key: cord-0078764-xtvc8xbq authors: OLADEINDE, BANKOLE HENRY; OLANIYAN, MATHEW FOLARANMI; MUHIBI, MUSA ABIDEMI; UWAIFO, FERDINAND; RICHARD, OMOREGIE; OMABE, NWONU OKIKE; DAUD, AMINAT; OZOLUA, ONOSEN PHEBEAN title: Association between ABO and RH blood groups and Hepatitis B virus infection among young Nigerian adults date: 2022-04-26 journal: J Prev Med Hyg DOI: 10.15167/2421-4248/jpmh2022.63.1.1967 sha: cf1c2b0d64b60ac39cc776dfc73ddfb7314bae97 doc_id: 78764 cord_uid: xtvc8xbq BACKGROUND: Several diseases are reported to be associated with ABO/Rh blood groups. Data on the association between ABO and Rh D blood group antigens in the Nigerian population is sparse. This study aimed at determining the prevalence of Hepatitis B Virus (HBV) infection as well as its association with ABO and Rh D antigens among young Nigerian adults. METHODS: Whole blood was collected from 496 students and screened for the presence of HBsAg using an immuno-chromatographic technique. The ABO and Rh D antigen status of participants were also determined using standard techniques. RESULTS: In this study, the prevalence of HBV infection was 10/496 (2.10%). Of all factors assessed, only age of participants was identified as a risk factor (P < 0.05) for HBV seropositivity. Over half 257/496 (51.5%) of subjects were of the blood group O type, while 18/496 (3.6%) were of the AB blood type which was the least in occurrence. Rh D negative blood group was observed among 24/496 (4.8%) subjects. Those with the B blood type were observed to have an insignificantly (P > 0.05) higher prevalence of HBV infection. However, with respect to Rh D antigen alone, participants negative for the antigen were observed to have a five times higher risk of acquiring HBV infection than those positive for it (OR = 5.273, 95% CI = 1.056, 26.321, P > 0.05). Combining the ABO and Rh blood group systems, an association (OR = 20.174; P > 0.05) was found to exist between B Rh D negative status and HBV infection. CONCLUSION: Possession of B antigen without Rh D antigen is associated with increased risk of acquiring HBV infection. Amongst several other blood group systems, the ABO and Rh blood group systems stand out as the most important in medicine today. The phenotypes of the ABO blood group system, A, B, AB and O, are determined by the presence or absence of one or both of A and B antigens on host red blood cell membrane. The Rh blood group system is highly pleomorphic containing about forty four different antigens, and is the second most important system to the ABO [1] . Of all the pleomorphic forms, the presence or absence of the Rh D antigen on red blood cell of the host is the most significant [1] . The presence or absence of ABO and Rh antigens on an individual's red blood cell is genetically mediated [2, 3] . HBV is the leading cause of liver disease worldwide, accounting for over 360 million cases of chronic hepatitis and 620,000 deaths per year [4] . HBV infection is hyper-endemic in Sub-Sahara Africa (SSA) and a major cause of chronic liver disease [5] . The distributions of ABO and Rh antigens have been extensively researched and their frequencies observed to vary considerably with respect to ethnic and geographical differences [1] . Apart from being resident on red blood cell membrane, studies have shown that the ABO antigens are heavily distributed on the surfaces of human cells including the epithelium, sensory cells, platelets, leucocytes, saliva, seminal fluid, gastric secretion [6, 7] . Reports indicate that blood groups can serve as receptors for some microorganisms, facilitating the spread and establishment of infectious diseases [8] . This underlines the clinical relevance of blood group antigens in several other diseases besides transfusion and transplantation disorders. Studies have reported an association between ABO antigens and risk for the development of infectious diseases, [9] including hepatitis B virus associated hepatocellular carcinoma [10] . Literature is awash of studies exploring the relationship between ABO/Rh blood groups systems with infectious and non-infectious disease, but little is known about the correlation between these variables and HBV infection. Conflicting reports exists on the role of ABO and Rh antigens on susceptibility to HBV infection, with many of these reports showing a geographical and racial bias [11] . To the best of our knowledge, only one study [12] , conducted in 1992 has evaluated the relationship between ABO blood group and HBV infection in Nigeria. This study [12] , focused on blood donors only. Data on the relationship between Rh D antigen and HBV infection in Nigeria is missing. Knowledge of the association of various blood group types and diseases amongst different groups in a population can give useful