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Post a Comment Temperature of animals and enhanced pressure of nitrogen-oxygen mixture
- Authors: Luchakov Y.I1, Vyotosh A.N2, Shabanov P.D3
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Affiliations:
- IP Pavlov Institute of Physiology, Russian Academy of Sciences
- IM Sechenov Institute of Evolutionary Physiology and Biochemistry, Russian Academy of Sciences
- SM Kirov Military Medical Academy
- Issue: Vol 14, No 4 (2016)
- Pages: 67-70
- Section: Articles
- URL: https://journal-vniispk.ru/RCF/article/view/5926
- DOI: https://doi.org/10.17816/RCF14467-70
- ID: 5926
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Abstract
The rat thermoregulation in conditions of enhanced pressure in inhalation gas environment was assessed both experimentally and using mathematical model. All experiments were carried out on rats in barocamera, where the pressure of gas environment was increased gradually up to 4.1 МPа. The pressure enhancement of gas environment up to 2.1 MPa stimulated oxygen consumption in 1.7-fold, when pressure enhancement up to 4.1 MPa did it up to 2.3-fold. The thermoneutral zone of rats was gradually reduced in these conditions, e.g. with enhancement of preasure. Using mathematical model we have shown that pressure enhancement up to 2.1 MPa in barocamera increased thermodelivery in 1.9-fold whereas pressure enhancement up to 4.1 MPa did it in 2.6-fold.
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##article.viewOnOriginalSite##About the authors
Yury I Luchakov
IP Pavlov Institute of Physiology, Russian Academy of Sciences
Author for correspondence.
Email: yluchakov@yandex.ru
Dr. Biol. Sci. (Physiology), Scientific Researcher Russian Federation
Alexandr N Vyotosh
IM Sechenov Institute of Evolutionary Physiology and Biochemistry, Russian Academy of Sciences
Email: vetosh@mail.ru
Dr. Biol. Sci. (Physiology), Senior Researcher Russian Federation
Petr D Shabanov
SM Kirov Military Medical Academy
Email: pdshabanov@mail.ru
Dr. Med. Sci. (Pharmacology), Professor and Head, Dept. of Pharmacology Russian Federation
References
- Ветош А.Н. Биологическое действие азота. — СПб., 2003. — 231 с. [Vyotosh AN. Biological action of nitrogen. St. Petersburg, 2003. 231 p. (In Russ.)]
- Иванов К.П. Основы энергетики организма. — Л.: Наука, 1990. — 307 с. [Ivanov KP. The basis of energetics of the organism. Leningrad: Nauka; 1990. 307 p. (In Russ.)]
- Лучаков Ю.И., Антонов В. И., Осипенко Г.С., Ястребов А.В. Математическое моделирование теплопереноса в коже // Tools for mathematical modeling. — 1999. — Т. 5. — С. 200–207. [Luchakov YuI, Antonov VI, Osipenko GS, Yastrebov AV. Mathematical modelling of thermotransfer in the skin. Tools for mathematical modeling. 1999;5:200-207. (In Russ.)]
- Лучаков Ю.И., Морозов Г.Б. Математическое моделирование теплообмена организма с внешней средой // Tools for mathematical modeling. — 2001. — Т. 7. — С. 226–229. [Luchakov YuI, Morozov GB. Mathematical modelling of thermoregulation of the organism with environment. Tools for mathematical modeling. 2001; 7:226-229. (In Russ.)]
- Лучаков Ю.И., Москвин А.Н., Шабанов П.Д. Влияние кровотока на насыщение ткани мозга кислородом при гипербарической оксигенации // Обз. по клин. фармакол. и лек. терапии. — 2015. — Т. 13. — № 4. — С. 37–41. [Luchakov YuI, Moskvin AN, Shabanov PD. The effect of cerebral blood flow on brain oxygen tension at hyperbaric oxygenation. Obzory po klinicheskoq farmakologii I lekarstvennoi terapii. 2015;13(4):37-41. (In Russ.)]
- Стерликов А.В. Особенности теплообмена человека в условиях повышенного давления газовой среды и под водой. Действие гипербарической среды на организм человека и животных. — М.: Наука, ١٩٨٠. [Sterlikov AV. Peculiarities of human thermoregulation in conditions of enhanced pressure of gas environment and under water. Effect of hyperbaric environment on the human and animal organism. Moscow: Nauka, 1980. (In Russ.)]
- Трошихин Г.В. Организм в гелио-кислородной среды. — Л.: Наука, 1989. — 157 с. [Troshikhin GV. Organism in the gelium-oxygen environment. Leningrad: Nauka, 1989. 157 p. (In Russ.)]
- Флиндт Р. Биология в цифрах. — M.: Мир, 1992. — 303 с. [Flindt P. Biology in figures. Moscow: Mir; 1992. 303 p. (In Russ.)]
- Уэбб П. Тепловые проблемы подводных погружений. Медицинские проблемы подводных погружений. — М.: Мир, 1988. — С. 321–359. Webb P. Thermal problems of diving. Medical problems of diving. Moscow: Mir, 1988:321-359. (In Russ.)]
- Шмидт-Ниельсон К. Физиология животных. — М.: Мир, 1982. [Schmidt-Nielsen K. Animal physiology. Moscow: Mir; 1982. (In Russ.)]
- Eckert R, Randall D, Augustine G. Animal physiology. New York, 1988.
- Fiala D, Lomas KJ, Stohrer M. Computer prediction of human thermoregulatory and temperature responses to a wide range of environmental conditions. Int J Biometeoralogy. 2001;45:143-159.
- Lichenbelt WDM, Frijns AJH, Ooijen MJ et al. Validation of an individualized model of human thermoregulation for predicting responses to cold air. Int J Biometeorology. 2001;51(3):169-179.
- Sterba J. Thermal problems: prevention and treatment. The physiology medicine of diving. London, 1993:301-341.
- Werner J, Webb P. A six-cylider model of the human thermoregulation for general use on personal computers. Ann Physiol Anthropol. 1993;12:123-134.
