|Year : 2019 | Volume
| Issue : 2 | Page : 56-61
A cross sectional preliminary study on the prevalence of ABO and rhesus blood groups in Bani Waleed City, Libya
Samira Daw Ameigaal, Ahmed A Ageel
Department of Laboratory, Higher Institute of Medical Technology, Bani Waleed, Libya
|Date of Submission||05-Aug-2019|
|Date of Acceptance||20-Oct-2019|
|Date of Web Publication||30-Dec-2019|
Samira Daw Ameigaal
Department of Laboratory, Higher Institute of Medical Technology, Atahara Street, Bani Waleed City
Source of Support: None, Conflict of Interest: None
Background: The distribution of ABO and rhesus (Rh) blood groups has been reported to be different in several world populations. There have been few studies about blood groups among Libyan population. Aims: The study aims to determine the distribution and frequency of ABO and Rh blood groups among Libyan population in Bani Waleed city. Subjects and Methods: The study group had included 344 participants of both genders aged between 15 and 80 years. Blood samples were collected for ABO and Rh blood group analysis from September to December 2018. Results: The percentage of male participants was 55.8% and 48.2% were female. The highest percentage (30.2%) were among the age group of 23–32 years. O blood group was the most common (43.6%), followed by A (31.7%), B (17.7%), and finally, AB blood group (7.0%). The percentage of Rh positive (Rh+) was 72.2% and of Rh negative (Rh−) was 23.8%. Moreover, the prevalence of ABO with Rh+ was 33.4%, 27.6%, 11.3%, and 4.7% for O+, A+, B+, and AB+, respectively. The prevalence of ABO with Rh− was 9.9%, 6.11%, 4.1%, and 2.6% for O−, B−, A−, and AB−, respectively. Conclusion: The distribution of ABO blood group in the present study is ordered of O > A> B > AB with majority of Rh+ and higher frequencies of Rh−. The findings of this study will contribute in health services and use them as database to know detailed information of blood types such as for blood bank and blood transfusion and also to be used in population studies.
Keywords: ABO, Bani Waleed, blood groups, Libya, rhesus factor
|How to cite this article:|
Ameigaal SD, Ageel AA. A cross sectional preliminary study on the prevalence of ABO and rhesus blood groups in Bani Waleed City, Libya. Libyan Int Med Univ J 2019;4:56-61
|How to cite this URL:|
Ameigaal SD, Ageel AA. A cross sectional preliminary study on the prevalence of ABO and rhesus blood groups in Bani Waleed City, Libya. Libyan Int Med Univ J [serial online] 2019 [cited 2022 Sep 24];4:56-61. Available from: https://journal.limu.edu.ly/text.asp?2019/4/2/56/274400
| Introduction|| |
The ABO blood groups were discovered by Landsteiner in 1901, who divided them into four types, namely A, B, AB, and O blood groups. This division depends on the presence or absent of certain antigens on red blood cell surface. These antigens are inherited from parents and controlled by gene called ABO glycosyltransferase that located on chromosome 9q34.1. Currently, there are 700 antigens that have been reported into 30 blood group systems; and ABO is the most studied group in the human population.
The ABO blood groups have an important role in blood transfusion, where blood donor group must be identical with blood receive group. In addition, the ABO blood groups are important in different medical fields; for example, there is a relationship between race and ABO blood group distributions, and it has been important in immunohematology anthropological research. Furthermore, an association was reported between ABO blood group and many diseases such as cancer,,, heart diseases, and diabetes mellitus.
Rhesus (Rh) factor was discovered by both Landsteiner and Weiner. There are two types of Rh factors depending on the presence or absence of antigen D on red cell surface (Rh+ and Rh−). Rh antigens are determined by three pairs of allelic genes that located on chromosome one. Rh factor is important during blood transfusion and pregnancy because it causes hemolytic transfusion reaction or hemolytic disease of a newborn when the Rh− mother has been sensitized to Rh+ blood.
