Correlation between ABO blood type, susceptibility to SARS-CoV-2 infection and COVID-19 disease severity: A systematic review

Soares, Danyela Martins Bezerra; Araújo, David Augusto Batista Sá; Souza, Jorge Luiz de Brito de; Maurício, Rebeca Bessa; Soares, Emanuela Martins Bezerra; Alves Neto, Franklin de Castro; Pinheiro, Maria Suelly Nogueira; Gama, Vitor Carneiro de Vasconcelos; Braga Neto, Pedro; Nóbrega, Paulo Ribeiro; Aragão, Gislei Frota

doi:10.1016/j.htct.2022.11.001

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Review article • Hematol., Transfus. Cell Ther. 45 (4) • 2023 • https://doi.org/10.1016/j.htct.2022.11.001 copy

Correlation between ABO blood type, susceptibility to SARS-CoV-2 infection and COVID-19 disease severity: A systematic review

Authorship SCIMAGO INSTITUTIONS RANKINGS

ABSTRACT

Objectives:

To verify the association between the ABO blood type and the risk of SARS-CoV-2 infection and COVID-19 disease severity.

Methods:

This review was conducted according to the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA), using the 2020 PRISMA Checklist and flow diagram, and articles selected for review were analyzed using the Newcastle-Ottawa Quality Rating Scale. The research question was: "Would the ABO blood group influence the risk of infection and clinical course of patients infected with SARS-CoV-2?", The following databases were used: Embase, PubMed, Virtual Health Library (VHL), Web of Science, Science-Direct and Scopus. The protocol for this review was registered in the Prospective Register of Systematic Reviews (PROSPERO), number CRD42021245945.

Results:

We found 798 articles across PubMed, Embase, Scopus, Web of Science, Science Direct and Virtual Health Library and 54 articles were included in the final analysis. Among 30 studies evaluating the risk of COVID-19 infection, 21 found significant correlations with ABO blood groups, 14 of them revealing an increased risk in blood group A and 15 studies showing a decreased risk in blood group O. Most studies found no significant correlation with disease severity or mortality.

Conclusion:

The qualitative assessment of available information suggests that blood group A may be a risk factor for COVID-19 infection and that blood group O may have a protective effect. We were unable to determine a clear association between the ABO blood group and mortality. These conclusions are based on highly heterogenous evidence.

Keywords:
COVID-19; SARS-CoV-2; ABO blood group system; Antibodies

Introduction

Coronavirus Disease 19 (COVID-19) is an infectious disease caused by Severe Acute Respiratory Syndrome Coronavirus 2 (SARS-CoV-2), which may present with fever, cough and dyspnea or asymptomatic infection in some cases. The SARS-CoV-2 belongs to the Coronaviridae family, being an enveloped RNA virus, which contains Spike (S) proteins on its surface that make it look like a crown (Corona). It has high homology to the coronavirus responsible for the SARS outbreak of 2003, Severe Acute Respiratory Syndrome Coronavirus 1 (SARS-CoV-1).¹1 Silva-Filho JC, de Melo CGF, de Oliveira JL. The influence of ABO blood groups on COVID-19 susceptibility and severity: a molecular hypothesis based on carbohydrate-carbohydrate interactions. Med. Hypotheses. 2020;144:110155.

Although most cases present with mild symptoms, the COVID-19 infection may lead to acute respiratory failure and death. This disease has caused worldwide health and economic impact, leading the international community to unite in trying to contain the virus through restrictive measures, research in potential drugs and mass vaccination. Despite these efforts, there is still a large number of new cases of the disease. Thus, it is important to continue searching for risk factors that might be associated with worse outcomes in persons infected by SARS-CoV-2.¹1 Silva-Filho JC, de Melo CGF, de Oliveira JL. The influence of ABO blood groups on COVID-19 susceptibility and severity: a molecular hypothesis based on carbohydrate-carbohydrate interactions. Med. Hypotheses. 2020;144:110155.

Individuals with comorbidities and the elderly are susceptible to severe COVID-19 infection, but one of the intriguing aspects of this disease is that healthy young people may sometimes present severe respiratory failure, while many people with comorbidities may be asymptomatic.²2 Callaway E, Ledford H, Mallapaty S. Six months of coronavirus: the mysteries scientists are still racing to solve. Nature. 2020: 178-9.

One of the hypotheses to explain susceptibility to SARS-CoV-2 is linked to the ABO blood group system, represented by ABH oligosaccharide antigens A and B and antibodies against these antigens (anti-A and anti-B). These antigens are coded by autosomal codominant genes corresponding to alleles A and B in the ABO locus. The H antigen, coded by FUT1/FUT2/SEC1 genes, is responsible for exhibiting A and B antigens with a a-l,3-glycosidic bond. When the A allele is present, one N-acetyl-D-galactosamine (GalNAc) or, when the B allele is present, a D-galactose (Gal) is transferred to the H antigen.¹1 Silva-Filho JC, de Melo CGF, de Oliveira JL. The influence of ABO blood groups on COVID-19 susceptibility and severity: a molecular hypothesis based on carbohydrate-carbohydrate interactions. Med. Hypotheses. 2020;144:110155. These antigens are mainly expressed on the surface of red blood cells, on the surface of endothelial and epithelial cells and in mucins secreted by exocrine glandules.

The main objectives of this systematic review were to investigate the association between the ABO blood group and the risk of COVID-19 infection and the association between the ABO blood group and the risk of suffering complications and death related to COVID-19.

Materials and methods

This study followed the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines through the 2020 PRISMA Checklist and 2020 PRISMA Flow diagram. The protocol for this review was registered in the Prospective Register of Systematic Reviews (PROSPERO) under registration number CRD42021245945. The research question was structured and refined using the PICO method (Population, Intervention/exposure, Comparison and Outcome), presented as follows: "Would the ABO blood group influence the risk of infection and clinical course of patients infected with SARS-CoV-2?", as detailed in Tables 1 and 2.

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Table 1
PICO strategy used to construct the research.

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Table 2
Search strategy of the articles used in this research.