direction for the articulation and implementation of individualized approaches to management and prevention of diseases. Against this background, this study aimed at determining the prevalence as well as the association if any, between HBV infection and ABO and Rh blood group types among young Nigerian adolescents. The study was conducted among undergraduate students of Edo University Iyamho, Edo State, Nigeria. Established in 2016, the University presently has student strength of about 3500 distributed across six different faculties. A total of 496 students were enrolled for this study consisting of 302 females and 194 males. The age range of the participants was 18-25 years. The students were drawn from all faculties/college in the University. The sample size was determined using the formula n = Z 2 Pq/d2, where: n = sample size Z = Standard normal deviate = 1.96 at 95% confidence limit p = prevalence of HBV in a previous Nigerian study = 12.5% = 0.125 [13] . q = 1-P; = 1-0.125 = 0.875 d = error margin = 0.05 Computing the value above will give N = (1.96) 2 x 0.125 x 0.875/ (0.05) 2 = 168. Thus a sample size of 168 persons was obtained. However, to make room for non-responses and improperly filled and /or unreturned questionnaires, the sample size was increased to 496. Approval was sought and obtained from the Ethical Research Committee of Edo University Iyamho, Edo State, Nigeria. Informed consent was obtained from all consenting participants before commencement of collection of blood. Inclusion criteria was been registered as a student of Edo State University, Uzairue, Edo State, Nigeria. Using a simple random sampling technique, a total of four hundred and ninety six (496) students were recruited for this study. Four milliliters of blood was collected from each consenting student and dispensed in an Ethylenediamine Tetra acetic Acid (EDTA) container. Plasma obtained from the collected blood specimens were used for the serological detection of Hepatitis B surface antigen (HBsAg) using the immuno-chromatographic kits (Skytec Rapid Diagnostics USA), as previously described [14] . In brief, 20 ul of each participant's serum was placed on the adsorbent portion of the Skytec Rapid Test Strip that had been removed from its foil and placed on a flat surface. This was allowed to stand for 5 minutes after which it was observed for the emergence of bands at strategic positions. The emergence of a single band at the control portion of strip indicated a negative result, while the appearance of a band on the control portion and another on the test region of strip was indicative of a positive result. The slide agglutination technique as previously described was used to determine the ABO and Rh blood groups [15] . Briefly, a drop of each participant's blood was placed on three separate areas on a clean white tile. Each drop of blood was mixed with a drop of commercially prepared antisera A, B, and D, and observed for agglutination. Each mixture (blood plus antisera) was viewed microscopically to confirm agglutination. The data obtained were analyzed using Chisquare (χ 2 ) or Fischer's exact test as appropriate and odd ratio analysis using the statistical software INSTAT ® . The seroprevalence of HBV among study participants was 10/496 (2.01%). Age was identified as a risk factor (P < 0.05) for HBV seropositivity, with participants within the age group of 24-26 years having the highest risk of infection. Although male participants had a higher prevalence of HBV than female, the difference failed to reach statistically significant proportion (P > 0.05). With respect to marital status and religion, single students as well as those of the Moslem faith were observed to have a higher prevalence of HBV infection, albeit the difference was statistically insignificant (P > 0.05). Similarly, student`s faculty/college did not significantly affect the prevalence of HBV infection in this study (P > 0.05) (Tab. I). Over half 257/496 (51.5%) of the total number of study subjects were of the blood group O type. There is paucity of data on the prevalence and associated risk factors for HBV infection among young Nigerians. Although reports abound on the association of ABO and Rh blood group systems with disease, none have specifically focused on the relations between the blood group systems and HBV infection among young adults in Nigeria. Against this background this study was conducted. The finding of a HBV prevalence of 2.1% is consistent with a value of 3/300 (1.5%) recorded in an earlier Nigerian study [16] . Our finding is however at sharp variance with 37/800 (4.6%) and 47/407 (11.5%) reported in other African studies respectively [17, 18] . The observed variation in result may be due to [1, 20] . One Asian study [21] however, documented