Introduction: Biomarkers reflecting an inflammatory or immunological response are increasingly offered to improve the risk stratification of patients. For example, current evidence suggests that soluble CD40 ligand (sCD40L) is elevated in patients with acute coronary syndrome. But only a few data are available to evaluate the influence of preanalytic conditions on sCD40L values.Methods: Blood samples of seven healthy blood donors were collected in tubes without additives and in EDTA-or citratefilled tubes at various storage conditions. Platelet count was modified by serum dilution, and sCD40L was measured in plateletrich-plasma and in whole blood. sCD40L levels were determined by an commercially available ELISA-Kit.Results: Immediately after blood sample assessment, sCD40L levels in serum samples were elevated (1258 ± 820 pg/ml) compared to EDTA (64 ± 32 pg/ml) and citrate (60 ± 8.5 pg/ml) values. Additionally, sCD40L levels were dependent on storage duration. After platelet activation, sCD40L levels were significantly increased to 8278 ± 2453 pg/ml and were significantly correlated to platelet count (r = 0.96).Conclusions: Soluble CD40L levels were clearly influenced by preanalytical conditions and were dependent on storage duration, sample technique and platelet count. These influences should be considered by the determination and evaluation of sCD40L concentrations.
In patients with thrombocytopenia, sCD40L levels were clearly influenced by PLT transfusions: PLT administration led to a normalization of sCD40L plasma concentration. Nevertheless, adverse transfusion reactions did not occur in these patients. The sCD40L release capacity was enhanced by PLT administration dependent on the increase in the amount of PLT count.
Introduction: Soluble CD40L (sCD40L) is expressed by platelets and is involved in the stabilization of arterial thrombi. Additionally, it was shown that sCD40L accumulation occurred in stored blood products triggering adverse transfusion reactions like TRALI. To study the influence of the preparation technique on sCD40L accumulation and platelet function we examined CD40L concentrations in prestorage pooled platelet concentrates compared to apheresis products. In addition, sCD40L release capacity was determined as a marker for platelet viability.Material and methods: sCD40L concentrations were determined in prestorage pooled platelet concentrates (n = 8) and in platelet apheresis concentrates (n = 8) before and after platelet stimulation (recalcification and clot formation) at day 1, 3 and 5 under routine storage conditions. sCD40L concentrations were determined by a commercially available ELISA kit.Results: sCD40L concentrations in storage medium increased over time in prestorage pooled platelet concentrates (from 1,185 pg/mL ± 87 pg/mL at day 1 to 4,464 pg/mL ± 212 pg/mL at day 5) as well as in apheresis products (from 581 pg/ mL ± 124 pg/mL at day 1 to 2,718 pg/mL ± 154 pg/mL at day 5) in a hyperbolic manner. Recalcification and clot formation caused an increase in sCD40L concentrations (for example 3,842 pg/mL ± 769 pg/mL before platelet activation to 31,219 pg/mL ± 2,063 pg/mL after platelet activation at day 3), and we observed comparable release capacities for both preparation techniques, however, decreasing over storage time up to 50% (day 5) of the respective control value (day 1).Conclusions: Amounts of sCD40L accumulation and release capacity during storage of platelet concentrates were dependent on storage duration, but showed no relevant differences regarding the preparation technique. After 5 days of storage, CD40L basal levels were increased, in contrast sCD40L release capacity was decreased. By recalcification and clot formation sCD40L release capacity could be easily induced and is assumed to be used as a marker for platelet viability.
All deleterious changes in platelet morphology, structure and function that occur in platelet concentrates (PC) during storage are titled as the 'platelet storage lesion'. No single in vitro test currently available is sufficient in assessing these changes of platelet quality. The release of soluble CD40 Ligand (sCD40L), the formation of thromboxane (TXB2) and the thrombopoietin (TPO) clearance reflect different aspects of platelet metabolism and activitiy, and were used to examine platelet quality in apheresis platelet products. At days 1, 3 and 5, in single-donor apheresis platelet products (n = 10) under routine storage conditions, sCD40L (measured by ELISA) and TXB2 (measured by RIA) were determined after platelet stimulation (recalcification and clot formation). TPO (measured by ELISA) was determined after an incubation time of 5 h at 37°C with platelet-rich plasma (adjusted initial TPO concentration of about 500 pg/mL). Results were related to a therapeutic unit (TU = 2 × 10(11) platelets). Immediately after platelet preparation, sCD40L release was 41 ± 7.6 ng/TU, TXB2 formation 1688 ± 374 ng/TU and TPO clearance 1.22 ± 0.32 ng/h/TU. At days 1, 3 and 5, sCD40L was reduced to 89 ± 7%, 71 ± 12% and 57 ± 9%, TXB2 release to 91 ± 6%, 74 ± 12% and 58 ± 9% and TPO clearance to 90 ± 15%, 84 ± 5% and 79 ± 10% of the respective control values. In conclusion, in single-donor apheresis PC, sCD40L release and TXB2 formation as well as TPO clearance by the platelets were dependent on storage duration and reduced to about 60% to 80% of the respective control values after a storage period for 5 days. These findings are in line with literature data, indicating that a loss of platelet functionality of about 30% will occur after 5 days of storage.
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