Albumin Dramatically Cuts Fluid Leakage in Hospital Patients, Study Shows
A major study reveals that albumin infusions reduce dangerous fluid leakage from blood vessels by tenfold compared to standard saline solutions, while also cutting urine output in half. The finding could reshape how hospitals manage critically ill and surgical patients, affecting treatment protocols and procurement decisions worth billions annually.
Originaltitel: Influence of intravascular albumin on the capillary leakage of fluid in humans
The Starling equation gives intravascular albumin a unique role in controlling capillary filtration and urine flow. The present study evaluated the strength by which this role is executed, in addition to other factors that statistically influence the capillary leakage and urine flow rates. The capillary filtration and the urine flow were estimated by volume kinetic analysis at 2992 time points during 158 intravenous infusion experiments in volunteers and surgical patients who received 25 mL/kg of Ringer solution or 3 mL/kg of 20% albumin. Stepwise multiple regression was used to compare these estimates to a set of perioperative variables. The infusions of Ringer diluted plasma albumin by 5 g/L while 20% albumin increased the same concentration by 6 g/L, and this difference had a profound influence on the studied variables. Despite similar plasma volume expansion (13 versus 11%), the capillary filtration was 10 times higher during the Ringer experiments than during the albumin experiments, and the urine flow was twice as high. Bleeding reduced both flow variables, whereas ongoing surgery accelerated the filtration, but inflammation decreased it, and a high arterial pressure increased the urine flow. Regression analysis predicted 80% of the capillary filtration but only 21% of the urine flow. Marked changes in the capillary leakage rate occur when diluting or deliberately increasing the plasma albumin concentration. Similar effects apply to the urine flow, but this rate is governed by a more complex set of variables. • Albumin has a unique regulatory function for capillary filtration and urine flow. • The influence of albumin on filtration was studied by infusions of Ringer and albumin 20%. • The fluid-induced plasma volume expansion was similar for the two fluids (13% vs. 11%). • Plasma albumin was 11 g/L (+30%) higher after infusion albumin 20%. • Capillary filtration was 90% lower and urine flow 40% lower in the high-albumin group.