T. V. Shefer scite author profile

T. V. Shefer

5Publications

8Citation Statements Received

10Citation Statements Given

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Kirov Military Medical Academy

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Untitled

Shefer

Ivnitskii

Malakhovskiĭ

2003

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Injection of sodium succinate in doses of 5 or 10 mmol/kg (but not 1 mmol/kg) intensified oxygen consumption in rats with sodium thiopental-induced coma. Injection of SDH inhibitor (sodium malonate) inhibited gas exchange and abolished the effect of sodium succinate. The effect of succinate on rat survival was positive, while that of malonate was negative, but manifested only as a trend. The critical role of succinate oxidation in preventing lethal complications of barbiturate-induced coma is proved.

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Changes in the Chemical Composition of Blood and Brain of Rats Under the Conditions of Modeling of the Myeloablation Regimen of Cyclophosphamide Administration

Ивницкий

Shefer²,

Тяптин³

et al. 2019

Toksikologičeskij vestnik

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When modeling myeloablation cytostatic chemotherapy with cyclophosphamide in rats fulminant hyperammonemia was observed accompanied by an increase in the content of ammonia and glutamine, a decrease in the content of pyruvic and lactic acids in brain tissue. A positive correlation between the indicators of azotemia and the content of ammonia and glutamine in brain tissue was established. In loading test with ammonium acetate changes in the chemical composition of blood and brain tissue were more pronounced. The data obtained indicate the intensification of the intake of gastrointestinal ammonia into the brain from the blood, which leads to the depletion of the tissue pool of pyruvate with the introduction of cyclophosphane in doses used for myeloablation. Such changes create the conditions for disruption of energy supply of neurological functions during myeloablative cytotoxic chemotherapy using cyclophosphamide.

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Hyperammoniemia in rats with barbiturate coma

et al. 2007

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Sodium thiopental in the comatogenic (but not soporogenic) dose caused hyperammoniemia in rats. Blood ammonium level increased 3-fold within 3 h and 5-fold within 18 h. Blood urea level increased by one-third within 18 h against the background of unchanged creatinine level and hematocrit. Urinary excretion of ammonium did not decrease, while its release with exhaled air increased, indicating intensification of ammonium formation in the body. Barbiturate coma did not change the slope of curves of dose-dependent increase of ammonium or urea levels in the blood of rats injected with ammonium acetate, which attested to the absence of appreciable disorders in the ammonium detoxifying function of the liver. Ammonium hyperproduction could be caused by gastrointestinal stasis verified by X-ray examination and confirmed by correlation between blood urea level and stool retention in narcotized rats.

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Synergism of isothermal regimen and sodium succinate in experimental therapy of barbiturate coma

2006

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In rats with experimental thiopental coma rectal temperature decreased by 9.4 degrees C, oxygen consumption 5-fold, and arteriovenous Po(2)gradient decreased 2-fold within 3 h; CO(2)accumulated in the blood and mixed type acidosis developed. Administration of sodium succinate under these conditions increased arteriovenous Po(2)gradient and reduced manifestations of metabolic acidosis. Maintenance of normal body temperature (warming) corrected primarily manifestations of respiratory acidosis. Each therapeutic agent reduced inhibition of O(2)consumption by 1/4; animal survival tended to increase from 42 to 50%. Combined use of these treatments potentiated the antiacidotic effect and increased survival to 92%. The authors conclude that hypothermia inhibits the therapeutic effect of succinate in barbiturate coma.

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Metabolic Correction of Gas Exchange Disturbances in Rats with Barbiturate Coma

Shefer

2004

Bulletin of Experimental Biology and Medicine

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Krebs cycle intermediates normalized gas exchange and decreased the mortality rate in rats with barbiturate coma. Treatment with other substrates including glucose and products of glycolysis was ineffective. Oxygen inhalation had no effect on oxygen consumption and indexes of external respiration. Our results suggest that deficiency of endogenous intermediates of the Krebs cycle, but not disturbances in oxygen mass transfer, serves as a limiting factor for oxygen consumption in rats with barbiturate coma.

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T. V. Shefer

Untitled

Changes in the Chemical Composition of Blood and Brain of Rats Under the Conditions of Modeling of the Myeloablation Regimen of Cyclophosphamide Administration

Hyperammoniemia in rats with barbiturate coma

Synergism of isothermal regimen and sodium succinate in experimental therapy of barbiturate coma

Metabolic Correction of Gas Exchange Disturbances in Rats with Barbiturate Coma

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