RhC表型、吸附/洗脱试验和SSP-PCR:泰国RhC阴性献血者d -洗脱表型筛选的联合试验

ISRN Hematology Pub Date : 2012-01-01 Epub Date: 2012-11-14 DOI:10.5402/2012/358316
Songsak Srijinda, Chamaiporn Suwanasophon, Unchalee Visawapoka, Malinee Pongsavee
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引用次数: 20

摘要

恒河猴(Rh)血型是人类最具多态性的血型,在输血医学中具有重要的临床意义。其中,D抗原是最重要且免疫原性高的抗原。由于抗- d,它是新生儿溶血性疾病和输血反应的原因。大约0.1%-0.5%的亚洲人是rh阴性,而在泰国人群中,rh阴性血型仅占0.3%。东亚人群中约有10%-30%的rhd阴性实际上是D-洗脱(DEL)表型,这是一种非常弱的D抗原,无法通过间接抗球蛋白试验(IAT)检测到。有许多关于通过输入DEL表型个体的红细胞在rhd阴性受体中进行抗d免疫的报道。研究了泰国rhd阴性献血者的d -洗脱表型筛选,以区分真rhd阴性和DEL表型。对254名血清学上rhd阴性的泰国献血者进行了RhCE表型检测和抗d吸附/洗脱试验。此外,利用SSP-PCR技术对RhC(+)样品进行RHD 1227A等位基因检测。rhd阴性表型样本包括131个ccee、4个ccee、1个ccee、101个ccee、16个ccee和1个ccee。42份Ccee和8份Ccee表型样品被分型为DEL表型,96%的DEL样品RHD 1227A等位基因阳性。118份RhC(+)样本中48份RHD 1227A等位基因抗d吸附/洗脱试验和SSP-PCR技术均呈阳性。与吸附/洗脱法相比,RHD 1227A检测的灵敏度和特异性分别为96%和100%。综上所述,RhC(+)表型可以结合抗d吸附/洗脱试验和RHD 1227A等位基因SSP-PCR技术区分真RHD阴性和DEL表型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

RhC Phenotyping, Adsorption/Elution Test, and SSP-PCR: The Combined Test for D-Elute Phenotype Screening in Thai RhD-Negative Blood Donors.

RhC Phenotyping, Adsorption/Elution Test, and SSP-PCR: The Combined Test for D-Elute Phenotype Screening in Thai RhD-Negative Blood Donors.

RhC Phenotyping, Adsorption/Elution Test, and SSP-PCR: The Combined Test for D-Elute Phenotype Screening in Thai RhD-Negative Blood Donors.

The Rhesus (Rh) blood group is the most polymorphic human blood group and it is clinically significant in transfusion medicine. Especially, D antigen is the most important and highly immunogenic antigen. Due to anti-D, it is the cause of the hemolytic disease of the newborn and transfusion reaction. About 0.1%-0.5% of Asian people are RhD-negative, whereas in the Thai population, the RhD-negative blood type only occurs in 0.3%. Approximately 10%-30% of RhD-negative in Eastern Asian people actually were D-elute (DEL) phenotype, the very weak D antigen that cannot be detected by indirect antiglobulin test (IAT). There are many reports about anti-D immunization in RhD-negative recipients through the transfusion of red blood cells from individuals with DEL phenotype. D-elute phenotype screening in Thai RhD-negative blood donors was studied to distinguish true RhD-negative from DEL phenotype. A total of 254 Thai serologically RhD-negative blood donors were tested for RhCE phenotypes and anti-D adsorption/elution test. In addition, RhC(+) samples were tested for RHD 1227A allele by SSP-PCR technique. The RhD-negative phenotype samples consisted of 131 ccee, 4 ccEe, 1 ccEE, 101 Ccee, 16 CCee, and 1 CcEe. The 42 Ccee and 8 CCee phenotype samples were typed as DEL phenotype and 96% of DEL samples were positive for RHD 1227A allele. The incidence of RhC(+) was 46.4%, and 48 of the 118 RhC(+) samples were positive for both anti-D adsorption/elution test and SSP-PCR technique for RHD 1227A allele. The sensitivity and specificity were 96% and 100%, respectively, for RHD 1227A detection as compared with the adsorption/elution test. In conclusion, RhC(+) phenotype can combine with anti-D adsorption/elution test and RHD 1227A allele SSP-PCR technique for distinguishing true RhD-negative from DEL phenotype.

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