Cp. Marini et al., Effect of hematocrit on regional oxygen delivery and extraction in an adult respiratory distress syndrome animal model, AM J SURG, 180(2), 2000, pp. 108-114
BACKGROUND: The purpose of this prospective, randomized, controlled study w
as to investigate the effects of hematocrit (Hct) on regional oxygen delive
ry and extraction following induction of adult respiratory distress syndrom
e (ARDS) in an animal model.
METHODS: Animals were instrumented to monitor central venous pressure (CVP)
, systemic mean arterial pressure (MAP), pulmonary artery occlusion pressur
e (PAOP), and cardiac output (CO) and to measure blood flow in the renal, h
epatic, and superior mesenteric arteries and portal vein. ARDS was induced,
positive end expiratory pressure (PEEP) applied and CO was maximized with
volume loading and epinephrine infusion. Data were acquired at baseline (BL
) and at Hct levels ranging from 25% to 50%.
RESULTS: Systemic DO2 increased steadily and significantly with increased H
ct. Systemic O-2 extraction ratio (O2ER) decreased significantly with incre
asing Hct until a threshold value of 40%, after which further increases in
Hct did not cause a statistically significant decrease in O2ER. Similarly,
renal and hepatic DO2 increased and O2ER decreased in a statistical signifi
cant manner with transfusions up to a Hct of 35%. In the splanchnic circula
tion blood transfusions did not cause any statistically significant increas
e in DO2, and O2ER showed no decrease after an Hct of 35%. Systemic, renal,
hepatic, and splanchnic VO2 were not affected by changes in Hct. Blood vis
cosity decreased from a baseline value of 2.9 +/- 0.2 centipoise at a Hct o
f 38% to 2.3 +/- 0.1 centipoise at a Hct of 25% (P <0.05). Viscosity increa
sed progressively with increasing hematocrits and reached the value of 4.2
+/- 0.2 centipoise at an Hct of 50% (P <0.05 versus Hct 30%, 35%, 40%, 45%)
.
CONCLUSIONS: Based on the results of this non-supply-dependent animal model
we conclude that a progressive increase in Hct up to 40% causes a correspo
nding increase in systemic DO2 associated with a decrease in O2ER. However,
there is no improvement in renal, hepatic, and splanchnic DO2 and O2ER aft
er a threshold Hct of 35%, All other factors being the same, an Hot greater
than 35% may in fact cause a decrease in blood flow rate and change in blo
od flow characteristics as a consequence of increased blood kinematic visco
sity, which may alter and compromise cellular oxygen transfer. Am J Surg. 2
000;130:103-114. (C) 2000 by Excerpta Medica, Inc.