Structural damage of myelin in experimental Parkinsonism and prospects for their drug correction in the clinic of Parkinson's disease

Issue 2 2022 Pub Date : 2022-05-09 DOI:10.47855/jal9020-2022-2-3

K. Rozova, Tatiana Gasyuk, N. Karasevich, I. Karaban

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Abstract

Changes in myelin ultrastructure under experimental Parkinsonism in the tissues of the medulla oblongata and striatum were performed under experimental Parkinsonism induced by rotenone administration in 30 adult rats of the Wistar line. Clinico-electromyographic studies were performed on patients with Parkinson's disease with a stage of disease 2.0 -3.0 (Hoehn a. Yahr). Efficacy of Cerebrolysin has been shown to correct myelin abnormalities to elucidate the effect on the muscle reflex response to irritation of sensitive nerve fibres of the mixed nerve with subsequent monosynaptic activation of motor neurons and spinal cord neurons. One of the mechanisms associated with myelin damage in Parkinsonism is the development of mitochondrial dysfunction, in any case, its ultrastructural component. The use of Cerebrolysin leads to a significant elimination of mitochondrial dysfunction and myelin damage. It can be assumed that the positive effect of the drug lies in the antioxidant effect, which, in turn, effect the transmembrane conductivity, which should be considered one of the neuroprotective effects of the drug. Keywords: experimental Parkinsonism; Parkinson's disease; myelin; medulla oblongata; sriatum; mitochondrial dysfunction; transmembrane conductivity; cerebrolysin.

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实验性帕金森病髓磷脂结构损伤及其在帕金森病临床药物矫正的前景

研究了30只Wistar系成年大鼠在鱼藤酮诱导的实验性帕金森病下延髓和纹状体组织髓鞘超微结构的变化。对2.0 -3.0期帕金森病患者进行临床肌电图研究(Hoehn a. Yahr)。脑溶素的功效已被证明可以纠正髓磷脂异常，以阐明对混合神经敏感神经纤维刺激的肌肉反射反应的影响，随后运动神经元和脊髓神经元的单突触激活。与帕金森病髓磷脂损伤相关的机制之一是线粒体功能障碍的发展，无论如何，它的超微结构成分。使用脑溶素可显著消除线粒体功能障碍和髓磷脂损伤。可以认为，药物的积极作用在于抗氧化作用，而抗氧化作用又影响了跨膜电导率，这应该被认为是药物的神经保护作用之一。关键词:实验性帕金森病;帕金森病;髓鞘;延髓;sriatum;线粒体功能障碍;跨膜电导率;cerebrolysin。

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Issue 2 2022

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