Osmotic resistance of blood erythrocytes at rats unover in vitro infrasonic waves action
Keywords:
infrasonic waves, permeability of erythrocyte’ membranes, hemolysis rateAbstract
Effect of infrasonic waves from 13 to 30 Hz with intensity range 10.9 to 14 dB on the permeability oferythrocytes’ membrane exposed to infrasonic waves with different times nas gfuetea and introduced to rats for 24 hours. The results showed that significantly high increase in the hemolysis rate, dispersion of the hemolysis process and the maximum rate of hemolysis (dH/dC) max. It can be concluded that infrasonic waves induced the increase of the permeability of erythrocyte’ membranes.References
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9 Nabila S.S., Omar S.D., Seham M.A. Ebrahim I.H. and Houda A.A. 2009. Effect of gamma radiation on some biophysical Properties of red blood cell membrane. Rom J. Biophys; 19:171–185.
10 Omar S.D., Nabila S.S., Eman M.E. and Seham M.E. 2009. Biophysical Characterization of β-Thalassemic Red Blood Cells. Cell Biochem. Biophys; 55:45–53.
11 Landue S., Everitt B.S. A Handbook of statistical Analyses using Spss// Chapman&Hall/ CRC press LLC. – London, 2004. –P.337.
12 Svidovyi V.I. 1987. Mechanism of perception and effect on infrasound on the bodies of experimental animals and man. Gig. Sanit; 3:88-89.
13 Svidovyi V.I., Kuklina O.I. 1985. State of the hemolymph circulatory bed of the conjunctiva as affected by infrasound. Gig. Tr. Prof. Zabol; 6:51-52.
14 Nekhoroshev A.S. 1985. Exposure to lowfrequency narrow-band noise and reaction of the stria vascularis vessels. Vestn. Otorinolaringol; 6:17-19.
15 Svidovyi V.I., Glinchikov V.V. 1987. Action of infrasound on the lung structure. Gig Truda Prof Zabol; 1: 34-37.
16 Svidovyi V.I., Kolmakov V.N., Kuleba V.A. and Timofeeva V.M. 1987. Change in the permeability and total ATPase activity of erythrocytes and blood plasma superoxide dismutase activity on exposure to infrasound in vitro. Gig. Sanit; 5:78-79.
17 Svidovyi V.I., Kolmakov V.N. and Kuznetsova G.V. 1985. Changes in the aminotransferase activity and erythrocyte membrane permeability in exposure to infrasound and lowfrequency noise. Gig. Sanit; 10:73-74.
18 Reha D., Hakan M., Hasan Y., Kagan U., Abdullah A., Muzaffer A., Abdurrahman G., Ramazan U. and Mevlut D. 2009. Noise Induces Oxidative Stress in Rat. Eur J Gen Med; 6:20-24.
19 Barbara T., Donato D.P., Angela M.A., Giovanna F., Michele T., Bruno G. and Giuseppe L. 2000. Energy metabolism and lipid peroxidation of human erythrocytes as a function of increased oxidative stress. Eur. J. Biochem; 267:684-689.
20 Maridonneau I., Braquet P. and Garay R.P. 1983. Na+ and K+ transport damage induced by oxygen free radicals in human red cell membranes. J. Biol. Chem; 258:3107-3113.
21 Zhou F., Xiang Z., Zhi G.L., En Y.L., Hong M.B., Jing Z.C. and Ke Y.J. 2001. The changes and significance of TXA2 and PGI2 metabolism after rat infrasonic brain damage. Low Freq. Noise Vib; 20:33–37.
22 De-ze J., Gang Li. 2010. A new mechanism on the pathogenesis of trigeminal neuralgia. Medical Hypotheses; 74: 505–507.
2. Pei Z.H., Chen J.Z., Zhu M.Z., Zhuang Z.Q., 2005. Effects of infrasound on the ultra-structure of rat myocardium. Chin. Heart J. 17: 216-217.
3 Liu Z.H., Chen J.Z., Tang Y., Chen D., Ding G.R., Li J., Jin C., Li K.C., 2004. Effects of infrasound on changes of intracellular calcium ion concentration and on expression of RyRs in hippocampus of rat brain. J. Low Freq. Noise Vib.
Active Control ;23:159-165.
