月经周期对交感神经皮肤反应和强度-持续时间特性的影响

IF 0.4 4区 医学 Q4 NEUROSCIENCES
A. Keskin, V. Yerdelen
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引用次数: 0

摘要

背景:交感神经对循环的控制在很大程度上受到女性生殖激素的影响。交感神经皮肤反应(SSR)可以很容易地评估Sudmotor功能。尽管研究表明,SSR振幅随着激素替代治疗而降低,但雌激素对SSR的影响尚不清楚。测量轴突兴奋性提供了关于轴突离子通道和神经的生理和物理特性的信息。轴突兴奋性测试也可能提供有关神经元疾病的病理生理学的有价值的信息。在这项研究中,我们研究了女性激素,特别是雌激素,对神经元兴奋性和交感神经系统的影响。方法:对平均年龄26±4岁、月经周期正常的健康女性进行SSR和强度-持续时间常数(SDTC)测试。这些测试是在月经周期的前3天进行的,当时雌激素水平最低,排卵前2天雌激素水平最高。结果:与月经周期前3天的值相比,排卵前2天的SDTC、rheobase和SSR潜伏期相对较短。讨论:排卵前2天和月经周期前3天的SDTC和SSR值无显著差异。我们认为这些参数不会影响与不同雌激素水平相关的神经元兴奋性。结论:需要进一步的研究来充分了解性激素在月经周期对神经系统的影响,这可以提示与自主神经和激素改变有关的各种疾病的潜在机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The effects of menstrual cycle on sympathetic skin response and strength–duration properties
Background: Sympathetic control of the circulation is considerably affected by female reproductive hormones. Sudomotor function can be easily evaluated with sympathetic skin response (SSR). Although studies reveal that SSR amplitude decreases with hormone replacement therapy, the effect of estrogen on SSR is unclear. Measuring axonal excitability provides information about the physiological and physical properties of axonal ion channels and nerves. Axonal excitability tests may also give valuable information about the pathophysiology underlying neuronal disorders. In this study, we investigate the influence of female hormones, especially estrogen, on neuronal excitability and the sympathetic nervous system. Methods: SSR and strength–duration time constant (SDTC) tests were conducted on healthy women with a mean age of 26 ± 4 years with regular menstrual cycles. The tests were performed during the first 3 days of the menstrual cycle when the level of estrogen is at its lowest and 2 days before ovulation when the estrogen is at its highest level. Results: SDTC, rheobase, and the latency of SSR were found to be relatively shorter at 2 days before ovulation when compared with the values of the first 3 days of the menstrual cycle. However, the difference was not statistically significant (P > 0.05). Discussion: The SDTC and SSR values in the 2 days before ovulation and the first 3 days of the menstrual cycle did not show any significant differences. We suggested that these parameters do not affect neuronal excitability associated with varied estrogen levels. Conclusion: Further research will be required to fully understand the influence of sex hormones on the nervous system in menstrual cycles, which can suggest underlying mechanisms of various diseases that are linked with autonomic and hormonal alterations.
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来源期刊
CiteScore
0.70
自引率
25.00%
发文量
4
审稿时长
26 weeks
期刊介绍: Neurological Sciences and Neurophysiology is the double blind peer-reviewed, open access, international publication organ of Turkish Society of Clinical Neurophysiology EEG-EMG. The journal is a quarterly publication, published in March, June, September and December and the publication language of the journal is English.
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