E. S. Terekhina scite author profile

E. S. Terekhina

3Publications

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Saratov State Medical University

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Assessment of the Toxic Influence of Atmospheric Air Pollutants in the Saratov Region During the Forest Fires

Karetnikova

Terekhina

Shlyapnikov

et al. 2020

Toksikologičeskij vestnik

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The article is devoted to the hygienic assessment of the potential risk of general toxic effects for the health of the population in the Saratov region as a result of action of pollutants (carbon monoxide, nitrogen mono - and dioxides, ammonia, dust, formaldehyde) during forest fires. The relevance of this work is due to the significant role of forest fires in air pollution and the special vulnerability of the Saratov region to forest fires. The results of the study allow to judge the significant role of forest fires in air pollution in the Saratov region: there are significant excesses of the hygienic permissible levels of maximum single and average daily concentrations of pollutants (nitrogen mono- and dioxides, ammonia, dust, formaldehyde), which create an unfavorable environmental situation, contribute to the development and progression of many human diseases.

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Сoagulation hemostasis in experimental light desynchronosis

Киричук¹,

Ivanov²,

Злобина³

et al. 2021

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Введение. Патологическое повышение активности свертывающей системы вызывает нарушение реологических свойствкрови, является фактором риска развития тромбоза крупных сосудов и возникновения ишемической болезни сердца, инфаркта миокарда, тромбофилии и ДВС-синдрома. Цель исследования: изучение влияния светового десинхроноза на функциональную активность коагуляционного механизма гемостаза в эксперименте. Материалы и методы. Экспериментальное исследование было выполнено на 36 нелинейных самцах белых крыс, разделенных на 3 группы: контрольную группу, не подвергавшуюся воздействию светового десинхроноза, и 2 опытных, находившихся в условиях искусственного освещения на протяжении 10 и 21 суток, соответственно. Состояние коагуляционного звена системы гемостаза оценивали по следующим показателям: активированное частичное тромбопластиновое время, протромбиновое время и концентрация фибриногена. Антикоагулянтную активность крови оценивали путем определения активности в плазме крови антитромбина III. Состояние фибринолитической системы оценивали по концентрации в плазме растворимых фибрин-мономерных комплексов и D-димеров. Для динамической оценки активности тромбина применяли тест генерации тромбина. Результаты. Установлено негативное влияние светового десинхроноза на состояние гемостаза. На 10-е сутки эксперимента выявлено компенсаторное повышение активности противосвертывающей и фибринолитической систем. Нахождение подопытных животных в условиях длительной световой депривации на протяжении 21 суток способствовало развитию стресса и сдвигу системы гемостаза в сторону гиперкоагуляции. Заключение. Результаты проведенного экспериментального исследования позволяют сделать вывод о возникновении стресс-реакции у подопытных животных под воздействием светового десинхроноза, а также о гиперкоагуляционных нарушениях равновесия в системе гемостаза, что создает предпосылки для формирования тромбинемии. Background. A pathological increasing of coagulation activity causes disorders of blood rheological properties, that is a risk factor for large vessels thrombosis and coronary heart disease, myocardial infarction, thrombophilia and disseminated intravascular coagulation. Objectives: to study the effect of light desynchronosis on the functional activity of hemostasis coagulation mechanism in experiment. Materials/Methods. The experimental study was carried out on 36 nonlinear male white rats, divided into 3 groups: a control group that was not exposed to light desynchronosis, and 2 experimental groups under artificial lighting for 10 and 21 days, respectively. Coagulation hemostasis was assessed by following parameters: activated partial thromboplastin time, prothrombin time, and fibrinogen content. Anticoagulant blood activity was assessed by antithrombin III activity. Plasma levels of soluble fibrin-monomeric complexes and D-dimers were used for fibrinolytic system assessment. The thrombin generation assay was used for thrombin activity assessment. Results. Light desynchronosis negatively impact hemostasis. On the 10th day of the experiment we revealed a compensatory increasing of anticoagulant and fibrinolytic activities. Exposure of experimental animals to prolonged light deprivation for 21 days caused stress development and hemostasis shift towards hypercoagulation. Conclusions. Light desynchronosis leads to stress reaction in experimental animals as well as to hypercoagulable hemostasis disorders that creates the preconditions for thrombinemia.

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Changes in the Functional Activity of Platelets during Experimental Exposure to Prolonged Photoperiod

et al. 2021

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E. S. Terekhina

Assessment of the Toxic Influence of Atmospheric Air Pollutants in the Saratov Region During the Forest Fires

Сoagulation hemostasis in experimental light desynchronosis

Changes in the Functional Activity of Platelets during Experimental Exposure to Prolonged Photoperiod

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