靶向二代测序在儿科遗传性溶血性贫血诊断中的应用。
Diagnostic yield of targeted next-generation sequencing for pediatric hereditary hemolytic anemia.
机构信息
Department of Laboratory Medicine, Yonsei University College of Medicine, Seoul, Republic of Korea.
Department of Laboratory Medicine, Chung-Ang University Gwangmyung Hospital, Chung-Ang University College of Medicine, Gwangmyung, Republic of Korea.
出版信息
BMC Med Genomics. 2023 Sep 11;16(1):215. doi: 10.1186/s12920-023-01648-y.
BACKGROUND
Hereditary hemolytic anemia (HHA) refers to a heterogeneous group of genetic disorders that share one common feature: destruction of circulating red blood cells (RBCs). The destruction of RBCs may be due to membranopathies, enzymopathies, or hemoglobinopathies. Because these are genetic disorders, incorporation of next-generation sequencing (NGS) has facilitated the diagnostic process of HHA.
METHOD
Genetic data from 29 patients with suspected hereditary anemia in a tertiary hospital were retrospectively reviewed to evaluate the efficacy of NGS on hereditary anemia diagnosis. Targeted NGS was performed with custom probes for 497 genes associated with hematologic disorders. After genomic DNA was extracted from peripheral blood, prepared libraries were hybridized with capture probes and sequenced using NextSeq 550Dx (Illumina, San Diego, CA, USA).
RESULT
Among the 29 patients, ANK1 variants were detected in five, four of which were pathogenic or likely pathogenic variants. SPTB variants were detected in six patients, five of which were classified as pathogenic or likely pathogenic variants. We detected g6pd pathogenic and spta1 likely pathogenic variants in two patients and one patient, respectively. Whole-gene deletions in both HBA1 and HBA2 were detected in two patients, while only HBA2 deletion was detected in one patient. One likely pathogenic variant in PLKR was detected in one patient, and one likely pathogenic variant in ALAS2 was detected in another.
CONCLUSION
Here, NGS played a critical role in definitive diagnosis in 18 out of 29 patients (62.07%) with suspected HHA. Thus, its incorporation into the diagnostic workflow is crucial.
背景
遗传性溶血性贫血(HHA)是指一组具有共同特征的遗传疾病,即循环红细胞(RBC)破坏。RBC 的破坏可能是由于膜病变、酶病变或血红蛋白病变引起的。由于这些是遗传疾病,因此下一代测序(NGS)的应用促进了 HHA 的诊断过程。
方法
回顾性分析了一家三级医院 29 例疑似遗传性贫血患者的遗传数据,以评估 NGS 对遗传性贫血诊断的疗效。使用与血液系统疾病相关的 497 个基因的定制探针进行靶向 NGS。从外周血提取基因组 DNA 后,将制备的文库与捕获探针杂交,使用 NextSeq 550Dx(Illumina,圣地亚哥,CA,美国)进行测序。
结果
在 29 例患者中,ANK1 变异在 5 例中检出,其中 4 例为致病性或可能致病性变异。SPTB 变异在 6 例中检出,其中 5 例为致病性或可能致病性变异。我们在 2 例患者中分别检测到 g6pd 致病性和 spta1 可能致病性变异,在 1 例患者中检测到 g6pd 致病性和 spta1 可能致病性变异。在 2 例患者中均检测到 HBA1 和 HBA2 全基因缺失,而在 1 例患者中仅检测到 HBA2 缺失。在 1 例患者中检测到 PLKR 中的 1 个可能致病性变异,在另 1 例患者中检测到 ALAS2 中的 1 个可能致病性变异。
结论
在这里,NGS 在 29 例疑似 HHA 患者中的 18 例(62.07%)中发挥了关键的确诊作用。因此,将其纳入诊断工作流程至关重要。
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