Storage of washed platelets in BRS-A platelet additive solutions based on two types of clinically available bicarbonated Ringer's solutions with different electrolyte concentrations

In Japan, no platelet (PLT) additive solutions (PASs) are officially approved for clinical use although blood centers often receive requests for washed PLTs to reduce adverse reactions. Recently, we developed a novel PAS called BRS-A based on clinically available bicarbonated Ringer's solution (BRS), Bicanate and acid-citrate-dextrose formula A (ACD-A), which has been shown to maintain the in vitro properties of PLTs in the condition of5% residual plasma during 7-day storage. The aim of this study was to evaluate whether another clinically available BRS, Bicarbon with different electrolyte concentrations can be used as a PAS.Two types of BRS-As were prepared by adding 25 mL of ACD-A to 500 mL of Bicanate or Bicarbon BRSs. Bicanate-based BRS-A and Bicarbon-based BRS-A contain 0.9 or 0.5 mmol/L of magnesium chloride, 95.2 or 100.1 mmol/L of sodium chloride, 4.2 or 5.1 mmol/L of trisodium citrate, and 26.6 or 23.8 mmol/L of sodium bicarbonate, respectively; the other components were identical. Apheresis PLTs stored in these solutions with less than 5% plasma for 7-day storage were compared with regard to their in vitro properties.The pH levels of all units were above 7 throughout storage. The mean PLT volume, hypotonic shock response, glucose consumption, lactate production, swirling, and CD62P and CD42b expression were similar during 7-day storage. The bicarbonate levels in Bicarbon-based BRS-A were lower than those in Bicanate-based BRS-A.Differences in concentrations of electrolytes such as magnesium, sodium, citrate, and bicarbonate salts in BRS-A do not affect the in vitro properties of PLTs during 7-day storage. These results indicate that the use of another type of BRS-A based on Bicarbon as a PAS is feasible. Thus, BRS-A can be used in hospitals that do not stock Bicanate but have Bicarbon.