Abstract
Today we know the location of the sources of arterial blood delivery to the corpus callosum and we can approximately say, where are situated the venous vessels that the blood outflows from it to, but it is absolutely unknown, what is the intermediate link – the blood microcirculatory channel. Aim of research. The aim of our research is in identification of the ways of venous outflow from corpus callosum and in clarification of the principle of structural organization of its hemomicrocirculatory channel. Materials and methods. In the work are used the median total preparations of the corpus callosum (together with septum pellucidum and cerebral fornix formations) of 10 men 36–60 years old. Histological paraffin sections, colored by hematoxylin and eosin and according to Van-gieson were made of these preparations, and the methods of plastination of the corpus callosum tissues in epoxy resin with further creation of polished sections of different width and serial fine sections of blocs, for which coloration served the 1 % solution of blue methene for 1% borax solution, were also used. Results. It was established, that the arterial microvessels, starting from vascular plexus that covers the upper surface of corpus callosum, penetrate it as arterioles along interfunicular connective tissue septs that divide its commissural funicles between them. The arterioles are prolonged directly in venous microvessels that can be related to gathering venules. These direct microvascular communications, coming through the thickness of corpus callosum, can be named perforating arteriolovenular anastomoses. The aforesaid collector venules, localized in the lowest sections of interfunicular interlayers, are the direct inflows of venous channel of septum pellucidum. In general system of blood supply of corpus callosum the main arteries on the one side and the veins of septum pellucidum – on the other, are not accompanied by the vessels of opposite type. Conclusions. The blood microcirculatory channel of corpus callosum is the complexly branched in its thickness net of resistive, metabolic and capacitive microvessels, placed on the running way between arterial channel of soft cerebral tunic that covers the upper surface of corpus callosum and collector veins of septum pellucidum, situated below it. The direct shunting tracts between them are perforating arteriolovenular anastomoses.
Highlights
The latest achievements in the development of knowledge about the structure and function of brain and its separate structural ensembles, including commissural connections between them are mainly conditioned by qualitatively new methods of magnetic-resonance tomography [1,2,3,4,5], which technology can measure cerebral activity, determining the associated changes in blood flow that is based on the common conception that neuron activation in any cerebral zone is attended by the local rise of blood flow
Results of research As the result of research it was established, that arterial microvessels, starting from vascular plexus that covers the upper surface of corpus callosum, penetrate into it as arterioles along interfunicular connective tissue septs that divide its commissural funicles between them
In general system of blood supply of corpus callosum the main arteries on the one side and the veins of septum pellucidum – on the other, are not accompanied by the vessels of opposite type
Summary
The latest achievements in the development of knowledge about the structure and function of brain and its separate structural ensembles, including commissural connections between them are mainly conditioned by qualitatively new methods of magnetic-resonance tomography [1,2,3,4,5], which technology can measure cerebral activity, determining the associated changes in blood flow that is based on the common conception that neuron activation in any cerebral zone is attended by the local rise of blood flow. The possibility to receive the many-section images in any plane, high resolution of the soft tissues contrasting made the magnetic-resonance tomography the irreplaceable method of the study in medicine in general and in neurology in particular [9,10,11,12,13]. It is obvious, that the correct interpretation of the results of such researches mainly depends on the scientists’ awareness about the features of morphological organization of the circulatory channel of any part (formation) of brain. Taking into account the fact that these well-known data will serve as starting points in our analysis of structure of circulatory channel of the corpus callosum, we give the brief reference of it
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