Pathways for fluid loss from the peritoneal cavity.

Abstract

During peritoneal dialysis, fluid is transported out of the peritoneal cavity by lymphatic and nonlymphatic pathways, thereby decreasing net ultrafiltration by 40-50% and reducing small solute clearance by 15-20%. The direct lymphatic pathway consists of the diaphragmatic lymphatics, which directly connect the peritoneal cavity to the bloodstream. The interstitial lymphatic and direct blood entry pathways convey fluid that has been driven into the interstitial space of the tissue surrounding the peritoneal cavity by the increased intraperitoneal pressure, and return it to the bloodstream. Since flow through lymphatic pathways is only a portion of the flow through all pathways, total fluid loss is greater than lymph flow. The best technique for estimating lymph flow is direct measurement by cannulation of lymphatic vessels, a technique that is not clinically feasible. The tracer disappearance technique, which measures the rate at which macromolecules leave the peritoneal cavity, is an indirect measure of fluid loss. The tracer appearance technique, which measures the rate at which macromolecules reach the blood from the peritoneal cavity, slightly overestimates lymph flow because some tracer may enter the bloodstream directly from the tissues. Much of the previous controversy over the contribution of the lymphatic pathways to total fluid loss can be resolved by understanding the differences in what these techniques measure.