PICO strategy for objectives 1 and 2 are as follows:

PICO strategy for objective 1 (COVID-19 infection): P: Population at risk for SARS-CoV-2 infection (entire population); I: ABO blood group; C: Different blood groups by ABO classification system, and; O: COVID-19 infection.

PICO strategy for objective 2 (COVID-19 severe infection): P: Population at risk for SARS-CoV-2 infection (entire population); I: ABO blood group; C: Different blood groups by ABO classification system, and; O: COVID-19 severe infection, hospitalization, admission to intensive care unit (ICU), need of mechanical ventilation, cardiovascular injury and mortality.

Source of information and search strategy

The following databases were used: Embase, PubMed, Virtual Health Library (VHL), Web of Science, ScienceDirect and Scopus. The search strategy was based on paired combinations of the following descriptors, using the Boolean operator "AND": "COVID-19", "Coronavirus disease 2019", "ABO blood-group system" and "blood group ABO system". Articles in English, Spanish and Portuguese were included. The search was limited to articles published from January 2020 to December 2021. Details on the article collection strategy are in Table 3.

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Table 3
Evaluation of included studies by Newcastle-Ottawa Scale (NOS).

Outcome variables

The following outcome was considered for the first objective (risk of COVID-19 infection):

COVID-19 infection determined by either polymerase chain reaction (PCR), antigen or antibody tests.

For the second objective (COVID-19 severity) the following outcomes were considered:

• Mortality
• Admission to intensive care unit (ICU)
• Need for mechanical ventilation

Study selection

We included studies with humans of any age and of both sexes who manifested symptoms of SARS-CoV-2 infection, confirmed by laboratory tests, and that have reported ABO blood group types. Case-control, cohort and cross-sectional studies were eligible for inclusion. Studies were required to provide data for at least one pre-established outcome variable in order to be eligible for inclusion.

We then excluded review articles, short communications, commentaries and editorial and opinion papers. Published studies with coronavirus infected animals, treatment with convalescent plasma, women in a gestational state (due to physiological changes typical of that period) and symptomatic patients without laboratory confirmation were also excluded.

Strategy for data extraction

First, three reviewers (DMBS, JLBS and RBM) performed a literature search using the descriptors mentioned above. The reviewers then removed the duplicates and all remaining titles and abstracts were evaluated for eligibility. If this was insufficient to determine the eligibility, full-text articles were retrieved. The full texts of the articles that met the inclusion criteria were analyzed separately by six reviewers (DMBS, DABSA, EMBS, FCAN, MSNP and VCVG). Any disagreement among them about the eligibility of certain studies was resolved through discussion with two other reviewers (GFA and PRN).

Risk quality assessment and bias report

The methodological quality of the studies was assessed by two reviewers and, in the case of a disagreement, another reviewer was asked for further analysis. Data provided for the systematic review were verified using the Newcastle-Ottawa Quality Rating Scale³3 Wells GA, Shea B, O'Connell D, Peterson J, Welch V, Losos M, et al. The Newcastle-Ottawa Scale (NOS) for assessing the quality of nonrandomised studies in meta-analyses. Oxford; 2000. by previously trained and qualified reviewers. The methodological quality scores of the crosssectional, cohort and case-control studies were calculated in three components: selection of groups (0 - 4 points), quality of fit for confounding factors (0 - 2 points) and assessment of exposure after outcome (0 - 3 points). The maximum score was 7 points for cross-sectional studies and 9 points for cohort and case-control studies,³3 Wells GA, Shea B, O'Connell D, Peterson J, Welch V, Losos M, et al. The Newcastle-Ottawa Scale (NOS) for assessing the quality of nonrandomised studies in meta-analyses. Oxford; 2000. which represents high methodological quality. The results of this analysis are contained in Table 4.

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Table 4
Studies that show correlation between ABO blood group and COVID infection.

Data analysis

Outcome variables were expressed as the proportion of all selected patients with at least one event. We did not perform a meta-analysis due to the high heterogeneity of data.

Results

The initial search resulted in 798 articles across the following databases: PubMed, Embase, Scopus, Web of Science, Science Direct and Virtual Health Library. Then automation tools were applied (detailed in Figure 1), resulting in the exclusion of 195 articles. The next step was duplicate removal, which further excluded 340 articles. Subsequently, 263 studies were selected for title and abstract reading and 178 of those were excluded for lacking pertinence to the subject of our research, not fulfilling inclusion criteria or for matching any of the exclusion criteria, resulting in 85 manuscripts for full-text reading. Fifty-three matched the research question of this review and were included in the final analysis. Figure 1 details the search and selection flow-chart. Three study types were analyzed: Cohort studies (n = 22), Cross-sectional studies (n = 20) and case-control studies (n = 11).

Figure 1
Search and selection flow-chart.

For objective 1 (risk of COVID-19 infection) 30 articles were analyzed (Table 4). Sample sizes ranged from 208 to 2211,894 participants, totaling 2212,102 participants. These studies were conducted in 19 countries and the majority were from Turkey (6 studies), China (3 studies) and Spain (3 studies). The mean age ranged from 5.8 years (5 months - 13.3 years) to 82 years (6.9 years).⁴4 Bhattacharjee S, Banerjee M, Pal R. ABO blood groups and severe outcomes in COVID-19: a meta-analysis. Postgrad Med J. 2022;98(e2):el36-e7.,⁵5 Muniz-Diaz E, Llopis J, Parra R, Roig I, Ferrer G, Grifols J, et al. Relationship between the ABO blood group and COVID-19 susceptibility, severity and mortality in two cohorts of patients. Blood Transfusion. 2021;19(1):54. Regarding the type of studies found, 11 were cohort, 12, cross-sectional, and 7, case control. Different types of samples were found. Some involved hospitalized or discharged patients, while others evaluated outpatients.

Among 30 studies evaluating the risk of COVID infection associated with the ABO blood type, 21 studies found significant correlations. Most studies (14 studies), involving 105 to 7422 patients, found an increased proportion of blood group A in patients, compared to controls. Fewer studies showed an increased proportion of patients with blood group B (6 studies) or AB (6 studies). Most studies also found a reduced proportion of blood group O (15 studies, 105 - 7422 patients) in infected patients. A total of 10 studies found no statistically significant correlation between ABO status and COVID-19 infection.