The distribution of ABO and Rh blood groups has been reported in different populations of the world. Many studies have found that blood group O was the most common type in the USA (46.6%), China (34%), and Denmark 42.3%. The proportion of Rh− reported was different according to the population studied. It was 14.6% in the USA, 17.9% in Denmark, and 1.0% in China. The frequency of Rh− blood group in Al Bayda city in eastern Libyan was reported to be 16%.
The present study was aimed to investigate the distribution of ABO and Rh blood groups in Bani Waleed city population and to compare them with other results from similar studies within Libya and all over the world.
| Subjects and Methods|| |
This is a cross-sectional study carried out between September and December 2018. The participants were recruited from different clinics including Bani Waleed Hospital, Bani Waleed University, and Bani Waleed private clinics. The study group included 344 individuals of both genders aged between 15 and 80 years. Clinical characteristics were obtained for each participant using an Arabic structured questionnaire including name, gender, age, weight, height, medical history (including diabetes mellitus, heart diseases, hypertension, and anemia), type of blood group, and address of residence. The participants were taken from different regions of Bani Waleed to detect if there is an effect of geographic factor on blood group distribution. Each participant gave his/her consent about the involvement in this study.
Blood sample collection and blood group determination
Peripheral blood was collected from each participant in the study. Blood groups were done by slide agglutination method. ABO blood group was determined from each sample by agglutination using anti-A and anti-B antibodies (Immucor Inc., Norcross, GA, USA). Rh factor was determined by agglutination using anti-D antibody (Immucor Inc., Norcross, GA, USA).
The proportion of the frequencies and distributions of ABO and Rh blood groups was analyzed using SPSS version 19.0 (SPSS, Chicago, IL, USA). The Chi-square test was used to evaluate the differences in ABO and Rh blood groups among the different groups across all categories and characteristics. P < 0.05 was considered to be statistically significant.
| Results|| |
[Table 1] shows the distribution of ABO and Rh blood groups in 344 participants according to gender, age, and geographic location. About 55.8% of the participants were male, whereas 44.2% were female. The age distribution of the participants was 16.8%, 30.2%, 23.5%, 13.0%, and 6.6% for the age groups of 12–22, 23–33, 34–44, 45–55, and 46–66 years, respectively. About 9.85% were above 66 years old. The mean age of all the participants was 34.87 years.
The geographic location of the participated individuals belongs to nine areas of Bani Waleed city, namely Center of the city (24.1%), Athara area (21.2%), Aloteieen (20.1%), Industrial area (12.8%), Airport area (2.3%), Tenenai area (7.6%), 51 area (6.1%), Almardom area (3.8%), and Ashmieg area (2.0%).
Distribution of ABO blood groups
The distribution of ABO blood groups is illustrated in [Figure 1]. Type O was the most prevalent (43%), whereas AB type was the least prevalent (7%). The frequencies of ABO blood groups between genders were analyzed, as illustrated in [Table 2] with no significant difference between them (P = 0.687). The frequencies of ABO blood group among geographic regions of Bani Waleed are given in [Table 3] with no significant difference between them (P = 0.48).
|Figure 1: Pie chart shows the distribution of ABO blood group in Libyan population in Bani Waleed city|
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|Table 3: Geographic distribution of ABO blood group among study subjects|
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Distribution of rhesus blood group in study population
The frequency of Rh+ in the total sample was 76.2%, whereas Rh− was 23.8% as illustrated in [Table 4]. The frequencies of Rh type showed a significant difference (P = 0.017) between the different geographic regions of Bani Waleed using the Chi-square test [Table 4]. On the other hand, no significant difference in the frequencies of Rh type among genders was found [Table 5].
Distribution of ABO and rhesus blood groups in study population
The frequencies of ABO with Rh blood groups are presented in [Table 6]. The O+ type was the most prevalent (33.4%), whereas the AB− was the least prevalent (2.6%).
