[Pathological changes in the nervous structures of the aortic wall tissue adjacent to an unstable atherosclerotic plaque]. / Patologicheskie izmeneniya nervnykh struktur v tkanyakh stenki aorty, prilezhashchikh k nestabil'noi ateroskleroticheskoi blyashke.

OBJECTIVE: To study of nerve structures in the aortic wall in atherosclerosis using a complex of immunohistochemical markers. MATERIAL AND METHODS: The objects of the study were excised fragments of the wall of the thoracic and abdominal aorta along with visually determined unstable atherosclerotic plaques. To study nerve structures on paraffin sections, immunohistochemical reactions were performed for the PGP 9.5 protein, tyrosine hydroxylase, and synaptophysin. RESULTS: It has been established that pronounced pathological changes are observed in the nervous structures of the aortic wall near unstable atherosclerotic plaques. Reactive, dystrophic, and severe degenerative changes in neurocytes, nerve fibers, and glial cells are described in the elements of the nervous apparatus of the adventitia (microganglia, nerve trunks, and nerve plexuses). It was found that only sympathetic neurons and their postganglionic fibers remain in the intramural ganglia, while the structures of the parasympathetic nervous apparatus undergo degeneration. Destruction of perivascular nerve plexuses and vasa vasorum in the adventitia, as well as degeneration of varicose axons of the main terminal synaptic plexus at the border of adventitia and superficial smooth muscle layer of the media were demonstrated. CONCLUSION: It is assumed that the presence of inflammatory infiltrates in the adventitia and intima, denervation and death of vasa vasorum can serve as factors determining the development of the atherosclerotic process.

[The role of neovascularization in the formation of an unstable human atherosclerotic plaque]. / Rol' neovaskulyarizatsii v formirovanii nestabil'noi ateroskleroticheskoi blyashki u cheloveka.

MATERIAL AND METHODS: The study material was 20 autopsy samples obtained from males aged 65 to 72 years who died from acute atherosclerotic cardiovascular insufficiency. Aortic segments (from the arch, thoracic and abdominal regions), coronary arteries and the arteries of the base of the brain (a. basilaris) were investigated; these totaled 45 tissue segments. Neovessels and cellular responses in the arterial wall were examined by hematoxylin and eosin staining. VEGF was immunohistochemically detected using a highly sensitive two-stage streptavidin-biotin method. RESULTS: In unstable atherosclerotic lesions, there were active neovascularization processes in both the fibrous cap and the underlying parts of the adventitia. These changes are usually combined with a pronounced cellular inflammatory response that can contribute to their development. Endothelial growth factor may be one of the causes of neovascularization in unstable atherosclerotic lesions. CONCLUSION: A comparative immunomorphological study in the human aorta, coronary arteries, and a. basilaris revealed active neovascularization processes in the cap and the underlying parts of the adventitia in unstable atherosclerotic lesions. The cause of this neovascularization is probably endothelial growth factor and cellular inflammatory responses.