Among studies with blood donors as controls (10 studies), most studies found a reduced proportion of patients with blood group O (4 studies, 302 - 854 patients). Fewer studies showed an increased proportion of patients with blood group A (3 studies), B (2 studies) or AB (2 studies). Two out of 10 studies found no statistically significant correlation between the ABO status and COVID-19 infection using blood donors as controls.

The majority of the studies (10 studies with 105 - 7422 patients) with non-blood donor controls (21 studies) found an increased proportion of blood group A in patients, compared to controls. Fewer studies showed an increased proportion of patients with blood group B (3 studies) or AB (3 studies). Most studies also found a reduced proportion of patients with blood group O (11 studies, 105 - 7422 patients). Seven studies using non-blood donors as controls found no statistically significant correlation between the ABO status and COVID infection.

For objective 2 (COVID infection severity), 35 articles were analyzed (Table 5). Sample sizes ranged from 43 to 5391,149 participants. The studies were conducted in 17 countries and the majority were from United States (6 studies), Turkey (5 studies) and Saudi Arabia (4 studies). Regarding the type of studies found, 16 were cohort, 13, cross-sectional, and 5, case control. We assessed studies including any of the three selected outcomes of interest (mortality, ICU and mechanical ventilation).

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Table 5
Studies that show correlation between ABO blood group and COVID severe infection.

The mortality was evaluated in 30 studies. Seven studies found increased mortality in blood group A patients, 2, in blood group B patients, and 4, in blood group AB patients. One study also found reduced mortality in blood group O. The majority (21 studies) found no significant difference in mortality among ABO blood groups.

Admission to the ICU was evaluated in 10 studies. Most (9 studies) found no significant correlation between the ABO blood group and need for ICU admission. One study (with 330 patients) found an increased need for ICU admission in blood group AB patients.

Mechanical ventilation was analyzed in 10 studies. Most (6 studies) also found no significant difference between the ABO blood group and need for mechanical ventilation. Three studies found an increased need for mechanical ventilation in blood group A patients, 3, in blood group AB patients, and 1, in blood group B patients.

Analyzing all three severity outcomes, the majority of the studies found no significant difference in either mortality, ICU admission or need for mechanical ventilation associated with the ABO blood group in COVID-19 patients. Only 12 of the 35 studies found a significant correlation, mostly showing an increased mortality and need for mechanical ventilation in blood group A patients.

Discussion

We performed a systematic review of the correlation between the ABO blood type and susceptibility to COVID-19 infection, both in terms of risk of infection and in terms of disease severity. The results of this review point to a possible increased risk of COVID-19 infection associated particularly with blood type A and a possible decreased risk of infection in blood type O, as most high-quality studies including either outpatients or hospitalized patients and with blood donors or non-blood donors as controls replicated this finding.

The relationship between the ABO blood group and risk of COVID-19 infection has been previously investigated by other review studies.⁶6 Liu N, Zhang T, Ma L, Zhang H, Wang H, Wei W, et al. The impact of ABO blood group on COVID-19 infection risk and mortality: a systematic review and meta-analysis. Blood Rev. 2021;48:100785.,⁷7 Franchini M, Cruciani M, Mengoli C, Marano G, Candura F, Lopez N, et al. ABO blood group and COVID-19: an updated systematic literature review and meta-analysis. Blood Transfusion. 2021;19(4):317.⁸8 Wu B-B, Gu D-Z, Yu J-N, Yang J, Shen W-Q, Association between ABO blood groups and COVID-19 infection, severity and demise: a systematic review and meta-analysis. Infect Genet Evol. 2020;84:104485.⁹9 Pourali F, Afshari M, Alizadeh-Navaei R, Javidnia J, Moosazadeh M, Hessami A. Relationship between blood group and risk of infection and death in COVID-19: a live meta-analysis. New Microbes New Infect. 2020;37:100743. Most reviews showed similar findings of an increased risk in group A patients and a decreased risk in group O. However, the present review includes a larger number of studies and more recently published papers, which might better reflect the present phase of the COVID-19 disease pandemic.

As for disease severity, results were conflicting, as most studies found no statistically significant correlations. Those that have found differences mostly reported increased mortality in group A patients. Admission to the ICU was mostly similar among ABO blood groups in all except one study and the need for mechanical ventilation was higher in blood group A and B in only 3 in 11 studies.⁴4 Bhattacharjee S, Banerjee M, Pal R. ABO blood groups and severe outcomes in COVID-19: a meta-analysis. Postgrad Med J. 2022;98(e2):el36-e7.,⁵5 Muniz-Diaz E, Llopis J, Parra R, Roig I, Ferrer G, Grifols J, et al. Relationship between the ABO blood group and COVID-19 susceptibility, severity and mortality in two cohorts of patients. Blood Transfusion. 2021;19(1):54.

Previously published reviews also bring conflicting results on this subject. One review has found increased mortality in group A uersus non-A.⁶6 Liu N, Zhang T, Ma L, Zhang H, Wang H, Wei W, et al. The impact of ABO blood group on COVID-19 infection risk and mortality: a systematic review and meta-analysis. Blood Rev. 2021;48:100785. Another study found lower risk of death in ABO group B patients.⁸8 Wu B-B, Gu D-Z, Yu J-N, Yang J, Shen W-Q, Association between ABO blood groups and COVID-19 infection, severity and demise: a systematic review and meta-analysis. Infect Genet Evol. 2020;84:104485. However, most reviews failed to demonstrate an increased mortality associated with any ABO blood group,⁴4 Bhattacharjee S, Banerjee M, Pal R. ABO blood groups and severe outcomes in COVID-19: a meta-analysis. Postgrad Med J. 2022;98(e2):el36-e7.,⁹9 Pourali F, Afshari M, Alizadeh-Navaei R, Javidnia J, Moosazadeh M, Hessami A. Relationship between blood group and risk of infection and death in COVID-19: a live meta-analysis. New Microbes New Infect. 2020;37:100743. similar to the findings of the present review, albeit with fewer articles included in the analysis. A definitive association of the ABO blood group distribution with mortality or severity outcomes remains to be proven.