4 Altmann J. 1999. Acoustic Weapons. 83-page review available at the web site of the College of Fine Arts, University of New South Wales. 3-8,
5 Zbigniew Damijani Jerzy Wiciak., 2005 The influence of infrasounds on the changes of EEG signal morphology., Molecular and Quantum Acoustics; 26: 61-74
6 Guzas D., Virsilas R. 2009. Infrasound hazards for the environment and the ways of protection. ULTRAGARSAS (ULTRASOUND); 64:34-37.
7 Tuleuhanov S.T., Baktybaeva L.K. and Mohaseb M.A. 2009. The direct and indirect influence of infrasound on leukogramm blood of rats. J. Vecnek Kazny; 42: 112-115. –Almaty, Kazakhstan.
8 Maira M., Sadat M., Ljubka T., Sylvia A. and Julia S. 2008. Antioxidant and prooxidant properties of apolyphenol – rich Extract from Geranium sanguineum L, In vitro and in vivo. phytother. Res; 22:746-751.
9 Nabila S.S., Omar S.D., Seham M.A. Ebrahim I.H. and Houda A.A. 2009. Effect of gamma radiation on some biophysical Properties of red blood cell membrane. Rom J. Biophys; 19:171–185.
10 Omar S.D., Nabila S.S., Eman M.E. and Seham M.E. 2009. Biophysical Characterization of β-Thalassemic Red Blood Cells. Cell Biochem. Biophys; 55:45–53.
11 Landue S., Everitt B.S. A Handbook of statistical Analyses using Spss// Chapman&Hall/ CRC press LLC. – London, 2004. –P.337.
12 Svidovyi V.I. 1987. Mechanism of perception and effect on infrasound on the bodies of experimental animals and man. Gig. Sanit; 3:88-89.
13 Svidovyi V.I., Kuklina O.I. 1985. State of the hemolymph circulatory bed of the conjunctiva as affected by infrasound. Gig. Tr. Prof. Zabol; 6:51-52.
14 Nekhoroshev A.S. 1985. Exposure to lowfrequency narrow-band noise and reaction of the stria vascularis vessels. Vestn. Otorinolaringol; 6:17-19.
15 Svidovyi V.I., Glinchikov V.V. 1987. Action of infrasound on the lung structure. Gig Truda Prof Zabol; 1: 34-37.
16 Svidovyi V.I., Kolmakov V.N., Kuleba V.A. and Timofeeva V.M. 1987. Change in the permeability and total ATPase activity of erythrocytes and blood plasma superoxide dismutase activity on exposure to infrasound in vitro. Gig. Sanit; 5:78-79.
17 Svidovyi V.I., Kolmakov V.N. and Kuznetsova G.V. 1985. Changes in the aminotransferase activity and erythrocyte membrane permeability in exposure to infrasound and lowfrequency noise. Gig. Sanit; 10:73-74.
18 Reha D., Hakan M., Hasan Y., Kagan U., Abdullah A., Muzaffer A., Abdurrahman G., Ramazan U. and Mevlut D. 2009. Noise Induces Oxidative Stress in Rat. Eur J Gen Med; 6:20-24.
19 Barbara T., Donato D.P., Angela M.A., Giovanna F., Michele T., Bruno G. and Giuseppe L. 2000. Energy metabolism and lipid peroxidation of human erythrocytes as a function of increased oxidative stress. Eur. J. Biochem; 267:684-689.
20 Maridonneau I., Braquet P. and Garay R.P. 1983. Na+ and K+ transport damage induced by oxygen free radicals in human red cell membranes. J. Biol. Chem; 258:3107-3113.
21 Zhou F., Xiang Z., Zhi G.L., En Y.L., Hong M.B., Jing Z.C. and Ke Y.J. 2001. The changes and significance of TXA2 and PGI2 metabolism after rat infrasonic brain damage. Low Freq. Noise Vib; 20:33–37.
22 De-ze J., Gang Li. 2010. A new mechanism on the pathogenesis of trigeminal neuralgia. Medical Hypotheses; 74: 505–507.
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Sharipova, S. A. 2013. “Osmotic Resistance of Blood Erythrocytes at Rats Unover in Vitro Infrasonic Waves Action”. International Journal of Biology and Chemistry 5 (1):18-23. https://ijbch.kaznu.kz/index.php/kaznu/article/view/75.
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