[Individual-specific symptoms of malignant neoplasms of the oropharynx occurring in otolaryngologist's practice].

According to statistical data given in the article the incidence of oropharyngeal cancer increases, despite the ease of access to the maxillofacial area and the possibility to make visual and manual examination of this site. It should be stressed that locally advanced oropharyngeal cancer of the III-IV stages was the first diagnosis in 82.9% of patients.

Effect of photodynamic therapy with photodithazine on morphofunctional parameters of M-1 sarcoma.

Efficiency and mechanisms of action of photodynamic therapy of M-1 sarcoma were studied experimentally on rats using photodithazine, a novel chlorine photosensitizer. The tissue and cellular targets for this agent are vascular wall, plasma membrane of tumor cells, and intracellular structures responsible for proliferation and biosynthesis.

Relationship between antitumor efficiency of photodynamic therapy with photoditasine and photoenergy density.

We studied the effect of photodynamic therapy with photoditasine at different protocols of photoenergy exposure on morphofunctional parameters of M-1 sarcoma. It was found that proliferative activity of tumor cells (evaluated by immunostaining for PCNA) nonlinearly decreases after exposure to 150, 300, and 600 J/cm2. The main form of cell death during the early period after photodynamic therapy was direct photocoagulation necrosis caused by destruction of sensitized cell structures and ischemic necrosis developing as a result of alteration of vascular network in the tumors.

Modification of delayed radiation-induced reactions of duodenal vessels and mast cells in old rats.

Pronounced ultrastructural changes in vessels and mast cells were observed in duodenal lamina propria of Wistar rats 1 year after single whole-body gamma-irradiation in a dose of 7.5 Gy. Inhibition of adrenocortical function with methopyrone reduced structural damage and improved animal survival.

Ultrastructure of the pineal gland after gamma-irradiation under conditions of inhibition of adrenocortical function.

Electron microscopy showed that whole-body gamma-irradiation in sublethal doses led to the appearance of injuries in pinealocytes, glial cells, and vessels of the pineal gland in rats. Limitation of the nonspecific effect of gamma-irradiation via inhibition of adrenocortical function with metopirone in physiological doses reduced the radiation-induced ultrastructural damage to the pineal gland.