Immunohistochemical study of the sympathetic innervation of the colon in chronic slow-transit constipation

Ei, Chumasov; Майстренко, Н. А.; Romashchenko, P. N.; Samedov, Vadim B.; Петрова, Е. С.; Коржевский, Д. Э.

doi:10.31146/1682-8658-ecg-207-11-191-197

jour

2023

DOI: 10.31146/1682-8658-ecg-207-11-191-197

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Immunohistochemical study of the sympathetic innervation of the colon in chronic slow-transit constipation

Chumasov Ei

Н. А. Майстренко

P. N. Romashchenko

et al.

Abstract: The purpose of this study is to determine the distribution and features of sympathetic innervation of the tissues of the human colon wall in chronic slow-transit constipation using immunohistochemical methods. Materials and methods. Immunohistochemical study of large intestine segments (colon and sigmoid colon) obtained as a result of surgical treatment of patients with chronic slow-transit constipation was carried out using neural markers (PGP 9.5 protein, tyrosine hydroxylase, synaptophysin). Results. It has… Show more

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Cited by 2 publications

References 19 publications

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Morphological features of basal laminas of enteral nervous system structures in chronic slow transit constipation

Chumasov,

Maistrenko,

Romashchenko

et al. 2023

Morphology

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BACKGROUND: Studies on basal lamins (BL) in the enteric nervous system are few and are carried out on experimental models, performed on animals. The structure and localization of BL, their cellular sources of origin in the gastrointestinal tract in normal and pathological conditions remain poorly studied.AIM: Study of morphological features and distribution of BL in human colon tissues and their changes in pathology.METHODS: Fragments of the large intestine, obtained as a result of surgery for chronic slow-transit constipation, were studied. The marker of BL, collagenIV, as well as neuronal and glial IHC-markers (PGP9.5 protein, GFAP, S100) were used in the work.RESULTS: It has been shown that the greatest immunoreactivity within the intestinal wall is observed in the myenteric membrane, weak - in the vessels of the submucosa, locally expressed - in the subepithelial region of the mucous membrane. BLs were found around the smooth muscle cells of the longitudinal and concentric layers of the muscular membrane, mucous membrane, veins and arteries, as well as in the endothelium. It has been shown that the Auerbach's plexus is delimited from closely adjacent muscle layers of a continuous BM, similar to the basal plate (glia limitans) of the CNS. It is clearly defined by its appearance - it has the form of a continuous hollow tubular structure. The sources of the formation of the BL around the ganglia of Auerbach and Meissner's plexuses are various glial elements. In the first plexus, astrocyte-like and non-myelinated Schwann cells, and in the second plexus, glia of the ANS (satellite cells and neurolemmocytes of postganglionic nerve fibers).CONCLUSION: For the first time, the transition of BL from the Auerbach's plexus to numerous basal plates of neurolemmocytes of the Remakov fibers of the main terminal nerve plexus, which are involved in the innervation of the smooth muscle cells of the muscular membrane, is shown. Signs of dystrophic changes in the BL structure associated with changes in chronic slow transit constipation (edema, inflammatory reactions, manifestations of agangliosis, gliosis, focal denervation of muscle cells, degeneration of nerve endings) are shown in the work.

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Morphological features of basal laminas of enteral nervous system structures in chronic slow transit constipation

Chumasov,

Maistrenko,

Romashchenko

et al. 2023

Morphology

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Pathological changes of glial cells in the enteric nervous system of the colon with chronic slow-transit constipation

Chumasov,

Maistrenko,

Romashchenko

et al. 2024

Sibirskij nauchnyj medicinskij zhurnal

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The origin, development and differentiation of enteric nervous system neuroglia and its involvement in the pathogenesis of gastrointestinal diseases and neurodegenerative diseases have been little studied.Aim of this work is a comparative morphological study of glial cells in the ganglionic plexuses of the enteric nervous system and analysis of neuroglial relationships in chronic slow-transit constipation using immunohistochemical methods.Material and methods. Resection material obtained at the Department of Faculty Surgery, S.P. Fedorov Faculty of Surgery of S.M. Kirov Military Medical Academy during planned surgical operations was used. The objects of the study were fragments of the sigmoid and colon obtained as a result of surgery for chronic slow-transit constipation (five cases, women aged 37–40 years). The study was carried out using immunohistochemical glial markers (GFAP, S100β protein, etc.).Results. Two types of glia were found in the myenteric ganglionic plexus of the large intestine: astrocyte-like and neurolemmocytic. The astrocyte-like type is similar to the neuroglia of the central nervous system, the neurolemmocytic type is similar to the glia of the autonomic nervous system. It has been established that astrocyte-like glia is found only in the Aauerbach ganglionic plexus, while neurolemmocytes are found in all innervated tissues of the intestinal wall. Reactive, dystrophic and degenerative changes in neurocytes, glial elements, agangliogenosis in the Auerbach plexus were found in all cases of chronic slow-transit constipation. Destructive changes in the neuromuscular terminal plexuses, interstitial edema and inflammatory monocytic reaction and leukocyte infiltration in the intestinal mucosa and intestinal submucosa, found in several cases.Conclusions. The results obtained allow classifying chronic slow-transit constipation as a neurodegenerative disease.

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Immunohistochemical study of the sympathetic innervation of the colon in chronic slow-transit constipation

Cited by 2 publications

References 19 publications

Morphological features of basal laminas of enteral nervous system structures in chronic slow transit constipation

Morphological features of basal laminas of enteral nervous system structures in chronic slow transit constipation

Pathological changes of glial cells in the enteric nervous system of the colon with chronic slow-transit constipation

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