Zaitsev A. A.
1, Grabov V. M.
2, Sidorov A. V.
1, Kuznetsov D. V.
11Bunin State University, Elets, Russia
2Herzen State Pedagogical University of Russia, St. Petersburg, Russia
Email: zaitsev@elsu.ru, dirnusir@mail.ru, kuznetcovdv007@mail.ru
The paper presents the results of experimental measurements of thermoelectromotive force and electrical conductivity of animal blood samples and Ringer's medical solution, which are similar in their properties and chemical composition to human blood. The influence of the contributions of the ionic component and the contribution of blood corpuscles on the value of the thermoelectromotive force coefficient is analyzed. The effect of dilution with distilled water on thermoelectric properties and electrical conductivity of blood has been studied. The influence of the ionic composition of a model medical Ringer's solution on the coefficient of thermoelectromotive force is analyzed. The experimental results show that the coefficient of thermoelectromotive force of the blood samples under study is determined to a greater extent by the colloidal component of the shaped elements than by the contribution of the ionic subsystem. The results obtained indicate that thermoelectric phenomena in biological fluids can affect the activation of biochemical processes in the body of animals. Keywords: thermoEMF, electrical conductivity, colloidal solutions, blood plasma.
- D. McKemy, W. Neuhausser, D. Julius. Nature, 416, 52-58 (2002). DOI: 10.1038/nature719
- C.L. Lim, C. Byrne, J.K. Lee. Ann. Acad. Med. Singap., 37 (4), 347-353 (2008)
- N. Sperelakis. Electrogenesis of Biopotentials in the Cardiovascular System (Springer, Boston, MA, 1995), DOI: 10.1007/978-1-4615-2590-5
- J.B. Tasker. In: Clinical Biochemistry in Domestic Animals, ed. by J.J. Kaneko (Academic Press, 1980), p. 401-446
- M. Laposata. Laposatas Laboratory Medicine Diagnosis of Disease in Clinical Laboratory, ed. by M. Weitz, Peter J. Boyle (McGraw-Hill Education, 2018)
- I.L. Jernelv, K. Milenko, S.S. Fuglerud, D.R. Hjelme, R. Ellingsen, A. Aksnes. Appl. Spectrosc. Rev., 54 (7), 543-572 (2019). DOI: 10.1080/05704928.2018.1486324
- A.V. Sidorov, V.M. Grabov, A.A. Zaitsev, D.V. Kuznetsov. Tech. Phys., 65 (10), 1580-1584, (2020). DOI: 10.1134/S1063784220100205
- V.M. Grabov, A.A. Zaitsev, D.V. Kuznetsov, A.V. Sidorov. Tech. Phys., 63 (10), 1415-1419 (2018). DOI: 10.1134/S1063784218100122
- Bol'shaya meditsinskaya entsiklopediya, gl. red. B.V. Petrovsky (Sovetskaya entsiklopediya, M., 1980), t. 12: Kriokhorurgia, p. 93-132 (in Russian)
- L.S. Pozharskaya, S.G. Liberman, V.M. Gorbatov. Krov'uboinykh zhivotnykh i ee pererabotka (Pishcheprom, M., 1960)
- A.V. Sidorov, A.A. Zaitsev, D.V. Kuznetsov. Vestnik Moskovskogo gos.oblastnogo un-ta Ser. fizika-matematika, (3), 29-38 (2021). DOI: 10.18384/2310-7251-2021-3-29-38
- S.P. Dannikov. Agrarnaya Rossia, (8), 29-33 (2018). (in Russian). DOI: 10.30906/1999-5636-2018-8-29-33
- L.A. Geddes, C. Sadler. Med. Biol. Eng., 11, 336-339 (1973)
- R. Haaze. Termodinamika neobratimykh protsessov (M., Mir, 1967) (in Russian)
- S.S. Dukhin. Elektroprovodnost i elektrokineticheskie svojstva kolloidnykh sistem (Kiev, Nauk. dumka, 1975). (in Russian)
Подсчитывается количество просмотров абстрактов ("html" на диаграммах) и полных версий статей ("pdf"). Просмотры с одинаковых IP-адресов засчитываются, если происходят с интервалом не менее 2-х часов.
Дата начала обработки статистических данных - 27 января 2016 г.