Frozen/thawed platelets: importance of osmotic tolerance and platelet subpopulations.

Me2SO cryopreserved platelets circulate in vivo, reduce bleeding time, and have hemostatic properties but their functional recovery is only half that of the fresh material. Poor osmotic response is often reported as the cause of the freezing injury. Osmotic excursions on 1- and 5-day-old platelets have been studied. Platelets stored for 5 days have a lesser capability to regulate their volume particularly after an initial swelling. This is attributed to the reduction of discoid cell number, 80% vs 62% for 1-day-old and 5-day-old platelets, respectively. After freezing, hypotonic stress response is reduced from 86 to 39% for 1-day-old and 73 to 31% for 5-day-old platelets. This reduction in function is supported by a similar reduction of discoid cells from 80 to 40% for 1-day-old and 62 to 32% for 5-day-old platelets. The integrity of the cytoskeleton is critical for the osmotic response. Freezing recovery is significantly lowered in the presence of propylene glycol, which alters actin. This contrasts with the recovery of platelets treated with anti-aggregating agents. Platelets show a greater viability after freezing and thawing when PGI2 is added. It is postulated that freshly collected platelets, which are heterogeneous, contain populations of cells that are more sensitive to freezing than others. More tolerant cells remain discoid after freezing and are also less susceptible to storage lesions. Therefore, the maintenance of the integrity of the membrane and the cytoskeleton should be considered for the development of preservation methodologies.