Effects of storage and leukoreduction on lymphocytes and Epstein-Barr virus genomes in platelet concentrates

BACKGROUND: Epstein-Barr virus (EBV) persists in infected B lymphocytes in blood donors. Lymphocytes are viable during platelet (PLT) storage. The effects of storage and leukoreduction on lymphocytes and EBV genomes are evaluated. STUDY DESIGN AND METHODS: Forty nonleukoreduced PLT concentrates were stored at 20 to 24°C for up to 7 days. EBV genomes in B cells were quantified on Days 1 and 5. Viable white blood cells (WBCs) and T and B cells were quantified in 10 of 40 units on Days 1, 3, 5, and 7 of storage. For the leukoreduction study, four pools of PLTs were leukoreduced within 24 hours of collection. B cells from before leukoreduction and all peripheral blood mononuclear cells from after leukoreduction were assayed for EBV. RESULTS: Viable WBCs and T cells were stable whereas viable B cells were reduced to 71% of the Day 1 level by Day 5. A total of 31 of 37 (83.8%) units were EBV positive. Although EBV genomes remained stable in most units, 12 of 37 units demonstrated a median of 5.1 (range 2- to 134)-fold increase in EBV genomes per 105 B cells on Day 5. For the leukoreduction study, EBV genomes were detected in four of four pools before leukoreduction with a median of 3.8 (range, 0.2-93.6) EBV genomes per 105 B cells. EBV genomes were not detected in any of the postleukoreduction specimens. CONCLUSIONS: Seventy percent of B lymphocytes are viable on Day 5 of PLT storage. Although the mean number of EBV genomes remained stable, a subset of units had increased EBV genomes during storage. Leukoreduction removed polymerase chain reaction–detectable EBV genomes from PLT pools.