Preparing small-dose red cell concentrates (RCCs) for neonatal and pediatric transfusions: Impact of RCC volume, storage, and irradiation

Background: Preparing small-dose red cell concentrates (RCCs) is a common practice for pediatric and neonatal transfusions. However, there is a lack of quality monitoring data to indicate that both the preparation and storage of small-dose RCCs does not alter in vitro red cell quality. The present study seeks to provide data to support this practice.

Materials and methods: To evaluate quality of stored small aliquots, six ABO/Rh matched leukoreduced citrate phosphate-dextrose/saline-adenine-glucose-mannitol (LR CPD/SAGM) RCCs were pooled and split into 30 ml aliquots, 80 ml aliquots, and a standard 290 ml unit, with testing performed for up to 43 days post-collection. To evaluate the impact of irradiation on small-dose RCC preparation, a total of 48 independent LR CPD/SAGM RCCs were used (non-irradiated: n = 24; irradiated: n = 24). Aliquoting with/without irradiation was performed within 7 days of collection and baseline testing was performed within 24 h of aliquot production.

Results: Limited variability in hemolysis, mean cell volume, and extracellular potassium concentrations were seen between the different aliquot sizes throughout the 43-day storage period. Aliquot production did not accentuate damage based on any of these tested parameters in both the non-irradiated and irradiated subsets. A significant increase was seen in the potassium concentrations in the irradiated parent and aliquot samples relative to their non-irradiated counterparts.

Conclusions: Non-irradiated small-aliquot dose RCCs meet in vitro quality criteria required for safe transfusion throughout the 42-day storage period. The same can be said for aliquots derived from irradiated units and tested within 24 h of aliquot production.