Details of Respiratory Membrane, Diffusing Capacity, Respiratory Exchange Ratio as well as Respiratory Quotient
| Autor: | Dr. Mohan Naidu, K., Dr. Sridevi.V, Dr. Muralinath.E, Dr. Manjari.P, Dr. Chapalamadugu C. Kalyan, Dr. Sravani Pragna, K., Dr. M. Guru Prasad, Nikhil, J., Dr. Sony Sharlet |
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| Jazyk: | angličtina |
| Rok vydání: | 2023 |
| Předmět: | |
| DOI: | 10.5281/zenodo.7993256 |
| Popis: | An exchange of respiratory gases occurs between the alveoli and the blood. An exchange of respiratory gases also happens through respiratory membrane. The diffusion capacity is manifested as the volume of gas that diffuses through the respiratory membrane each minute for a pressure gradient. The diffusion capacity is influenced by molecular weight of the gas, pressure gradient, and solubility of gas in fluid medium, thickness of respiratory membrane and total surface area of respiratory membrane. Diffusion of oxygen takes place from atmospheric air into alveoli and from alveoli into blood. Simultaneously diffusion of carbon dioxide happens from blood into alveoli and from alveoli into the atmospheric air. The respiratory exchange ratio is the ratio between the net output if carbon dioxide from the tissues to the simultaneous net uptake of oxygen by the tissues. Respiratory quotient is the molar ratio of carbon dioxide production to oxygen consumption. It helpful in estimating the utilization of different food stuffs. {"references":["1.\tAbdalla, M. A., & Maina, J. N. (1981, January). Quantitative-analysis of the exchange tissue of the avian lung (galliformeS). In Journal of Anatomy (Vol. 133, No. DEC, pp. 677-680). 40 West 20th street, New York, NY 10011-4211: Cambridge Univ Press.","2.\tAbdalla, M. A., Maina, J. N., King, A. S., King, D. Z., & Henry, J. (1982). Morphometrics of the avian lung. 1. The domestic fowl (Gallus gallus variant domesticus). Respiration physiology, 47(3), 267-278.","3.\tAmes, B. N., Shigenaga, M. K., & Hagen, T. M. (1993). Oxidants, antioxidants, and the degenerative diseases of aging. Proceedings of the National Academy of Sciences, 90(17), 7915-7922.","4.\tBartlett Jr, D., Mortola, J. P., & Doll, E. J. (1986). Respiratory mechanics and control of the ventilatory cycle in the gartner snake. Respiration physiology, 64(1), 13-27.","5.\tBrackenbury, J., & Amaku, J. (1990). Effects of combined abdominal and thoracic airsac occlusion on respiration in domestic fowl. Journal of Experimental Biology, 152(1), 93-100.","6.\tBriggs, J. (1992). Fractals: The patterns of chaos: A new aesthetic of art, science, and nature. Simon and Schuster.","7.\tBurri, P. H. (1985). Morphology and respiratory function of the alveolar unit. International Archives of Allergy and Immunology, 76(Suppl. 1), 2-12.","8.\tButler, P. J., & Metcalfe, J. D. (1983). Control of respiration and circulation. Control processes in fish physiology, 3, 41-65.","9.\tButler, P. J., & Woakes, A. J. (1984). Heart rate and aerobic metabolism in Humboldt penguins, Spheniscus humboldti, during voluntary dives. Journal of Experimental Biology, 108(1), 419-428.","10.\tCarrier, D. R. (1988, January). Lung ventilation in iguana-iguana-an action of tonic muscle. in american zoologist (Vol. 28, No. 4, pp. A197-A197). 1041 New Hampshire St, Lawrence, Ks 66044: Amer Soc Zoologists."]} |
| Databáze: | OpenAIRE |
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