Role of extravascular protein in capillary-tissue fluid exchange

Abstract: A mathematical model of capillary-tissue fluid exchange is presented. The effect of variation in plasma and interstitial osmotic pressure that occurs as a result of convection and diffusion of protein is examined. Analytic solutions to the resulting equations are obtained by using the methods of perturbation theory. It is found that fluid exchange can significantly alter the pericapillary interstitial osmotic pressure, reducing both filtration and reabsorption. Variation in plasma osmotic pressure is important… Show more

“…wall (0 ^ A < 1). The interstitial protein moves through the tissue by diffusion and by convection with the moving interstitial fluid, so that the flux rate per unit area, qp, is given by (Salathe & Venkataraman 1978) qP i = -D ijdci{/dxj-c iiAijKijkdPi t ( 12)…”

Mathematical analysis of transport and exchange in skeletal muscle

“…wall (0 ^ A < 1). The interstitial protein moves through the tissue by diffusion and by convection with the moving interstitial fluid, so that the flux rate per unit area, qp, is given by (Salathe & Venkataraman 1978) qP i = -D ijdci{/dxj-c iiAijKijkdPi t ( 12)…”

Mathematical analysis of transport and exchange in skeletal muscle

Mathematical studies of capillary-tissue exchange

Microcirculatory response to periodic pulsations in capillary pressure