57% and 59%), and prolonged distal motor latency (59%), while a response was absent in 36%. These findings indicate that NO abuse can result in generalized injury to sensory and motor nerves. Electrophysiologic results indicated axonal neuropathy in 37 cases (49%), demyelinating peripheral neuropathy in 4 (5%), and mixed neuropathy in 12 (16%). Peripheral nerve injury was more common in the lower limbs (72%) than in the upper limbs (42%, <0.0001). The upper and lower limbs were primarily affected by sensory nerve demyelination (35%) and motor axonal injury (67%), respectively. Subgroup analysis indicated that longer NO exposure and longer disease course were associated with more-severe motor axonal injury in the lower limbs.
CONCLUSIONS
NO-associated peripheral neuropathy can lead to sensory and motor nerve injury, with axonal injury being the most common. Injuries were more severe in the lower limbs. Prolonged NO exposure and disease course increased the severity of motor axonal injury in the lower limbs.
背景与目的
一氧化二氮(NO)滥用所致周围神经病变的电生理特征尚不清楚。因此,本文旨在总结与NO相关的周围神经病变的电生理特征,并确定严重神经损伤的危险因素。
方法
回顾性分析2018年至2020年我院因NO滥用继发周围神经病变患者的电生理结果和临床资料,总结其电生理变化。
结果
大多数患者感觉和运动神经传导速度降低(分别为75%和76%),感觉神经和复合运动动作电位降低(分别为57%和59%),远端运动潜伏期延长(59%),36%无反应。这些结果表明,NO滥用可导致感觉和运动神经的广泛性损伤。电生理结果显示37例(49%)为轴索性神经病变,4例(5%)为脱髓鞘性周围神经病变,12例(16%)为混合性神经病变。周围神经损伤在下肢(72%)比上肢(42%,<0.0001)更常见。上肢和下肢主要分别受感觉神经脱髓鞘(35%)和运动轴索损伤(67%)影响。亚组分析表明,NO暴露时间越长和病程越长与下肢更严重的运动轴索损伤相关。
结论
与NO相关的周围神经病变可导致感觉和运动神经损伤,其中轴索损伤最为常见。下肢损伤更严重。NO暴露时间延长和病程增加了下肢运动轴索损伤的严重程度。
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