Abstract
We have previously studied the changes in the diffusion capacity for 22NaCl and 86RbCl in the hindlimbs of dogs with and without acute hemorrhagic hypotension [1–3]. The diffusion capacity is defined as the product of P and S, where P is the permeability coefficient and S is the surface area. The diffusion capacity is measured by the “indicator diffusion” method. We found that acutely induced hemorrhagic hypotension decreased the diffusion capacity [4].
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References
Imao T (1971) The influence of elevated venous pressure on blood-tissue exchange of 22Na in perfused hindlimbs of dogs. Jpn Circ J 35: 1–20
Yoshimura T (1972) Influence of venous congestion on the blood-tissue exchange of 22Na in dog’s hindlimbs with special reference to the role of the autonomic nervous system. Jpn Circ J 36: 1047–1055 (in Japanese)
Sato E, Kida K, Yokoyamah, Hirakawa S (1983) Redistribution of the blood flow in the microvascular beds of skeletal muscle of dogs during acute venous congestion of a hindlimbs. Acta Scholae Medicinalis Universitatis in Gifu 31: 708–724 (in Japanese)
Sato M, Ozeki T, Kumazaki H, Hirakawa S (1986) Effect of acute hemorrhagic hypotension on the blood flow in the microvascular beds of skeletal muscles of dog’s hindlimbs. Acta Scholae Medicinalis Universitatis in Gifu 34: 1–14 (in Japanese)
Kida K, Sato E, Yokoyama H, Hirakawa S (1980) Quantitative study on the blood flow density in microcirculatory beds of the striated muscle. Acta Scholae Medicinalis Universitatis in Gifu 28: 18–29 (in Japanese)
Yokoyama H, Kida K, Sato E, Hirakawa S (1983) The effect of acute hemorrhagic hypotension on blood flow density in cicrocirculatory beds of the striated muscle of dog’s hindlimbs. Acta Scholae Medicinalis Universitatis in Gifu 31: 290–303 (in Japanese)
Crone C (1970) Capillary permeability-techniques and problems. In: Crone C, Lassen NA (eds) Alfred Benzon symposium II: Capillary permeability. Munksgaard, Copenhagen, pp 15–31
Crone C (1963) The permeability of capillaried in various organs as determined by use of the ‘indicator diffusion’ method. Acta Physiol Scand 58: 292–305
Renkin EM (1969) Exchange of substances through capillary walls. In: Wolstenholme GEW, Knight AB (eds) Circulatory and respiratory mass transport, a Ciba foundation symposium. Churchill, London, pp 50–66
Renkin EM (1968) Transcapillary exchange in relation to capillary circulation. In: Biological interfaces: flows and exchanges. Little Brown, Boston pp 96–108
Renkin EM (1965) Blood flow and transcapillary exchange in skeletal muscle. Federation Proc 24: 1092–1094
Plyley MJ, Groom AC (1975) Geometrical disturbance of capillaries in mammalian striated mescle. Am J Physiol 228: 1376–1383
Landis EM, Pappenheimer JR (1963) In: Handbook of physiology, sect. 2, vol. 2. Am Physiol Society, Washington pp 961–1034
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© 1988 Springer-Verlag Tokyo
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Ozeki, T., Kumazaki, H., Kohketsu, Y., Okada, T., Hirakawa, S. (1988). Microcirculation of Canine Hindlimbs in Hemorrhagic Hypotension. In: Manabe, H., Zweifach, B.W., Messmer, K. (eds) Microcirculation in Circulatory Disorders. Springer, Tokyo. https://doi.org/10.1007/978-4-431-68078-9_49
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DOI: https://doi.org/10.1007/978-4-431-68078-9_49
Publisher Name: Springer, Tokyo
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