MODERN MEDICAL PROBLEMS OF ENERGY EXCHANGE IN HUMANS
- Authors: Ivanov K.P.1
-
Affiliations:
- I.P. Pavlov Institute of Physiology, Russian Academy of Sciences, St. Petersburg, Russian Federation
- Issue: Vol 68, No 6 (2013)
- Pages: 56-59
- Section: PHYSIOLOGY: CURRENT ISSUES
- Published:
- URL: https://vestnikramn.spr-journal.ru/jour/article/view/179
- DOI: https://doi.org/10.15690/vramn.v68i6.674
- ID: 179
Cite item
Full Text
Abstract
In a living organism 72% of energy exchange occur in the visceral organs, which comprise only 5-6% of the total body mass. The remaining energy is spent at the expense of the skin, bones, connective tissues, resting muscles. The level of energy expenditure determines the general physiological state of a human organism, serves for the diagnostics of various diseases, in particular, the diseases of endocrine system, the disruptions of thermoregulation, protein, carbohydrate, and lipometabolism, etc. It should be mentioned that in modern textbooks of physiology, pathophysiology, and biology the problem of energy exchange in humans and animals is given inadequate consideration. Traditionally it occupies only 2-2.5% of the content. Meanwhile, new problems of energy exchange have appeared recently, which almost never were advanced earlier. These are, for example, the reasons and mechanisms of high energy expenditure under conditions of metabolism, the significance of the coefficient of efficiency of a human organism in physiology, special processes previously unknown of the organism heat exchange with the environment, physiological and social components of human energy exchange. There is also a problem of a theoretical possibility of life without energy .
About the authors
K. P. Ivanov
I.P. Pavlov Institute of Physiology, Russian Academy of Sciences, St. Petersburg, Russian Federation
Author for correspondence.
Email: kpivanov@nc2490.spb.edu
PhD, Professor, Head of the Laboratory of bioenergetics and thermoregulation, Pavlov Institute of Physiology RAS, Honored Worker of Science of RF Address: 199034, St. Petersburg, Makarov Embankment, 6; tel.: (812) 293-76-80 Россия
References
- Fundamental'naya klinicheskaya fiziologiya. Uchebnik [Fundamental clinical physiology. Textbook]. Pod red. A.V. Komkova [A.V. Komkov (editor)]. Мoscow, Akademiya, 2004. 1050 p.
- Schmidt-Nielsen K. Animal physiology. Cambridge.: Cambridge Univ. Press. 1972. 400 p.
- Lehninger A. Principles of biochemistry. New York: Worth Publishers INC. 2008.1263 p.
- Hochachka H.W., Somero G.N. Biochemical adaptation. New York, Oxford.: Oxford. Univ. Press.2002. 460 p.
- Palladin A.V., Belik Ya.I., Polyakova N.M. Belki golovnogo mozga i ikh obmen [Protein metabolism of the brain]. Kiev: Naukova dumka. 1972. 310 p.
- Ivanov K.P. Osnovy energetiki organizma. T. 2. Biologicheskoe okislenie [Fundamentals of the body's energy. Volume 2. Biological oxidation]. St. Petersburg: Nauka. 1993. 280 p.
- Ivanov K.P. Osnovy energetiki organizma. T. 5. Energetika zhivogo mira [Fundamentals of the body's energy. Volume 5. Energetics of the living world]. 2007. 250 p.
- Alyukhin Yu.S., Ivanov K.P. Sootnoshenie mezhdu rabotoi i raskhodom energii v izolirovannoi myshtse mlekopitayushchego. T. 282 [Correlation between work and energy expenditure in isolated mammalian muscle]. DAN SSSR. 1984. 983–987 pp.
- Odum E.P. Basic ecology. Vol. 1. Philadelphia. 1983. 320 p.
- Fanger P.O. Thermal comfort. Copenhagen. Danish Technical press. 1970. 250 p.
- Samoilov V.O. Meditsinskaya biofizika [Medical biophysics]. St. Petersburg, Spets. lit. 2004. 500 p.
- Ehrich N.L. Geomicrobiology. Marsel, Dekker. 1996. 530 p.
- Fredrickson J.K., Onstоtt T.S. Microbes deep inside the earth. Nature. 1996; 275; 4: 42–47.