The frequencies of ABO and Rh types among genders are presented in [Table 7]. No significant difference was seen among genders (P = 0.669).
|Table 7: Gender distribution of ABO and Rh blood groups among study subjects|
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| Discussion|| |
The prevalence and distribution of blood groups have been reported to be different in different parts of the world attributed to genetic factors and race differences., This type of study has an important role in medical practice such as blood transfusion service and organ transplants.
The results of this study had shown that O blood group was the most frequent, followed by A group, B group, and finally, AB blood group. These results are in good agreement with the previous local studies in Al Bayda city in eastern Libyan and western Libya. Moreover, similar results were reported internationally in the USA, China, Mauritania, Sudan, and Saudi Arabia. These results suggest that O blood type is the most common and AB is the least common in most world populations. On the other hand, there are other studies that reported different proportions of ABO blood groups, such as the study in Pakistan that reported blood Group B was the most common. Likewise, A blood group was reported to be the most common in Nepal and Syrian populations., Moreover, our study revealed that gender or location has no significant effect on the frequency of ABO blood groups which are in agreement with a previous study carried out in Nigeria.
As per the results related to Rh blood group, Rh+ was the highest in our study population (76.2%) compared to (23.2%) Rh− group. However, our population with Rh− blood group are higher than those reported internationally in Tanzania (3.2%), the USA (14.6%), and China 1.0%. Local results of Al Bayda city in eastern Libya reported 16% of the study population with Rh− blood group and 8% of Rh− in the Fezzan region. Many studies had concluded that Rh+ is a dominant antigen in contrast with Rh−.,
Knowledge of availability and type of blood groups is important for more efficient delivery of blood bank services. Further, blood group for every individual must be indicated on national identity cards and driving licenses. It will be of tremendous use in case of emergencies when urgent transfusion of yet to be cross-matched blood is required.
| Conclusion|| |
The distribution of ABO blood group in Bani Waleed city is in the order of O > A > B > AB with higher frequencies of Rh− than reported internationally. The data of the current study and other studies of different geographical regions of Libya will be useful to health planners to face future health challenges in the region.
Study limitations include small sample size and the inability to study the effect of race on the distribution of ABO and Rh blood groups in different regions of the country. This can be suggested as an extension of this important study all over Libya.
We would like to thank all blood participants in this study and also we are grateful to all staff in laboratory department in Bani Waleed Hospital and Higher Medical Institute in Bani Waleed.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
Garratty G, Dzik W, Issitt PD, Lublin DM, Reid ME, Zelinski T. Terminology for blood group antigens and genes-historical origins and guidelines in the new millennium. Transfusion 2000;40:477-89.
Jolly JG. Medicolegal significance of human blood groups. J Indian Med Assoc 2000;98:340-1.
Farhud DD, Zarif Yeganeh M. A brief history of human blood groups. Iran J Public Health 2013;42:1-6.
Dzieczkowski JS, Anderson KC. Blood group antigens and therapy. In: Harrison's Principles of International Medicine. 14th
ed. New York: McGraw Hill; 1998.
Harmening MD, Firestone D. The ABO blood group system. In: Harmening MN, editor. Modern Blood Banking and Transfusion Practices. 5th
ed. Philadelphia, USA: FA Davis Company; 2005. p. 108-32.
Aird I, Bentall HH, Roberts JA. A relationship between cancer of stomach and the ABO blood groups. Br Med J 1953;1:799-801.
Amundadottir L, Kraft P, Stolzenberg-Solomon RZ, Fuchs CS, Petersen GM, Arslan AA, et al.
Genome-wide association study identifies variants in the ABO locus associated with susceptibility to pancreatic cancer. Nat Genet 2009;41:986-90.
Xie J, Qureshi AA, Li Y, Han J. ABO blood group and incidence of skin cancer. PLoS One 2010;5:e11972.
Anstee DJ. The relationship between blood groups and disease. Blood 2010;115:4635-43.
Bener A, Yousafzai MT. The distribution of the ABO blood groups among diabetes mellitus patients in Qatar. Niger J Clin Pract 2014;17:565-8.
