Impact of Transfusion of Autologous 7- versus 42-Day-Old AS-3 Red Blood Cells on Tissue Oxygenation and the Microcirculation in Healthy Volunteers

BACKGROUND:

Stored red blood cells (RBCs) accumulate biochemical and biophysical changes. Maximum storage duration is based on acceptable in vitro characteristics and 24-hour survival, but not RBC function. Relatively little is known about the impact of RBC storage duration on oxygenation and the microcirculation.

STUDY DESIGN AND METHODS:

Eight healthy subjects donated a double RBC apheresis, which were prestorage leukoreduced and processed in AS-3. Subjects were transfused 1 unit of RBCs at 7 and 42 days after blood collection. Measurements of percentage of tissue oxygenation in the thenar eminence muscle (StO(2) ) and brain (SctO(2) ) were recorded with Food and Drug Administration-cleared noninvasive devices. Sublingual microvascular blood flow (microcirculatory flow index [MFI]) was quantified before and after RBC transfusion using a video microscope. Raw electronic data for all measurements were analyzed by a blinded observer at a core laboratory.

RESULTS:

The only pre- versus posttransfusion change observed in measurements of SctO(2) , StO(2) , or MFI was a very small increase in SctO(2) , from 70.4 to 71.8 (means, p = 0.032) at 7 days. There was no significant difference in the amount of pre-post change at 7 days versus 42 days for any of the measures.

CONCLUSION:

Transfusion of 1 unit of 42-day-stored RBCs to healthy subjects has no overt detrimental effect on tissue oxygenation or the microcirculation assessed by clinically available monitors.