Abstract
Cold storage of platelet concentrates (PC) has become attractive due to the reduced risk of bacterial proliferation, but in vivo circulation time of cold-stored platelets is reduced. Ca2+ release from storage organelles and higher activity of Ca2+ pumps at temperatures < 15°C triggers cytoskeleton changes. This is suppressed by Mg2+ addition, avoiding a shift in Ca2+ hemostasis and cytoskeletal alterations. We report on the impact of 2–10 mM Mg2+ addition on cytoskeleton alterations of platelets from PC stored at room temperature (RT) or 4°C in additive solution (PAS), 30% plasma. Deformation of platelets was assessed by real-time deformability cytometry (RT-DC), a method for biomechanical cell characterization. Deformation was strongly affected by storage at 4°C and preserved by Mg2+ addition ≥ 4 mM Mg2+ (mean ± SD of median deformation 4°C vs. 4°C + 10mM Mg2+ 0.073 ± 0.021 vs. 0.118 ± 0.023, p < 0.01; n = 6, day 7). These results were confirmed by immunofluorescence microscopy, showing that Mg2+ ≥ 4mM prevents 4°C storage induced cytoskeletal structure lesion. Standard in vitro platelet function tests showed minor differences between RT and cold-stored platelets. Hypotonic shock response was reduced in cold-stored platelets (45.65 ± 11.59% vs. RT stored platelets 56.38 ± 29.36; p = 0.042) but normal at 4°C + 10 mM Mg2+ (55.22 ± 11.16%, all n = 6, day 1). CD62P expression and platelet aggregation response were similar between RT and 4°C stored platelets, with minor changes in the presence of higher Mg2+ concentrations. In conclusion, increasing Mg2+ up to 10 mM in PAS counteracts 4°C storage lesions in platelets, maintains platelet cytoskeletal integrity and biomechanical properties comparable to RT stored platelets.
IMPACT OF TEMPORAL WARMING OF ROOM TEMPERATURE ON THE QUALITY OF REFRIGERATED PLATELET CONCENTRATES IN A PLATELET ADDITIVE SOLUTION: AN IN VITRO EXPERIMENTAL EVALUATION
