Zenin Oleg Konstantinovich, Doctor of medical sciences, professor, sub-department of human anatomy, Medical Institute, Penza State University (40, Krasnaya street, Penza, Russia), E-mail: firstname.lastname@example.org
Dmitriev Andrey Viktorovich, Candidate of medical sciences, head of the department of x-ray endovascular surgery, Institute of Emergency and Reconstructive Surgery named after V. K. Gusak (47, Leninsky avenue, Donetsk, Ukraine), E-mail: email@example.com
Dovgyallo Yuliya Viktorovna, Candidate of medical sciences, associate professor, sub-department of human anatomy, Donetsk National Medical University named after M. Gorky (16, Ilicha avenue, Donetsk, Ukraine), E-mail: firstname.lastname@example.org
Gavryushin Maksim Andreevich, Student, Medical Institute, Penza State University (40, Krasnaya street, Penza, Russia), E-mail: email@example.com
Background. Improving the methods of intravital imaging of the vascular bed, the ability to refine even the smallest details of its structure requires detailed knowledge of the morphometric patterns of the structure of the vessels of the convexital surface of the cerebral hemispheres. The subject of the study was morphometric parameters characterizing the arterial bed of the human brain in accordance with the segmental model of its structure. The purpose of the work is to establish morphometric patterns of the structure of the arterial bed of the brain.
Materials and methods. To achieve the goal of the study, 5 men aged 46–57 years old were studied and morphometrically analyzed for corrosion of the arterial bed of the brain of 5 men.
Results. The morphometric indicators quantitatively characterizing the normal structure of the intraorgan arterial bed of the brain are determined. The presence or absence of significant correlation dependencies between the values of indicators quantitatively characterizing the arterial bed of the human brain in accordance with the segmental model of its structure is established. The morphometric heterogeneity of the “population” of arterial segments that make up the bed is determined and proved.
Conclusions. The established morphometric patterns of the structure of the arterial bed of the human brain can later serve as the basis for mathematical modeling, the basis for assessing the adequacy of blood supply to various parts of the brain.
1. Stepanenko A. Yu. Eksperimental'naya i teoreticheskaya meditsina [Experimental and theoretical medicine]. 2017, no. 2 (75), pp. 44–48. [In Russian]
2. Rabinovich R. M. Terapevticheskiy arkhiv [Therapeutic archive]. 2008, no. 9, pp. 17–20. [In Russian]
3. Gladilin Yu. A. Variantnaya anatomiya vnutrenney sonnoy arterii, arterial'nogo kruga bol'shogo mozga i mozgovykh arteriy: avtoref. dis. d-ra med. nauk: 14.03.01 [Variant anatomy of the internal carotid artery, arterial circle of the cerebrum and cerebral arteries: author's abstract of dissertation to apply for the degree of the doctor of medical sciences: 14.03.01]. Saransk, 2004, 243 p. [In Russian]
4. Zenin O. K. Morfofunktsional'nye printsipy organizatsii arterial'nogo rusla bol'shogo kruga krovoobrashcheniya: dis d-ra. med. nauk: 14.03.01 [Morphofunctional principles of the organization of the arterial channel of a large circle of blood circulation: dissertation to apply for the degree of the doctor of medical sciences: 14.03.01]. Kiev, 2005, 468 p. [In Russian]
5. Lyakh Yu. E., Gur'yanov V. G., Khomenko V. N., Panchenko O. A. Osnovy komp'yuternoy biostatistiki: analiz informatsii v biologii, meditsine i farmatsii statitsticheskim paketom MedStat [Basics of computer biostatistics: analysis of information in biology, medicine and pharmacy with the statistical MedStat package]. Donetsk: Papakitsa E. K., 2006, 214 p. [In Russian]