Studies utilizing blood donors as controls carry a potential risk of bias, as the frequency of ABO blood group subtypes may be different between blood donors and the general population.¹1 Silva-Filho JC, de Melo CGF, de Oliveira JL. The influence of ABO blood groups on COVID-19 susceptibility and severity: a molecular hypothesis based on carbohydrate-carbohydrate interactions. Med. Hypotheses. 2020;144:110155.,²2 Callaway E, Ledford H, Mallapaty S. Six months of coronavirus: the mysteries scientists are still racing to solve. Nature. 2020: 178-9. Studies with blood transfusions could also influence outcomes due to different profiles between donors and transfusion recipients. One study by Muniz-Diaz et al. (2020) reported 2 different samples, one with blood donor controls and another with non-blood donor controls and found different results, namely a significant difference (increased A and decreased O blood groups in patients) when comparing patients to blood donor controls and no significant difference when comparing transfusion recipients with COVID-19 infection to recipients without COVID-19 infection (non-blood donor controls).⁵5 Muniz-Diaz E, Llopis J, Parra R, Roig I, Ferrer G, Grifols J, et al. Relationship between the ABO blood group and COVID-19 susceptibility, severity and mortality in two cohorts of patients. Blood Transfusion. 2021;19(1):54. However, when summarizing all studies with blood donor controls and those with non-blood donor controls, results were largely similar (an increased risk in blood group A patients and a decreased risk in blood group O patients in most studies).

Patient assessment methods varied among studies. We only extracted data regarding the ABO group distribution among infected and non-infected subjects for objective 1 (the risk of COVID-19 infection). For objective 2 (the severe COVID-19 infection), we extracted data regarding mortality, admission to the ICU and the need for mechanical ventilation for analysis, regardless of other clinical outcomes evaluated by the selected studies. This was an attempt to draw more homogenous conclusions based on heterogenous studies.

The mechanisms responsible for this correlation between ABO blood groups and the susceptibility to COVID-19 infection are still unclear. Guillon et al. (2008) demonstrated that viral S proteins co-localize with the ABO group A antigens and that anti-A antibodies could inhibit the adhesion between the S protein and host cell ACE2 receptors that initiate viral invasion.¹⁰10 Guillon P, Clément M, Sébille V, Rivain J-G, Chou C-F, Ruvoën-Clouet N, et al. Inhibition of the interaction between the SARS-CoV spike protein and its cellular receptor by anti-histoblood group antibodies. Glycobiology. 2008;18(12):1085-93. This could explain why type O patients (who have both anti-A and anti-B antibodies) might be protected from infection and also why type A patients (who do not possess anti-A antibodies) might be at greater risk. Deleers et al. (2021) reported that COVID-19-infected patients had significantly lower levels of anti-ABO antibodies, reinforcing the hypothesis that these antibodies might have a protective role. Indeed, lower susceptibility to infection in group O patients has been previously reported for SARS-CoV, another member of the Coronavirus family.¹¹11 Deleers M, Breiman A, Daubie V, Maggetto C, Barreau I, Besse T, et al. Covid-19 and blood groups: ABO antibody levels may also matter. Int J Infect Dis. 2021;104:242-9.

Another hypothesis to explain a relationship between the ABO blood group and COVID-19 disease outcomes involves the risk of thromboembolic complications. Group O individuals have lower levels of pro-thrombotic von Willebrand factor (vWF) and may be partially protected against COVID-associ-ated thrombosis, an important mechanism in many complications leading to worse outcomes.¹²12 Ladikou EE, Sivaloganathan H, Milne KM, Arter WE, Ramas-amy R, Saad R, et al. Von Willebrand factor (vWF): marker of endothelial damage and thrombotic risk in COVID-19? Clin Med. 2020;20(5):el78. This is in line with the findings from Ladikou et al. (2020) and Sardu et al. (2020), included in the present review, which have shown higher levels of vWF in non-0 patients associated with worse outcomes.¹²12 Ladikou EE, Sivaloganathan H, Milne KM, Arter WE, Ramas-amy R, Saad R, et al. Von Willebrand factor (vWF): marker of endothelial damage and thrombotic risk in COVID-19? Clin Med. 2020;20(5):el78.,¹³13 Sardu C, Marfella R, Maggi P, Messina V, Cirillo P, Codella V, et al. Implications of ABO blood group in hypertensive patients with covid-19. BMC Cardiovasc Disord. 2020;20(1):1-10.

The present study has several limitations. We have found high heterogeneity among the studies, regarding different populations, study designs, sample sizes, control groups, follow-up periods and outcome measures. For this reason, we did not perform a meta-analysis of the results. Limiting the analysis to less heterogeneous studies with a low risk for bias might have reduced sample size significantly. Also, the studies analyzed lacked important information, such as participant vaccination status and SARS-CoV2 variant reported, which might impact the outcomes. Due to the time in which our assessment was performed, most patients were not infected with the Omicron variant, that is presently the dominant variant worldwide. Results with the Omicron variant, including BA.l and BA.2 variants, might have been different.

This review summarizes all available studies to date regarding the association between the ABO blood group and susceptibility to COVID-19 infection and disease severity. A rigorous methodology was used to analyze and synthesize data and the risk for bias and quality of evidence were systematically assessed. Many previous reviews were published in an earlier time during the pandemic and thus, included fewer studies. Another strength of our review is that we only included studies with laboratory-confirmed SARS-CoV-2 infection. We have also tried to approach the susceptibility to infection and disease severity as different objectives, selecting studies that utilized these specific outcomes for each analysis.

Understanding patient susceptibility to COVID-19 infection according to the ABO blood group could help us in identifying new risk factors to be incorporated in prognostic tools and triage algorithms. Comprehension of the mechanisms by which this susceptibility is manifested might also open new treatment possibilities by providing novel therapeutic targets or utilizing naturally occurring protective factors associated with ABO blood group antigens or antibodies.