] [Full text]
Landsteiner K, Weiner AS. An agglutinable factor in human blood recognized by immune sera for rhesus blood. Proc Soc Exp Biol Med 1940;43:223-4.
Bethesda DL. Blood groups and red cell antigens. In: The Rh Blood Group. USA: National Center for Biotechnology Information; 2005. p. 1-6.
Garratty G, Glynn SA, McEntire R, Retrovirus Epidemiology Donor Study. ABO and Rh(D) phenotype frequencies of different racial/ethnic groups in the United States. Transfusion 2004;44:703-6.
Guo N, Wang J, Ness P, Yao F, Dong X, Bi X, et al.
Demographics of apheresis platelet donors in five blood centers in China. Transfusion 2012;52:560-6.
Vasan SK, Rostgaard K, Majeed A, Ullum H, Titlestad KE, Pedersen OB, et al.
ABO blood group and risk of thromboembolic and arterial disease: A study of 1.5 million blood donors. Circulation 2016;133:1449-57.
Saad K. Distribution of ABO blood groups and resus factor (RH) in Albiyda/Libya. Quest J J Med Dent Sci Res 2016;3:28-31.
Cavalli-Sforza LL, Feldman MW. The application of molecular genetic approaches to the study of human evolution. Nat Genet 2003;33 Suppl:266-75.
Bangham J. Blood groups and human groups: Collecting and calibrating genetic data after world war two. Stud Hist Philos Biol Biomed Sci 2014;47 Pt A: 74-86.
Roback JD, Grossman B, Harris JT, Hillyer CD. American Association of Blood Banks: Technical Manual. Maryland: American Association of Blood Banks; 2011.
Noor F, Eldin FI. ABO, Rh, Gene frequency: A comparative study between different countries. Indian Internet J Foren Med Toxicol 2013;11:23-32.
Hamed CT, Bollahi MA, Abdelhamid I, Med Mahmoud MA, Ba B, Ghaber S, et al.
Frequencies and ethnic distribution of ABO and Rh(D) blood groups in Mauritania: Results of first nationwide study. Int J Immunogenet 2012;39:151-4.
Abbas AA. Frequency of ABO and Rh D blood groups among Sudanese blood donors. Int J Med Res Prof 2017;3;45-51.
Sarhan MA, Saleh KA, Bin-Dajem SM. Distribution of ABO blood groups and rhesus factor in Southwest Saudi Arabia. Saudi Med J 2009;30:116-9.
Khattak ID, Khan TM, Khan P, Shah SM, Khattak ST, Ali A. Frequency of ABO and rhesus blood groups in district Swat, Pakistan. J Ayub Med Coll Abbottabad 2008;20:127-9.
Pramanik T, Pramanik S. Distribution of ABO and Rh blood groups in Nepalese medical students: A report. East Mediterr Health J 2000;6:156-8.
Sakharov RS, Nofal' KhK. The frequency of ABO blood groups and the expression of group antigens and isohemagglutinins in Syrian Arabs. Sud Med Ekspert 1996;39:34-6.
Akhigbe RE, Ige SE, Afolabi AO, Azeez OM. Prevalence of haemoglobin variants, ABO and rhesus blood groups in Ladoke Akintola university of technology Ogbomoso, Nigeria. Trends Med Res 2009;4:24-9.
Jahanpour O, Pyuza JJ, Ntiyakunze EO, Mremi A, Shao ER. ABO and rhesus blood group distribution and frequency among blood donors at Kilimanjaro Christian medical center, Moshi, Tanzania. BMC Res Notes 2017;10:738.
Salih K, Abdrhman OM, Irhuma AA, Elgadi B, Abd El Latef MH. Anthropological studies among Libyans of Fazzan Province: ABO and Rh Systems. Sebha Uni J Med Sci 2005;4:64-69.
Nwauche CA, Ejele OA. ABO and rhesus antigens in a cosmopolitan Nigeria population. Niger J Med 2004;13:263-6.
[Table 1], [Table 2], [Table 3], [Table 4], [Table 5], [Table 6], [Table 7]