Objective: Our purpose was to develop a molecular assay to determine the human platelet antigen system 1 status on single nucleated cells, including human blastomeres.
Study design: Eighty single cultured lymphoblasts of known human platelet antigen system 1 genotype and 24 media blanks were mixed in blinded fashion. Amplification of a 246 bp deoxyribonucleic acid fragment and subsequent Nci I restriction digestion were performed to distinguish human platelet antigen system 1a from 1b alleles. Specificity and sensitivity of the technique were determined. Eight blastomeres were also tested.
Results: Deoxyribonucleic acid amplification at the human platelet antigen system 1 locus was successful in 95% of the reactions. No media blanks showed amplified deoxyribonucleic acid. The diagnosis was correct in all homozygous human platelet antigen system 1a or 1b cells; three of 23 heterozygous cells amplified but failed to digest with Nci I. Overall specificity was 95%. All blastomeres successfully amplified.
Conclusions: The human platelet antigen system 1 status determination is reliable from a single cell and can be used for preimplantation genetic diagnosis for the prevention of alloimmune thrombocytopenia.