Future studies specifying the vaccination status and identifying particular SARS-CoV-2 variants, especially the dominant Omicron variants, and the susceptibility of these patients according to the ABO blood group might further optimize the COVID-19 risk stratification and treatment.

Conclusion

Qualitative assessment of available information suggests that the blood group A may be a risk factor for the COVID-19 infection and that the blood group O may have a protective effect. Based on all evidence available at this point, we were unable to determine a clear association between the ABO blood group and COVID-19 associated mortality. These conclusions were based on highly heterogenous evidence and furthermore, contain several biases. Moreover, they do not reflect the predominance of omicron variants and of vaccinated subjects, which characterize the present moment of the pandemic. Further studies are needed to assess the actual impact of the ABO blood group on the risk and severity of the COVID-19 infection.

Acknowledgements

We offer our thanks to the Study Group on Neuroinflammation and Neurotoxicology at the State University of Ceará (GENIT/UECE).

The authors are grateful to the Brazilian National Council for Scientific and Technological Development (CNPq) for the funding of the Productivity scholarship to the author Pedro Braga Neto and to the Coordination for the Improvement of Higher Education Personnel - Brazil (CAPES) for the funding of Pedro Braga Neto (88881.505364/2020-01).

Funding

Not applicable.
Ethics approval and consent to participate

Not applicable.
Consent for publication

Not applicable.
Availability of data and materials

Not applicable.