blood group B as the most predominant blood type followed by O. while others [22, 23, 24] reported blood group A as the most common among their study populations. Of all participants examined in this study, only 4.8 percent were found to lack the rhesus D antigen. A Rh D negative prevalence of 6%, 7.2% have been reported by studies from Nigeria [25] and Ethiopia [26] respectively. Asia and Africa are generally known to have a low number of Rh D negative individuals [27] . Blood group types are inherited and its frequencies vary from one population to another [25] . This may explain the observed variation in blood types in the aforementioned studies. Studies have reported an association between certain diseases and the ABO/Rh blood group systems. In this study, the prevalence of HBV was observed to be highest among participants with B blood type, followed by blood type A. Participants with blood type AB had no incidence of HBV infection. A similar trend had been reported by an earlier study [28] . However, findings from a meta-analysis study of thirty-eight articles showed the contrary with blood group B individuals reported to have the lowest risk for HBV [11] . The variation in result could be due to several reasons. Firstly, the study by Jing and his colleagues [11] , focused on a disproportionately higher number of non-African studies, with only seven of them being from the African continent, out of which just two were from Nigerian. Again all thirty articles analyzed by Jing and his colleagues [11] focused on either blood donors or patients from hospital settings in contrast to our study population which comprised of young undergraduate students. Other studies [29, 30] also had a different finding, with blood group A donors reported to have the highest prevalence of HBV infection. Reports have shown that blood antigens may serve as receptors for bacteria, parasites and viruses, leading to colonization and invasion of host or evasion of its immune system [31] . It is interesting to note that the preferences for histo blood group antigens by some microorganisms including norovirus and Helicobacter pylori are influenced by specific genotypes and subtypes [31, 32] As the genotypes of HBV are geographically diverse [33] . It is possible that the variation in these reports could be attributed to differences in preferences of histoblood group antigens by predominant HBV genotypes in these regions. Further investigations are however, needed to verify this. Participants with blood type AB had the least prevalence of HBV infection in this study. Some studies [12, 28] have reported similar findings. The reason for this is unclear. Perhaps, the small size of samples of blood group AB tested may be responsible for this finding, or the co-existence of histo -antigens A and B on host cells may represent a resistance factor for HBV infection. This will definitely require further studies to verify. Generally, the prevalence of HBV was not significantly affected by ABO blood group system. This is contrasting to an earlier report [15] . The finding of a higher prevalence of HBV among Rh D negative subjects in this study has been previously reported by an Indian study [28] . Indeed, subjects that tested negative to the Rh D antigen in our study were observed to have a five times higher risk of acquiring HBV than their Rh positive counterparts in this study. It is however at variance a report elsewhere [15] . Basically, three molecular mechanisms have been reported for development of Rh D negativity namely, total deletion of the Rh D gene, (RHD), the presence of pseudo Rh D gene (RHDᴓ) (inactive) in association with ce allele in the RHCE, and the presence of hybrid gene, with the latter two mechanisms leading to the production of a nonfunctional Rh protein [3] . Interestingly, the expression of these forms has been reported to vary vastly with respect to race, location and tribe [3] . Genetic variations in human populations plus environmental factors contribute to susceptibility to infectious diseases [34] . Perhaps this could explain the variation in observations earlier reported. Generally however, the prevalence of HBV was not significantly affected by Rh status. This is in line with findings from other studies [28, 30] . Combination of the ABO and Rh D blood group systems, revealed an association between HBV sero-positivity and B Rh D antigen negative blood group. Indeed, a twenty times higher risk (OR = 20.714) for HBV seropositivity was observed among participants with B Rh D negative blood group status. Interestingly, no such association (OR = 0.879) was found amongst subjects with B and Rh antigens. Findings from some studies points to the protective effect of Rh D antigen against Hepatitis B virus