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Platelet recovery and survival measured in patients by quantitative polymerase chain reaction of mitochondrial DNA
Author(s) -
Doescher Andrea,
Petershofen Eduard K.,
Hertenstein Bernd,
Kraemer Doris,
Casper Jochen,
Schmidt JörgPeter,
Müller Thomas H.
Publication year - 2015
Publication title -
transfusion
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.045
H-Index - 132
eISSN - 1537-2995
pISSN - 0041-1132
DOI - 10.1111/trf.12778
Subject(s) - ex vivo , polymerase chain reaction , platelet , mitochondrial dna , microbiology and biotechnology , population , plateletpheresis , hypervariable region , in vivo , immunology , real time polymerase chain reaction , biology , medicine , apheresis , andrology , genetics , antibody , gene , environmental health
Background Mitochondrial (mt) DNA markers have been identified as potential targets for the quantification of endogenous and allogeneic platelets ( PLTs ) in the blood of individuals who received transfusions. Our goal was to develop a routine polymerase chain reaction ( PCR ) assay for ex vivo monitoring of PLT survival in patients after transfusion. Study Design and Methods Targets were selected for real‐time ( RT )‐ PCR of mt DNA based on the frequency distribution of nucleotide polymorphisms and assay sensitivity in vitro. The assays were then evaluated with ex vivo samples to measure PLT survival and recovery of therapeutic doses of apheresis PLT s in hematooncologic patients with thrombocytopenia. Results Nucleotides in two positions (73/310 hypervariable region [ HVR ] 2) and three positions (295 HVR 2, 16069/16311 HVR 1) had allele frequencies of approximately 0.5 and 0.85, respectively, in a population of 960 C aucasian PLT donors. They provided targets for sensitive assays detecting at least 1 × 10 3 PLTs per whole blood sample with adequate reproducibility (interassay coefficient of variation <4.0%). Transfusions of single‐donor PLT concentrates in patients with thrombocytopenia (n = 30) were monitored with these markers. The mean 24‐hour corrected count increment was 8.3 and the mean calculated survival time was 3.3 days. Results for a second marker were available for 13 transfusions. The survival time values derived from both markers for the same transfusion were almost identical (linear regression: r 2 = 0.957, slope = 0.87). Conclusion This RT ‐ PCR method detects mt DNA polymorphisms in C aucasians for a highly sensitive and reproducible quantification of endogenous and allogeneic PLT numbers in blood samples from transfused patients with thrombocytopenia.