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Silva-Filho JC, de Melo CGF, de Oliveira JL. The influence of ABO blood groups on COVID-19 susceptibility and severity: a molecular hypothesis based on carbohydrate-carbohydrate interactions. Med. Hypotheses. 2020;144:110155.
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Callaway E, Ledford H, Mallapaty S. Six months of coronavirus: the mysteries scientists are still racing to solve. Nature. 2020: 178-9.
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Bhattacharjee S, Banerjee M, Pal R. ABO blood groups and severe outcomes in COVID-19: a meta-analysis. Postgrad Med J. 2022;98(e2):el36-e7.
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Muniz-Diaz E, Llopis J, Parra R, Roig I, Ferrer G, Grifols J, et al. Relationship between the ABO blood group and COVID-19 susceptibility, severity and mortality in two cohorts of patients. Blood Transfusion. 2021;19(1):54.
⁶
Liu N, Zhang T, Ma L, Zhang H, Wang H, Wei W, et al. The impact of ABO blood group on COVID-19 infection risk and mortality: a systematic review and meta-analysis. Blood Rev. 2021;48:100785.
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⁹
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¹¹
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de Freitas Dutra V, Bonet-Bub C, Yokoyama APH, Achkar R, Machado RRG, Assunção M, et ai. Anti-A and SARS-CoV-2: an intriguing association. Vox Sang. 2021;116(5):557-63.
²⁴
Domènech-Montoliu S, Puig-Barberà J, Pac-Sa MR, Vidal-Utril-las P, Latorre-Poveda M, Rio-González AD, et al. ABO blood groups and the incidence of complications in COVID-19 patients: a population-based prospective cohort study. Int J Environ Res Public Health. 2021;18(19):10039.
²⁵
Tamayo-Velasco A, Penarrubia Ponce MJ, Alvarez FJ, Gonzalo-Benito H, de la Fuente I, Perez-Gonzalez S, et al. Can the cytokine profile according to ABO blood groups be related to worse outcome in COVID-19 patients? yes, they can. Front Immunol. 2021: 4088.
²⁶
Ishaq U, Malik A, Malik J, Mehmood A, Qureshi A, Laique T, et al. Association of ABO blood group with COVID-19 severity, acute phase reactants and mortality. PLoS One. 2021;16(12): e0261432.
²⁷
Matzhold EM, Berghold A, Bemelmans MKB, Banfi C, Stelzl E, Kessler HH, et al. Lewis and ABO histo-blood types and the secretor status of patients hospitalized with COVID-19 implicate a role for ABO antibodies in susceptibility to infection with SARS-CoV-2. Transfusion. 2021;61(9):2736-45.
²⁸
Mullins J, Al-Tarbsheh AH, Chieng H, Chaukiyal P, Ghalib S, Jain E, et al. The association of ABO blood type with the risk and severity of COVID-19 infection. Am J Blood Res. 2021;11 (1):53.
²⁹
Greco S, Bella A, Bonsi B, Fabbri N, Califano A, Morrone S, et al. SARS-CoV-2 infection and H1N1 vaccination: does a relationship between the two factors really exist? A retrospective analysis of a territorial cohort in Ferrara, Italy. Eur Rev Med Pharmacol Sei. 2021: 2795-801.
³⁰
Al-Youha SA, Alduaij W, Al-Serri A, Almazeedi SM, Al-Haddad M, Jamal MH, et al. The impact of ABO blood groups on clinical outcomes and susceptibility to COVID-19: a retrospective study in an unselected population. Transfusion. 2021 ;61 (5):1631-41.
³¹
Fan Q, Zhang W, Li B, Li D-J, Zhang J, Zhao F. Association between ABO blood group system and COVID-19 susceptibility in Wuhan. Front Cell Infect Microbiol. 2020;10:404.
³²
Ad'hiah AH, Abdullah MH, Alsudani MY, Shnawa RM, Al-Sa'ady AJ, Allami RH, et al. Association between ABO blood groups and susceptibility to COVID-19: profile of age and gender in Iraqi patients. Egypt J Med Hum Genet. 2020;21 (1):1-10.
³³
Zhao J, Yang Y, Huang H, Li D, Gu D, Lu X, et al. Relationship between the ABO blood group and the coronavirus disease 2019 (COVID-19) susceptibility. Clin Infect Dis. 2021;73(2): 328-31.
³⁴
Saify K, Alborz MS, Saadat M. Susceptibility to the novel coronavirus disease (COVID-19) is associated with ABO and Rh blood groups: a case-control study from Afghanistan. Egypt J Med Hum Genet. 2021;22(1):l-5.
³⁵
Wu Y, Feng Z, Li P, Yu Q. Relationship between ABO blood group distribution and clinical characteristics in patients with COVID-19. Clin Chim Acta. 2020;509:220-3.
³⁶
Khalil A, Feghali R, Hassoun M. The Lebanese COVID-19 cohort; a challenge for the ABO blood group system. Front Med. 2020;7:585341.
³⁷
Badedi M, Makrami A, Alnami A. Co-morbidity and blood group type risk in coronavirus disease 2019 patients: a case -control study. J Infect Public Health. 2021;14(4):550-1.
³⁸
Behboudi E, Hamidi V, Gholizadeh F, Grala EM, Ghelmani Y, Nakhaie M, et al. Association between ABO blood groups and rhesus antigen and susceptibility to COVID-19 in the Yazd hospital. New Microbes New Infect. 2021;44:100934.
³⁹
Torres-Alarcón CG, García-Ruíz A, Cahete-Ibáhez CR, Morales-Pogoda II, Muhoz-Arce CM, BE Cid-Domínguez, et al. Blood system ABO antigens as risk factor for severity of SARS-CoV-2 infection. Gaceta médica de México. 2021;157(2):181-7.
⁴⁰
KÍRÍSCi Ö, ÖZLÜK S, TOPALCA US, KÖPRÜLÜ ND. Relationship of ABO blood groups to SARS-COV-2 infection causing COVID-19 disease. Konuralp Med J. 2021;13(1):18-23.
⁴¹
Ko lin DA, Kulm S, Christos PJ, Elemento O. Clinical, regional, and genetic characteristics of Covid-19 patients from UK Bio-bank. PLoS One. 2020;15(11):e0241264.
⁴²
Gamboa-Aguilar J, Zamorano-Montano AC, Enriquez-Osorio A, Torres-Cubillas W, López-Arroyo JL, Chapol JAM, et al. Abo blood group, atherothrombotic comorbidities, and COVID-19: a case-control study of their association in the Mexican population. Arch. Med. Res. 2022;53(1):100-8.
⁴³
Latz CA, DeCarlo C, Boitano L, Png C, Patell R, Conrad MF, et al. Blood type and outcomes in patients with COVID-19. Ann. Hematol. 2020;99(9):2113-8.
⁴⁴
Hoiland RL, Fergusson NA, Mitra AR, Griesdale DE, Devine DV, Stukas S, et al. The association of ABO blood group with indices of disease severity and multiorgan dysfunction in COVID-19. Blood Adv. 2020;4(20):4981-9.
⁴⁵
Göker H, Karakulak EA, Demiroglu H, Ceylan ÇMA, Büyükasik Y, Inkaya AÇ, et al. The effects of blood group types on the risk of COVID-19 infection and its clinical outcome. Turk] Med Sei. 2020;50(4):679-83.
⁴⁶
Kotila TR, Alonge TO, Fowotade A, Famuyiwa 01, Akinbile AS. Association of the ABO blood group with SARS-CoV-2 infection in a community with low infection rate. Vox Sang. 2021;116(8):910-5.
⁴⁷
Yaylacî S, Dheir H, íssever K, Gene AB, Senocak D, Kocayigit H, et al. The effect of abo and rh blood group antigens on admission to intensive care unit and mortality in patients with COVID-19 infection. Revista da Associação Médica Brasileira. 2020;66:86-90.
⁴⁸
Solmaz I, Araç S. ABO blood groups in COVID-19 patients; cross-sectional study. Int. J. Clin. Pract. 2021;75(4):el3927.
⁴⁹
Al Kuwari HM, Rahim HFA, Abu-Raddad LJ, Abou-Samra A-B, Al Kanaani Z, Al Khal A, et al. Epidemiological investigation of the first 5685 cases of SARS-CoV-2 infection in Qatar, 28 Febru-ary-18 April 2020. BMJ Open. 2020;10(10):e040428.
⁵⁰
Almadhi MA, Abdulrahman A, Alawadhi A, Rabaan AA, Atkin S, AlQahtani M. The effect of ABO blood group and antibody class on the risk of COVID-19 infection and severity of clinical outcomes. Sei Rep. 2021;ll(1):l-5.
⁵¹
Aktimur SH, Ahmet S, Yazicioglu B, Gunes AK, Serhat G The assessment of the relationship between ABO blood groups and Covid-19 infection. Int J Hematol Oncol. 2020;31(3):121-5.
⁵²
Esref A, Solmaz I, Akkoc H, Donmezdil S, Karahan Z, Safak K, et al. Association between the Rh blood group and the Covid-19 susceptibility. Int J Hematol Oncol. 2020;32 (2):081-6.
⁵³
Muhoz-Culla M, Roncancio-Clavijo A, Martinez B, Gorostidi-Aicua M, Pineiro L, Azkune A, et al. O group is a protective factor for COVID19 in Basque population. PLoS One. 2021;16(4): e0249494.
⁵⁴
Khasayesi M, Kashi Z, Ilali NM, Ghasemian R, Eslamijoubari M, Hosseini-Khah Z. Association of ABO and rhesus blood groups with the severity of SARS-CoV-2 infection: a cross-sectional analytical study. J Clin Diagnost Res. 2021;15(12).
⁵⁵
Pasangha E, Dhali A, D'Souza C, Umesh S. Are blood groups related to the distribution and severity of COVID-19? A cross-sectional study in a tertiary care hospital in South India. Qatar Med J.2021;2021(3):63.
⁵⁶
Komal A, Noreen M, Akhtar J, Imran M, Jamal M, Atif M, et al. Analyses of ABO blood groups with susceptibility and symptomatic variations of COVID-19 infection, a questionnaire-based survey. APMIS. 2021;129(10):579-86.
⁵⁷
Halim MR, Saha S, Haque IU, Jesmin S, Nishat RJ, Islam AA, et al. ABO blood group and outcomes in patients with COVID-19 admitted in the intensive care unit (ICU): a retrospective study in a tertiary-level hospital in Bangladesh. J Multidiscip Healthc. 2021;14:2429.
⁵⁸
Hermel DJ, Spierling Bagsic SR, Costantini CL, Mason JR, Gahvari ZJ, Saven A. ABO phenotype and clinical correlates of COVID-19 severity in hospitalized patients. Future Sei OA. 2021;7(8):FSO735.
⁵⁹
Kabrah SM, Abuzerr SS, Baghdadi MA, Kabrah AM, Flemban AF, Bahwerth FS, et al. Susceptibility of ABO blood group to COVID-19 infections: clinico-hematological, radiological, and complications analysis. Medicine. 2021;100(52).

