供体人群恒河猴系统抗原流行特征分析

Q4 Biochemistry, Genetics and Molecular Biology

International Journal of Biology and Biomedical Engineering Pub Date : 2021-04-15 DOI:10.46300/91011.2021.15.10

M. Nagervadze, L. Akvlediani, I. Tsintsadze, T. Koiava, R. Loria, S. Tskvitinidze, R. Khukhunaishvili, M. Koridze

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C antigen most common is present in the combination with D antigen. 65, 8 % case donors had CD+ combination (n=561). E antigen in most cases is presented with a combination of D antigen. 36, 9% of the studied donors (n=306) had ED+ combination. A miserable number of studied donors had CD - (2,23%; n=19) and ED - (1,17%; n=9) combinations. We have studied the Rh phenotypes prevalence in blood donors. According to RHD, RHC, and RHE gene loci, there are 18 theoretically possible phenotypical groups. Among them half (nine) are Rh-positive and the rest of them are Rh-negative. The Rh-positive phenotypes are: CDE; CDEe; CDe; CcDE; CcDEe; CcDe; ccDE; cDEe and cDe. Rh-negative phenotypes are CdE; CdEe; Cde; CcdE; CcdEe; Ccde; cdE; cdEe; cde. We allocated 17 Rh phenotypes among studied donors. Only one phenotype CdE, which belongs to Rh negative group, was not present in studied donors. Other 17 phenotypes showed different frequencies. 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引用次数: 0

摘要

研究材料和方法。852名格鲁吉亚自愿献血者接受了红细胞群抗原的分型。研究材料取自巴统保健中心(格鲁吉亚共和国)诊断实验室。采用单克隆抗- ab、- b、- a、A1、- a2 (H)、-c、-c、- D、-e、-e (Bio-Rad、cypress diagnostics)抗体的免疫血清学方法进行分型。同时还采用ABO/D +反向分组(Bio-Rad)等身份证进行红细胞抗原分型。结果。Rh系统抗原在研究组的患病率如下:e抗原- 94.6%，c抗原-85%，c -68,03, e抗原- 38,07%。大多数(84%)供者为rh阳性(n=719)， 133(16%)供者为rh阴性。C抗原最常见的是与D抗原结合。65.8%的供体为CD+组合(n=561)。E抗原在大多数情况下表现为与D抗原的结合。36.9%的供者(306例)有ED+联合。在被研究的供者中，有相当一部分人患有乳糜泻(2,23%;n=19)和ED - (1,17%;n = 9)组合。我们研究了Rh表型在献血者中的患病率。根据RHD、RHC和RHE基因位点，理论上有18个可能的表型组。其中一半(9个)为rh阳性，其余为rh阴性。rh阳性表型为:CDE;CDEe;CDe;CcDE;CcDEe;CcDe;ccDE;cDEe和cDe。rh阴性表型为CdE;CdEe;Cde;CcdE;CcdEe;Ccde;cdE;cdEe;cde。我们在研究的供体中分配了17种Rh表型。只有一种属于Rh阴性组的表型CdE在研究供体中不存在。其他17种表型表现出不同的频率。有的只在一个病例中出现，如cdEe、cdE、cdEe表型只有一个供体。本研究供者的主要表型(27.8±1.53%)为CcDe (n=237)。CcDEe -19,3±1,35% (n=165);125例供体有CDe表型(14.6±1,2);cde的发生率为13.1±1.5%，即112例供体属于该表型组;87名研究供体具有cDEe表型特征(10.2%);cDe发生率为4.9% (n=42);19名供体有CDEe表型。其他表型(CDE、CDE、CcdEe、Ccde)发生率极低。结论。我们研究的供体具有相当高的多态性。格鲁吉亚供体人群是异质的，特别是Rh阳性表型显示出高度异质性。所得数据对全血或某些血液成分的制备及其在输血中的合理使用具有重要意义。

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The Features of Antigen Prevalence of Rhesus System in Donor Population

Research materials and methods. 852 voluntary Georgian blood donors have been typed on red blood cells group antigens. The research materials have taken from the diagnostic laboratory of Health Centre of Batumi (Georgia republic). The immunoserological methods with monoclonal anti –AB, -B, -A, A1, -A2 (H), -C, -c, - D, -E, -e (Bio-Rad, cypress diagnostics) antibodies was used for typing blood. The ID cards, such as ABO/D + Reverse Grouping (Bio-Rad) were also used for typing of erythrocyte antigens. Result. Prevalence of Rh system antigens in the studied group is looks like so: e antigens – 94,6%, c antigens -85%, C-68,03, E antigens - 38,07%. The majority (84%) of the studied donors are Rh-positive (n=719), 133 (16%) donors are Rh-negative. C antigen most common is present in the combination with D antigen. 65, 8 % case donors had CD+ combination (n=561). E antigen in most cases is presented with a combination of D antigen. 36, 9% of the studied donors (n=306) had ED+ combination. A miserable number of studied donors had CD - (2,23%; n=19) and ED - (1,17%; n=9) combinations. We have studied the Rh phenotypes prevalence in blood donors. According to RHD, RHC, and RHE gene loci, there are 18 theoretically possible phenotypical groups. Among them half (nine) are Rh-positive and the rest of them are Rh-negative. The Rh-positive phenotypes are: CDE; CDEe; CDe; CcDE; CcDEe; CcDe; ccDE; cDEe and cDe. Rh-negative phenotypes are CdE; CdEe; Cde; CcdE; CcdEe; Ccde; cdE; cdEe; cde. We allocated 17 Rh phenotypes among studied donors. Only one phenotype CdE, which belongs to Rh negative group, was not present in studied donors. Other 17 phenotypes showed different frequencies. Some of them were only in a single case, for example, cdEe, cdE, CdEe phenotypes had only one donor. The majority of the phenotype in he studied donors (27,8±1,53%) was CcDe (n=237). CcDEe -19,3±1,35% (n=165); 125 donors have CDe phenotype (14,6±1,2); The frequency of cde was 13,1±1,5%, which means that 112 studied donors belonged to this phenotype group; 87 studied donors had cDEe phenotype characteristics (10,2%); The frequency of cDe was 4,9% (n=42); 19 donors had CDEe phenotype. Other phenotypes (CDE, Cde, CcdEe, Ccde) frequency was very low. Conclusion. Our studied donors are characterized by rather high polymorphism. The Georgian donor’s population is heterogenic, especially high heterogeneity are shown in Rh positive phenotypes. The obtained data is vital importance for the preparation of whole blood or certain blood components for the purpose of their rational usage in blood transfusion.

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International Journal of Biology and Biomedical Engineering Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (all)

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