ALBERT

Description: Background The platelet storage lesion is mitigated by refrigeration in platelet additive solutions (PAS), but questions remain regarding effects of cold storage (4°C) on mitochondrial function. Understanding underlying mechanisms responsible for enhanced hemostatic function of 4°C-stored PAS platelets will be critical for such improvements in platelet transfusion. We hypothesized that storage of platelet concentrates at 4°C leads to GPIIb-IIIa activation and thus aggregate formation through fibrinogen binding, and that this could be prevented by storing platelets in platelet additive solution (PAS) without compromising platelet function. Methods Apheresis platelets in plasma (AP) or apheresis platelets in PAS were stored at 22°C or 4°C for up to 15 days. Measurements include platelet counts, blood gases, flow cytometry analysis, intracellular reactive oxygen species (ROS) levels, and high resolution respirometry. To explore the effect of fibrinogen on storage, platelets were treated with abciximab to inhibit GPIIb-IIIa binding and aggregation. Donor fibrinogen levels were measured before being collected in PAS; samples were separated into minibags for comparison of control 4°C PAS-stored platelets to 4°C PAS-stored platelets with fibrinogen added back to original donor levels (PAS-FBN). Results Mitochondrial respiration was lower in platelets stored at 4°C compared to 22°C in both AP and PAS; however, PAS-stored platelets retained lower mitochondrial respiration over the time course. Additionally, maximal mitochondrial oxygen utilization (oxidative burst capacity) was better preserved in 4°C-stored platelets; PAS demonstrated less overall mitochondrial exhaustion at 4°C compared to 4°C-AP samples (Figure 1). PAS-FBN resulted in reduced oxidative burst capacity over 15 days of storage which was consistent with loss of platelet function observed through flow cytometry analysis including increased phosphatidylserine expression, microparticles, and GPIb shedding. Mitochondrial intracellular ROS levels were lower in all 4°C-stored samples compared to their respective RT-stored groups. PAS-FBN resulted in significantly lower platelet counts (Day 5: BL= 1.1x106±.04plt/µL, PAS = 1.1 x106±.06plt/µL, PAS-FBN = .61 x106±.06plt/µL; P