G S Moss

The risk of homologous blood may cause physicians to withhold red cell treatment after acute blood loss. We believe that in the euvolemic patient with acute anemia, the heart is the principal organ at risk. The cardiac compensation to extreme anemia is unknown and is the purpose of this report. Fourteen adult baboons were anesthetized, paralyzed, and ventilated with room air. Left atrial and coronary sinus catheters were inserted surgically. Experimental animals (n = 7) were hemodiluted at constant left atrial pressure with 5% human serum albumin. Control animals (n = 7) underwent similar volume exchanges with fresh, cross-matched, homologous red blood cells resuspended in human serum albumin, also at constant left atrial pressure. Six of seven experimental animals survived until hematocrit levels were 4%. Adequate cardiac compensation was observed until hematocrit levels were less than 10%. Increased flow, without increases in the O2 extraction ratio, was the mechanism of compensation used by the healthy heart with patent coronary vessels.

Risks of transfusion are minimized with autologous blood. However, autologous donation programs require 2 to 5 weeks to yield only 2.2 units per patient. Recombinant human erythropoietin (r-HuEPO) has been shown to increase erythropoiesis. This study evaluated the effects of r-HuEPO on an aggressive autologous donation program. Twelve adult male baboons were randomized into two groups of six. All animals were studied three times per week for 5 weeks. A unit of blood was donated when on any study day the hematocrit was greater than 30%. Animals received intravenously either 750 units/kg of r-HuEPO (n = 6) or placebo (n = 6) on each study day. Iron dextran was given intravenously to replace 150% of shed iron. The r-HuEPO group had an earlier onset of reticulocytosis (2.7 vs 5.5 days, p less than 0.01) and donated 35% more blood (13.5 vs 10.0 units, p = 0.01) than the control group. No adverse reactions to r-HuEPO were observed. The data show that an aggressive autologous donation program can yield 10 units of blood over a 5-week period. Further, r-HuEPO increases that yield by an additional 35%. This aggressive autologous donation program with r-HuEPO may significantly reduce the need for homologous transfusion and its attendant risks.