AJP - Regulatory, Integrative and Comparative Physiology, Vol 251, Issue 3 582-R590, Copyright © 1986 by American Physiological Society
Plasma volume changes during head-out water immersion in conscious dogs
K. Miki, G. Hajduczok, S. K. Hong and J. A. Krasney
Blood volume (51Cr-erythrocyte dilution method), hematocrit, and arterial
(Pa), central venous (Pv), plasma colloid osmotic (IIpl), and interstitial
fluid hydrostatic (Pcps, Guyton's capsule method) pressures were measured
continuously to determine the kinetics of the transvascular fluid shift
during 100 min of water immersion (WI) at 37 degrees C in six
splenectomized dogs. Urine flow increased by 180% above control levels (P
less than 0.05) by 30 min of WI. Plasma volume (PV) started to increase at
5 min of WI and rose by 7.2% (P less than 0.05) above control levels by 35
min of WI, and then it decreased gradually. PV returned to control levels
immediately after WI. Plasma protein concentration and IIpl decreased
significantly by 0.2 g/100 ml and 1.2 mmHg, respectively, at 35 min of WI,
while plasma osmolality and Na+ concentration were constant. Pa and Pv
increased (P less than 0.05) by 25 and 12 mmHg, respectively. Mean
capillary pressure, which was calculated from Pa, Pv, and an estimated
pre-to-postcapillary resistance ratio of 5-12, increased by 13-14 mmHg
while Pcps increased (P less than 0.05) by 17 and 26 mmHg at upper hindlimb
and lower forelimb, respectively. The changes in mean capillary pressure
and IIpl tend to promote capillary filtration in WI; however, the greater
elevation of Pcps more than offsets these forces and leads to a net
transvascular shift into the plasma compartment.