Publication Dates

Publication in this collection
11 Dec 2023
Date of issue
2023

History

Received
16 Aug 2022
Accepted
07 Nov 2022
Published
30 Nov 2022

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial No Derivative License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium provided the original work is properly cited and the work is not changed in any way.

PICO criteria for Objective 1	Description
Population	Population at risk for SARS-CoV-2 infection (entire population)
Intervention (exposure)	ABO blood group
Comparison	Different blood groups by ABO classification system
Outcome	COVID-19 infection

PICO criteria for Objective 2	Description
Population	Population at risk for SARS-CoV-2 infection (entire population)
Intervention (exposure)	ABO blood group
Comparison	Different blood groups by ABO classification system
Outcome	COVID-19 severe infection, hospitalization, admission to intensive care unit (ICU), need for mechanical ventilation, and mortality

Databases	Descriptors utilized	Date of Search	Number of articles found
Embase	"blood group ABO system" AND "coronavirus disease 2019"	06/02/2022	256
PubMed	"COVID-19" AND "ABO blood-group system"	06/02/2022	132
Science Direct	"COVID-19" AND "ABO blood-group system"	06/02/2022	41
Scopus	"coronavirus disease 2019" and "blood group ABO system"	06/02/2022	216
Virtual Health Library (VHL)	"COVID-19" and "ABO Blood-Group system"	06/02/2022	135
Web of Science	"COVID-19" and "ABO blood-group system"	06/02/2022	18

