Direct flow cytometric measurement of nucleic acid content in individual platelets is possible using the fluorescent dye Thiazole Orange (Becton-Dickinson, San Jose, CA). When applied to studies of thrombocytopenic patients, platelets with elevated nucleic acid content ("reticulated platelets") can be identified and quantitated. Labeling of these platelets is saturable and is abolished by treatment with RNAse. It has been suggested that, similar to the erythrocyte reticulocyte response to anemia, the number of these platelets appearing in the circulation may provide an estimate of the rate of thrombopoiesis. The authors studied 229 thrombocytopenic patients, measuring both reticulated platelets and platelet-associated immunoglobulin. The results show that for the subset of patients with normal levels of platelet-associated immunoglobulin, the average absolute number of reticulated platelets is independent of platelet count and remains in the normal range. For those with elevated levels of platelet-associated immunoglobulin, the absolute number of reticulated platelets increases in patients who are moderately thrombocytopenic (60 to 100 x 10(9)/L) but decreases to normal or subnormal levels as thrombocytopenia worsens. The latter finding has been duplicated in studies of mice made thrombocytopenic by injection of anti-platelet antiserum. These results are consistent with the hypothesis that reticulated platelets are subject to peripheral destruction at the same rate as mature platelets, and that in the severely thrombocytopenic patient their level may decrease despite an appropriate marrow thrombopoietic response.
Platelets are known to become activated during storage, but it is unclear whether such activation affects recovery or survival after platelet concentrate (PC) transfusion. With the use of flow cytometry to determine the percentage of platelets expressing the alpha-granule membrane protein 140 (GMP-140), a known adhesive ligand appearing on the platelet surface after activation, several studies were conducted. These investigations evaluated 1) the occurrence of significant platelet activation over time in PCs (n = 46) stored under standard blood bank conditions; 2) the correlation between platelet activation and platelet recovery in normal subjects after PC storage (n = 12), as assessed by the recovery of Indium-labeled platelets; and 3) the recovery of activated and unactivated platelets in thrombocytopenic cancer patients transfused with standard PCs (n = 11). It was determined 1) that an increasing duration of storage of PC was associated with increasing platelet activation as measured by the percentage of platelets expressing GMP-140, progressing from a mean of 4 +/- 2 percent (SD) on the day of collection to a mean of 25 +/- 8 percent by 5 days of storage: 2) that, in normal subjects, posttransfusion recovery of autologous platelets stored for 2 to 4 days and then labeled with In111 was inversely correlated with the percentage of activated platelets in the transfused PC (r = -0.55, p = 0.05); and 3) that, when thrombocytopenic patients were transfused with standard PCs, the recovery of the activated platelets in the transfused PCs averaged only 38 +/- 15 percent of the number predicted by the absolute platelet increment.(ABSTRACT TRUNCATED AT 250 WORDS)
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