ALTERATIONS OF LOCAL BLOOD FLOW IN THE PENUMBRA ZONE OF LOCAL CEREBRAL INFARCTION

The main objective of this study was to reveal the circulatory changes in the Penumbra zone of stroke, which was induced by the photochemical method in the cerebral cortex of the rats. It has been revealed that the maximum reduction in blood supply in the penumbra zone during permanent ischemia is achieved 24 hours after the completion of the process of inducing thrombosis of vessels. Therapeutic intervention to save the cells of the Penumbra zone, which are in the initial stages of apoptosis, it is advisable to carry out in the first 12 hours after the onset of stroke.The main objective of this study was to reveal the circulatory changes in the Penumbra zone of stroke, which was induced by the photochemical method in the cerebral cortex of the rats. It has been revealed that the maximum reduction in blood supply in the penumbra zone during permanent ischemia is achieved 24 hours after the completion of the process of inducing thrombosis of vessels. Therapeutic intervention to save the cells of the Penumbra zone, which are in the initial stages of apoptosis, it is advisable to carry out in the first 12 hours after the onset of stroke

POSSIBLE ROLE OF NITRIC OXIDE IN REGULATION OF MICROCIRCULATION IN THE ORAL CAVITY TISSUES OF RAT

Possible role of Nitric oxide (NO) in terms formation of basal blood flow level in oral cavity tissue is studied using the method of hydrogen electrochemical generation in anesthetized rats.It was found that NO plays a leading role in oral mucosa and submandibular gland basal blood flow regulation and does not have any significant effect on blood circulation of the lower snout tissue.Possible role of Nitric oxide (NO) in terms formation of basal blood flow level in oral cavity tissue is studied using the method of hydrogen electrochemical generation in anesthetized rats.It was found that NO plays a leading role in oral mucosa and submandibular gland basal blood flow regulation and does not have any significant effect on blood circulation of the lower snout tissue

Possible Role of Nitric Oxide in Regulation of Microcirculation in the Oral Cavity Tissues of Rat

Possible role of Nitric oxide (NO) in terms formation of basal blood flow level in oral cavity tissue is studied using the method of hydrogen electrochemical generation in anesthetized rats.It was found that NO plays a leading role in oral mucosa and submandibular gland basal blood flow regulation and does not have any significant effect on blood circulation of the lower snout tissue