[Clinical and morphological characteristics of lung sequestration].

Objective: To study the clinical and morphological manifestations of lung sequestration.

Material And Methods: Surgical material (lung tissue) of 18 patients (2017-2021) and 8 archival observations (1972-1994) of confirmed lung sequestration were examined. Histological staining (hematoxylin and eosin, Schiff reagent, Ziehl-Neelsen, picrofuchsin according to Van Gieson) and immunohistochemical reactions with antibodies to SMA, TTF1, CK5/6 (DAKO) were performed.

Molecular Hydrogen Reduces the Degree of Endothelial Alteration under Conditions of Chronic Heart Failure.

We studied the effect of molecular hydrogen H on the content of circulating endothelial cells and the macrohistological structure of the heart in rats with simulated chronic heart failure. Inhalation with 2% H was carried out repeatedly (40 min per day for 5 consecutive days) or once (40 min). Molecular hydrogen inhalations in both regimens caused a decrease in the number of circulating endothelial cells; the most pronounced effect was observed after repeated inhalations on day 14 after chronic heart failure modeling.

The Effect of Molecular Hydrogen on Functional States of Erythrocytes in Rats with Simulated Chronic Heart Failure.

Molecular hydrogen has an anti-inflammatory and cardioprotective effect, which is associated with its antioxidant properties. Erythrocytes are subjected to oxidative stress in pathologies of the cardiovascular system, which is the cause of a violation of the gas transport function of blood and microcirculation. Therefore, our aim was to investigate the effects of H inhalation on the functional states of red blood cells (RBCs) in chronic heart failure (CHF) in rats.

Dynamics of Metabolic and Oxidative Parameters of Erythrocytes during Treatment of Chronic Heart Failure with Molecular Hydrogen.

We studied the effect of molecular hydrogen (H) on the content of 2,3-diphosphoglyceric acid (2,3-DPG), ATP, malondialdehyde, and catalase activity in erythrocytes in chronic heart failure. Inhalation of 2% molecular hydrogen H was carried out for 40 min repeatedly (5 days) or once. Inhalation of H caused an increase in ATP concentration in both research groups, but was more pronounced after repeated inhalation.