Research Journal of Biological Sciences
Year:
2009
Volume:
4
Issue:
3
Page No.
289 - 292
The Fragility Studies of the Main Erythroid Cell Fractions of Rats During Hypoxia
Authors :
B.O. Ekpo
and
I. Elekwa
References
Barkova, E., 1979. Rol Erythropoietina V Regulasii Erythropoeza (Role of Erythropoietin in the Regulation of Erythropoiesis). Nauka Publishers, San Petersburg, pp: 1-117.
Cohen, N.S., J.E. Ekholem, M.G. Luthra and D.J. Hanahau, 1976. Biochemical characterization of density separated human erythrocytes. Biochim. Biophys. Acta, 49: 229-242.
Dudarev, V.P., 1979. Rol Gemoglobina V Mechanisme Adaptazii K Gipoksi i Giperoksi (The Role of Haemoglobin in the Mechanism of Adaptation to Hypoxia and Hyperoxia). Naukova Dumka Publishers, Kiev, Ukrainian Republic, pp: 1-152.
Ekpo, 2005. Acute and Chronic administration of insulin to rats-implications on red blood cell function. Global J. Pure Applied Sci., 11: 393-397.
Ekpo, B.O., 1999. Mechanism of adaptation to hypoxia: Changes in population and fragility of erythrocytes of rats, trained to hypoxic hypoxia. J. Health Visual Sci., 1: 21-28.
Feodorov, H.A., 1977. Regulacia Proliferasii Krovetvorih Kletok (Regulation of the Proliferation of Blood-Forming Cells). Medezina Publishers, Moscow, pp: 159.
Fornaini, G., M. Magnani and A. Fazi, 1985. Regulatory properties of human erythrocyte during cell ageing. Arch. Biochem. Biophys., 239: 352-358.
Gitelzon, J. and J. Terskov, 1969. Erithrogramma Kak Metod Klinicheskova Issledovaniya Krovi (Erythrogramme as a Method of Clinical Study of the Blood). USSR Publishers, Krasnoyarsk, pp: 119.
Hackworth, C., L. Peterson, D. Jack and C. William, 2005. Altitude training experiences and perspectives: Survey of 67 professional pilots. Aviation Space Environ. Med., 76: 382-394.
Hurtado, A., 1964. Animals in High Altitudes: Resident Man. In: Handbook of Physiology, Adaptation to Environment, Dill, D.B., E.F. Adolph and C.G. Wilbur (Eds.). American Physiological Society, Washington, DC., pp: 843-859.
Lechermann, B. and W. Jelkmann, 1985. Erythropoietin production in normoxic and hypoxic rats with increased blood oxygen affinity. Respir. Physiol., 60: 1-8.
Mashkin, V. and J. Terskov, 1986. Produksia i Destruksia Erythrositov V Organisme (Production and Destruction of Erythrocytes in the Organism). USSR Publishers, Novosibirsk, pp: 1-88.
Matzinin, V.V., 1979. K mechanismy ismenenia chimicheskoi resistentnosti erythrocytov V processe adaptasii K usloxiam visokogoria (On the mechanism of change in the chemical resistance of erythrocytes during adaptation to altitudes). Olekuliarniye Aspecti Adaptasi K Gipoksi: Naukova Dumka Publishers, Kiev, Ukrainian Republic, pp: 268.
Merino, C.F., 1950. Studies on blood formation and destruction in the polycythemia of high altitude. Blood, 5: 1-30.
Pugh, L.G., 1957. Resting ventilation and alveolar air on mount everest with remarks on the relation of barometric pressure to altitude in mountains. J. Physoil. Lond., 135: 590-601.
Roderick, A.W., 2004. Hypoxia familiarization training by the reduced oxygen breathing method. Aviation Space Environ. Med., 75: 17-26.
Semenov, Y.V., 1963. O vlianii ostroi gipoksi na izmenenie kislotnoi resistentnosti erythrocitox pastusheva organisma (On the influence of acute hypoxia on changes in erythrocyte resistance to acids in the growing organism). Kislorodnaya Nidostato-chnost. Academy of Science Publishers, Kiev, Ukrainian Republic, pp: 64-70.
Sizova, H., P. Kaminskaya and B. Fedenkov, 1980. Bezaparaturniy sposob fraktionirovaniya Krasnih Kletok Krovi V gradiente plotnosti sacharosi (Simple instrumental method of fractionation of red blood cells in sucrose concentration gradient). Seria Biol., 3: 119-122.
Vachiano, C., K. Vegedes and D. Conzalez, 2004. Comparison of the physiological, cognitive and subjective effects of sea level and altitude induced hypoxia. Aviation Space Environ. Med., 75: 32-39.
Vinogradov, G.I., M.J. Grutman and E.V. Giuling, 1962. K mechanizmu vtorichnova padenia kolichestva erythrocitov i gemoglobina pri prebivanii V visokogornih usloviah (Concerning the mechanism of secondary reduction in the number of erythrocytes and haemoglobin level in altitude conditions). Pathol. Physiol. Exp. Ther., 2: 27-30.