Functional and clinical morphology of Virchow-Robin spaces: from the discovery up to the newest theories

A. Dolzhikov, O. Shevchenko, A. Pobeda, I. Dolzhikova
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Abstract

Morphology of cerebrospinal fluid flow structures in CNS is an important and complex area of research and is associated with the problems of metabolites transport, including pathological ones in neurodegenerative pathology, e.g., Alzheimer's disease. Since Virchow and Robin first described the perivascular spaces in the 19th century, their role in the transport of cerebrospinal fluid and intracerebral metabolites has been established. On the grounds of the 20th century studies, a modern theory of intracerebral liquor transport of metabolites, the glymphatic system theory, has emerged, creating the basis for new areas of treatment of neurodegenerative diseases. The article presents an overview of the history of description and study of CNS perivascular transport pathways, terminology issues and clinical problems such as amyloid transport and its disruption as a mechanism of Alzheimer's disease and glaucoma. We present our own descriptive data on the morphology of the perivascular spaces (PVS) of the rat brain in normal and simulated glaucoma-like increases in intraocular pressure. Structures corresponding to perivascular spaces (PVS) in their original description are present in the rat brain along arteries and arterioles. They are represented by intervals between the medium and adventitia, in the adventitia, and between the adventitia and the inner pial fibrous layers. At the level of capillaries they are closed. In the venous link there are only paravenular spaces between the vascular wall and glial boundary membrane. Periarterial-like leptomeningeal structures and spaces are absent. In glaucoma-like experimental increase in intraocular pressure, the periarterial spaces respond with expansion, and in addition to them, intermyocyte spaces are formed in the medium On the basis of glymphatic theory we propose the possibility of regulation of intracerebral metabolic transport and hydrodynamic system”eye - optic nerve -brain” via vascular mechanisms of perivascular transport.
Virchow-Robin空间的功能与临床形态学:从发现到最新理论
中枢神经系统中脑脊液流动结构的形态学是一个重要而复杂的研究领域,与代谢物运输问题有关,包括神经退行性病理(如阿尔茨海默病)中的病理问题。自从Virchow和Robin在19世纪首次描述血管周围空间以来,它们在脑脊液和脑内代谢物运输中的作用已经确立。在20世纪研究的基础上,出现了代谢物脑内液体运输的现代理论,即淋巴系统理论,为神经退行性疾病的新治疗领域奠定了基础。本文概述了CNS血管周围转运途径的描述和研究的历史,术语问题和临床问题,如淀粉样蛋白转运及其破坏作为阿尔茨海默病和青光眼的机制。我们在正常和模拟青光眼样眼压升高的大鼠脑血管周围间隙(PVS)形态学上提出了我们自己的描述性数据。在大鼠大脑中,沿着动脉和小动脉存在与原始描述中的血管周围空间(PVS)相对应的结构。它们由中膜与外膜之间、外膜内、外膜与内枕纤维层之间的间隙表示。在毛细血管的水平上,它们是闭合的。在静脉袢中,血管壁和胶质边界膜之间只有静脉旁间隙。动脉周围样的小脑膜结构和间隙缺失。在青光眼样眼压增高实验中,动脉周围空间响应扩张,同时在介质中形成肌间细胞空间。基于类淋巴细胞理论,我们提出通过血管周围运输的血管机制调节脑内代谢运输和水动力系统“眼-视神经-脑”的可能性。
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