Authors (year)	Type of study	Selection	Comparability	Outcome
RAY et al. (2020)¹⁴14 RayJG, Colacci M, Schuil MJ, Vermeulen MJ, Park AL. Non-ABO red cell antibodies and risk of COVID-19. Int J Infect Dis. 2021;108:179-82.	Cohort	****	**	***
ZIETZ et al. (2020)¹⁵15 Zietz M, Zucker J, Tatonetti NP. Associations between blood type and COVID-19 infection, intubation, and death. Nat Commun. 2020;11(1):l-6.	Cohort	***	**	***
SARDU et al. (2020)¹³13 Sardu C, Marfella R, Maggi P, Messina V, Cirillo P, Codella V, et al. Implications of ABO blood group in hypertensive patients with covid-19. BMC Cardiovasc Disord. 2020;20(1):1-10.	Cohort	**	**	***
BARNKOB et al. (2020)¹⁶16 Barnkob MB, Pottegárd A, St0vring H, Haunstrup TM, Homburg K, Larsen R, et al. Reduced prevalence of SARS-CoV-2 infection in ABO blood group O. Blood Adv. 2020;4(20):4990-3.	Cohort	***	**	***
MUNIZ-DIAZ et al. (2020)⁵5 Muniz-Diaz E, Llopis J, Parra R, Roig I, Ferrer G, Grifols J, et al. Relationship between the ABO blood group and COVID-19 susceptibility, severity and mortality in two cohorts of patients. Blood Transfusion. 2021;19(1):54.	Cohort	****	**	***
TEVATIA et al. (2020)¹⁷17 TEVATIA MS, SIDHU A, KALRA DK, BARANWAL AK, PANDIT P, GULERIA P, et al. Does PCR cycle threshold for SARS-CoV-2 have association with ABO blood group types? J Clin Diagnost Res. 2020;14(10).	Cohort	****	*	**
NAUFFAL et al. (2021)¹⁸18 Nauffal V, Achanta A, Goldhaber SZ, Piazza G Association of ABO blood group type with cardiovascular events in COVID-19. J. Thromb. Thrombolysis. 2021;51(3):584-6.	Cohort	****	**	***
NALBANT et al. (2022)¹⁹19 Nalbant A, Aydm A, Yaylac« S, Kaya T, Wermeulen CL, Cin-emre H. Association of ABO blood group and age with COVID-19 positive test. Revista da Associação Médica Brasileira. 2021;67:46-50.	Cohort	****	**	***
AMOROSO et al. (2021)²⁰20 Amoroso A, Magistroni P, Vespasiano F, Bella A, Bellino S, Puoti F, et al. of Italian network. Regional transplant coordinating C. HLA and ABO Polymorphisms May Influence SARS-CoV-2 Infection and COVID-19 Severity. Transplantation. 2020.	Cohort	****	*	***
SZYMANSKI et al. (2021)²¹21 Szymanski J, Mohrmann L, Carter J, Nelson R, Chekuri S, Assa A, et al. ABO blood type association with SARS-CoV-2 infection mortality: a single-center population in New York City. Transfusion. 2021;61(4):1064-70.	Cohort	***	*	***
BADEDI et al. (2021)²²22 Badedi M, Alnami A, Darraj H, Alrajhi A, Mutawwam D-A, Somaily M, et al. Clinical characteristics and ABO blood groups in COVID-19 patients, Saudi Arabia. Medicine. 2021;100(30).	Cohort	***	*	***
DE FREITAS DUTRA et al. (2021)²³23 de Freitas Dutra V, Bonet-Bub C, Yokoyama APH, Achkar R, Machado RRG, Assunção M, et ai. Anti-A and SARS-CoV-2: an intriguing association. Vox Sang. 2021;116(5):557-63.	Cohort	**	*	**
DOMÈNECH-MONTOLIU et al. (2021)²⁴24 Domènech-Montoliu S, Puig-Barberà J, Pac-Sa MR, Vidal-Utril-las P, Latorre-Poveda M, Rio-González AD, et al. ABO blood groups and the incidence of complications in COVID-19 patients: a population-based prospective cohort study. Int J Environ Res Public Health. 2021;18(19):10039.	Cohort	**	*	***
TAMAYO-VELASCO et al. (2021)²⁵25 Tamayo-Velasco A, Penarrubia Ponce MJ, Alvarez FJ, Gonzalo-Benito H, de la Fuente I, Perez-Gonzalez S, et al. Can the cytokine profile according to ABO blood groups be related to worse outcome in COVID-19 patients? yes, they can. Front Immunol. 2021: 4088.	Cohort	**	**	**
ISHAQetal. (2021)²⁶26 Ishaq U, Malik A, Malik J, Mehmood A, Qureshi A, Laique T, et al. Association of ABO blood group with COVID-19 severity, acute phase reactants and mortality. PLoS One. 2021;16(12): e0261432.	Cohort	**	*	***
KABRAH et al. (2021)⁵⁹59 Kabrah SM, Abuzerr SS, Baghdadi MA, Kabrah AM, Flemban AF, Bahwerth FS, et al. Susceptibility of ABO blood group to COVID-19 infections: clinico-hematological, radiological, and complications analysis. Medicine. 2021;100(52).	Cohort	***	*	***
MATZHOLD et al. (2021)²⁷27 Matzhold EM, Berghold A, Bemelmans MKB, Banfi C, Stelzl E, Kessler HH, et al. Lewis and ABO histo-blood types and the secretor status of patients hospitalized with COVID-19 implicate a role for ABO antibodies in susceptibility to infection with SARS-CoV-2. Transfusion. 2021;61(9):2736-45.	Cohort	***	*	**
MULLINS et al. (2021)²⁸28 Mullins J, Al-Tarbsheh AH, Chieng H, Chaukiyal P, Ghalib S, Jain E, et al. The association of ABO blood type with the risk and severity of COVID-19 infection. Am J Blood Res. 2021;11 (1):53.	Cohort	**	*	**
GRECO et al. (2021)²⁹29 Greco S, Bella A, Bonsi B, Fabbri N, Califano A, Morrone S, et al. SARS-CoV-2 infection and H1N1 vaccination: does a relationship between the two factors really exist? A retrospective analysis of a territorial cohort in Ferrara, Italy. Eur Rev Med Pharmacol Sei. 2021: 2795-801.	Cohort	****	**	**
AL-YOUHA et al. (2020)³⁰30 Al-Youha SA, Alduaij W, Al-Serri A, Almazeedi SM, Al-Haddad M, Jamal MH, et al. The impact of ABO blood groups on clinical outcomes and susceptibility to COVID-19: a retrospective study in an unselected population. Transfusion. 2021 ;61 (5):1631-41.	Cohort	***	**	**
FAN et al. (2020) (31)	Case control	****	**	***
AD'HIAH et al. (2020)³²32 Ad'hiah AH, Abdullah MH, Alsudani MY, Shnawa RM, Al-Sa'ady AJ, Allami RH, et al. Association between ABO blood groups and susceptibility to COVID-19: profile of age and gender in Iraqi patients. Egypt J Med Hum Genet. 2020;21 (1):1-10.	Case control	****	**	***
ZHAO et al. (2020) (33)	Case control	****	*	***
SAIFY et al. (2020)³⁴34 Saify K, Alborz MS, Saadat M. Susceptibility to the novel coronavirus disease (COVID-19) is associated with ABO and Rh blood groups: a case-control study from Afghanistan. Egypt J Med Hum Genet. 2021;22(1):l-5.	Case control	****	**	*
WU et al. (2020)³⁵35 Wu Y, Feng Z, Li P, Yu Q. Relationship between ABO blood group distribution and clinical characteristics in patients with COVID-19. Clin Chim Acta. 2020;509:220-3.	Case control	**	*	***
KHALIL et al. (2020)³⁶36 Khalil A, Feghali R, Hassoun M. The Lebanese COVID-19 cohort; a challenge for the ABO blood group system. Front Med. 2020;7:585341.	Case control	**	**	**
BADEDI et al. (2020)³⁷37 Badedi M, Makrami A, Alnami A. Co-morbidity and blood group type risk in coronavirus disease 2019 patients: a case -control study. J Infect Public Health. 2021;14(4):550-1.	Case control	***	**	***
BEHBOUDI et al. (2021)³⁸38 Behboudi E, Hamidi V, Gholizadeh F, Grala EM, Ghelmani Y, Nakhaie M, et al. Association between ABO blood groups and rhesus antigen and susceptibility to COVID-19 in the Yazd hospital. New Microbes New Infect. 2021;44:100934.	Case control	**	**	*
TORRES- ALARCÓN et al. (2021)³⁹39 Torres-Alarcón CG, García-Ruíz A, Cahete-Ibáhez CR, Morales-Pogoda II, Muhoz-Arce CM, BE Cid-Domínguez, et al. Blood system ABO antigens as risk factor for severity of SARS-CoV-2 infection. Gaceta médica de México. 2021;157(2):181-7.	Case control	**	*	**
KÍRÍSCietal. (2021)⁴⁰40 KÍRÍSCi Ö, ÖZLÜK S, TOPALCA US, KÖPRÜLÜ ND. Relationship of ABO blood groups to SARS-COV-2 infection causing COVID-19 disease. Konuralp Med J. 2021;13(1):18-23.	Case control	**	**	**
KOLIN et al. (2020)⁴¹41 Ko lin DA, Kulm S, Christos PJ, Elemento O. Clinical, regional, and genetic characteristics of Covid-19 patients from UK Bio-bank. PLoS One. 2020;15(11):e0241264.	Case control	****	**	**
GAMBOA-AGUILAR et al. (2022)⁴²42 Gamboa-Aguilar J, Zamorano-Montano AC, Enriquez-Osorio A, Torres-Cubillas W, López-Arroyo JL, Chapol JAM, et al. Abo blood group, atherothrombotic comorbidities, and COVID-19: a case-control study of their association in the Mexican population. Arch. Med. Res. 2022;53(1):100-8.	Case control	***	***	**
LATZ et al. (2020)⁴³43 Latz CA, DeCarlo C, Boitano L, Png C, Patell R, Conrad MF, et al. Blood type and outcomes in patients with COVID-19. Ann. Hematol. 2020;99(9):2113-8.	Cross-sectional	**	**	**
LIU et al. (2020)⁶6 Liu N, Zhang T, Ma L, