B-253 Performance Characteristics and Validation of Next-Generation Sequencing for Human Leucocyte Antigen Typing

Abstract

Abstract Background High-resolution human leukocyte antigen (HLA) typing is a crucial process in transplant matching. Sequencing-based typing (SBT) has been the gold standard method used in HLA-based clinical applications. Recently, next-generation sequencing (NGS) has been adopted in clinical laboratories for HLA typing. NGS HLA typing assays cover whole or near-whole target HLA genes, allowing the detection of genetic variants outside of key exons. Multiplex amplicon-based NGS is an efficient high-resolution HLA typing method with minimal ambiguity and a high throughput. Here, we report the performance and validation of NGS for HLA typing and compare the results obtained using NGS with those of SBT to identify any discrepancies between the 2 methods. Methods A total of 237 samples from 2019 to July 2022 were collected from Chang Gung Memorial Hospital, including 42 samples previously subjected to SBT sequencing for 4-digit HLA analysis. NGS was performed for 5 whole genes (HLA-A/B/C/DQA1/DPA1) and 3 near-whole genes (HLA-DRB1/DQB1/DPB1; excluding exon 1 and part of intron 1) by using the AllType NGS kit (One Lambda), Illumina MiSeq platform, and Type Steam Visual NGS analysis software (One Lambda). Results Our validation process comprised 34 NGS runs and 237 samples. In total, 42 samples were analyzed with an overall accuracy and precision of 100% and 100% reproducibility. The overall ambiguity rate was 0% in HLA-A/B/C compared with 56.9% for SBT. Two discrepant alleles of HLA-A and DRB1 were noted in NGS and Sanger sequencing. In accordance with additional SBT exon analyses, one of the results was corrected according to the NGS results. Conclusion NGS HLA typing is a high-throughput approach with high accuracy and precision and a low ambiguity and is promising for use in clinical HLA laboratories.