infection [20, 35] . Also, studies have reported a generally lower health status among persons who lack the Rh D antigen [36, 37] . Differences in blood group antigen expression can increase or decrease host susceptibility to many infections [31] . Thus the observed pattern of result in this study may be as result of the concomitant effect of the expression of B antigen and the lack of Rh D antigen on their red blood cell of host. This definitely requires further study to substantiate. The gold standard for diagnosis of hepatitis B virus infection is the detection of HBV nucleic acid in blood or liver [38] . This study focused on the detection of HBsAg in blood serologically. This is a limitation in this study. Generally, the prevalence of HBV infection was 2.01% among study subjects. Age was identified as a risk factor for HBV seropositivity. Subjects with Blood group antigen B but lacking the Rh D antigen were more at risk of acquiring HBV infection. These findings may prove valuable to health managers and planners in articulating and implementing HBV infection control strategies. Gene frequencies of ABO and Rh blood groups in Nigeria: A review Molecular genetic basis of the histo-blood group ABO system The molecular basis of rh system and its applications in obstetrics and transfusion medicine Prevalence of hepatitis B virus infection in Nigeria 2000-2013: A systematic review and meta-analysis Alfa-feto protein, HCV and HBV infections in Nigerian patients with primary hepatocellular carcinoma The histo-blood group ABO system and tissue transplantation Blood Type Biochemistry and Human Disease Blood groups and disease: a historical perspective ABO blood group and susceptibility to severe acute respiratory syndrome ABO Blood Group and the Risk of Hepatocellular Carcinoma: A Case-Control Study in Patients with Chronic Hepatitis B ABO blood groups and hepatitis B virus infection: a systematic review and meta-analysis ABO blood groups distribution in relation to hepatitis B surface antigen and the presence of lipoidophil antibodies Prevalence of hepatitis B virus surface antigen among healthy asymptomatic students in a Nigerian University Hepatitis B Virus (HBV) Infection Amongst Staff of a Nigerian University Afr The infection with HBV and HCV and their relationship to ABO blood group among blood donors Prevalence of Hepatitis B and C Virus Infection among Students of a Private Tertiary Institution in South-Western Nigeria Prevalence of Hepatitis B among Students from the University of Lomé, Togo in 2015 Hepatitis B virus infection and associated risk factors among medical students in eastern Ethiopia Hepatitis B infection among Nigerian children admitted to a children's emergency room Frequencies and ethnic distribution of ABO and Rh (D) blood groups in Mauritania: results of first nationwide study Frequency of ABO and rhesus blood groups in blood donors Distribution of Abo and Rhesus Blood Groups in general population of district Dir Upper Frequency of ABO blood groups and RhD factor in the female population of District Peshawar Distribution of ABO and Rh (D) Blood Groups in the population of district Dir Lower Blood group distribution pattern among adult who attended Assessing ABO/Rh Blood Group Frequency and Association with Asymptomatic Malaria among Blood Donors Attending Arba Minch Blood Bank, South Ethiopia High rhesus (Rh(D)) negative frequency and ethnic-group based ABO blood group distribution in Ethiopia Seroprevalence and risk factors for hepatitis b virus infection among general population in northern India ABO Blood Groups and Acute Hepatitis Association Between ABO Blood/ Rhesus Grouping and Hepatitis B and C: A Case-control Study Blood Groups in Infection and Host Susceptibility ABO research in the modern era of genomics Molecular identification of hepatitis B virus genotypes/ subgenotypes: Revised classification hurdles and updated resolutions Genetic susceptibility to infectious diseases: big is beautiful, but will bigger be even better? ABO and Rh (D) group distribution and gene frequency; the first multicentric study in India Increased pregnancy weight gain in women with latent toxoplasmosis and RhD-positivity protection against this effect Rhesus factor modulation of effects of smoking and age on psychomotor performance, intelligence, personality profile, and health in Czech soldiers Molecular Testing in the Diagnosis and Management of Chronic Hepatitis B Authors acknowledge with thanks all the students that took part in this study Authors have no conflict of interest to declare. The authors report no conflict of interest. No funding was received for this study. All authors took part in the study design, generated and analyzed data and substantively took part in the drafting of manuscript.