ABO system combination with Rh, Kell and MN group in Georgian blood donors.

American journal of blood research Pub Date : 2021-04-15 eCollection Date: 2021-01-01

Marina Nagervadze, Irine Tsintsadze, Leila Akhvlediani, Tea Koiava, Sophiko Tskvitinidze, Rusudan Khukhunaishvili, Marina Koridze

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Abstract

There are numerous scientific data about the study of the prevalence of blood group antigens in the different donor population. Several studies showed that the profile of major blood group antigens is not similar in blood donors from different local areas.

Research objective: Our scientific goal was to study of the prevalence blood group antigens in the Georgian blood donor population. In the current study, we analyzed the 48 phenotypically combinations based on four major (ABO, Rh, Kell, and MN) blood groups.

Research methods: The blood of 1009 donors has been studied on RBC antigens. The sample were collected from the diagnostic laboratory of Medina Ltd Health Centre of Batumi. Blood typing of the sample has been carried out on the basis of the immunogenetics laboratory of Batumi Shota Rustaveli State University. The universal monoclone antibodies was used for identify minor blood group antigens. We used as forward as reverse grouping methods. For identification erythrocytes, blood group antigens also were used ID cards, such as ABO/D + Reverse Grouping.

Result: 12 phenotypic combinations have been identified in each O, A, B, AB group of ABO system. Out of 48 theoretically possible phenotypic combinations, we can actually find 1,9 times less phenotypes and the real amount is 25 phenotypes. The remaining 23 phenotypic combinations have not been observed in the studied donors. These are: 1. O, Rh^-K⁺ MM; 2. O, Rh^-K^- MN; 3. O, Rh^-K^- NN; 4. A, Rh^-K⁺ MN; 5. A, Rh^-K⁺ MM; 6. A, Rh^-K⁺ NN; 7. A, Rh^-K^- MM; 8. A, Rh^-K^- NN; 9. B, Rh⁺K⁺ NN; 10. B, Rh^-K⁺ MN; 11. B, Rh^-K⁺ MM; 12. B, Rh^-K⁺ NN; 13. B, Rh^-K^- MN; 14. B, Rh^-K^- MM; 15. B, Rh^-K^- NN; 16. AB, Rh⁺K⁺ MN; 17. AB, Rh⁺K⁺ NN; 18. AB, Rh⁺K^- NN; 19. AB, Rh⁺K^- MM; 20. AB, Rh^-K⁺ MN; 21. AB, Rh^-K⁺ MM; 22. AB, Rh^-K⁺ NN; 23. B, Rh^-K^- NN. The value of χ² in the case is equal to 3221,16. The P-Value is < .00001. The result is significant at P < .05. Out of 1009 studied donors 349 are carriers of phenotypic group A (II), while 19 donors carry AB (IV) group specification. This means that 36.23% of the studied donors have A antigen on the surface of erythrocyte membrane. The majority of them A1 subgroup.

Conclusion: As our research showed there is a quit high polymorphism of blood group phenotype combinations in Georgian blood donors in the example of one clinic. This kind of data is very important for the clinics' rational preparation of whole blood or blood components.

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格鲁吉亚献血者ABO系统与Rh、Kell和MN组的结合。

关于血型抗原在不同供体人群中的流行程度的研究有大量的科学数据。几项研究表明，不同地区献血者的主要血型抗原谱不相似。研究目的:我们的科学目标是研究在格鲁吉亚献血者人群中流行的血型抗原。在目前的研究中，我们分析了基于四种主要血型(ABO、Rh、Kell和MN)的48种表型组合。研究方法:对1009例献血者的血液进行了红细胞抗原研究。样本从巴统麦地那有限保健中心诊断实验室收集。在巴统Shota Rustaveli国立大学免疫遗传学实验室的基础上对样本进行了血型分析。通用单克隆抗体用于少数血型抗原的鉴定。我们采用了正向和反向的分组方法。对于红细胞的识别，也使用血型抗原身份证，如ABO/D +反向分组。结果:ABO系统O、A、B、AB组各鉴定出12个表型组合。在48种理论上可能的表型组合中，我们实际上能找到的表型少了1.9倍，而实际数量是25种。其余23种表型组合未在研究供体中观察到。它们是:1;O, Rh-K+ MM;2. Rh-K- MN;3.O, Rh-K- NN;4. A, Rh-K+ MN;5. A, Rh-K+ MM;6. A, Rh-K+ NN;7. A, Rh-K- MM;8. A, Rh-K- NN;9. B, Rh+K+ NN;10. B, Rh-K+ MN;11. B, Rh-K+ MM;12. B, Rh-K+ NN;13. B, Rh-K- MN;14. B, Rh-K- MM;15. B, Rh-K- NN;16. AB, Rh+K+ MN;17. AB, Rh+K+ NN;18. AB, Rh+K- NN;19. AB, Rh+K- MM;20.AB, Rh-K+ MN;21. AB, Rh-K+ MM;22. AB, Rh-K+ NN;23. B, Rh-K- NN。在这种情况下，χ2的值等于3221,16。p值< 0.00001。P < 0.05，差异有统计学意义。在1009名被研究的献血者中，349名是表型组A (II)的携带者，而19名献血者携带AB (IV)组规格。这意味着36.23%的供者在红细胞膜表面有A抗原。其中大多数是A1亚群。结论:我们的研究表明，在一个诊所的例子中，格鲁吉亚献血者的血型表型组合具有很高的多态性。这些数据对临床合理制备全血或血液成分具有重要意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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American journal of blood research MEDICINE, RESEARCH & EXPERIMENTAL-

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