Disorders of body fluid balance: a new look into the mechanisms of disease

Autor: G E, Plante, M, Chakir, S, Lehoux, M, Lortie
Rok vydání: 1995
Předmět:
Zdroj: The Canadian journal of cardiology. 11(9)
ISSN: 0828-282X
Popis: To review the mechanisms of disease on the basis of dysfunction in body fluid distribution secondary to abnormalities in capillary permeability and plasma membrane transport disorders, leading to quantitative and qualitative alterations of the interstitial space, a mainly strategic compartment positioned between the microcirculation and cell mass.The recent literature on the mechanisms involved in the control of body fluid balance, with special reference to microcirculation and interstitial compartment physiology, as well as published and unpublished original data from the authors laboratory.To illustrate the importance of capillary permeability dysfunction in the development of disease, animal (rat and dog) models of chronic renal failure, acute diuretic-induced fluid depletion, diabetes mellitus, arterial hypertension and ischemia-reperfusion of the kidney were used in an attempt to show that in all these experimental models, basic capillary permeability dysfunction (measured by the extravasation of Evans blue, a marker of albumin leakage) develops in specific microcirculation beds. As a consequence, tissue edema (interstitial and/or cellular) develops and likely impairs the traffic of nutrients and waste products to and from the cellular mass, and/or challenges the microcirculation, leading to organ damage. Kidney dysfunction is measured by conventional clearance methods (renal hemodynamics and tubular function). In some models, the eventual mediators of vascular abnormality are examined by use of pharmacological tools.The critical role of microcirculation dysfunctions, in particular capillary permeability, resulting in interstitial compositional changes is presented as the basis of disease. The apparent specificity of target organ damage may represent the nonspecific result of physicochemical alteration in the strategic interstitial fluid compartment.
Databáze: OpenAIRE
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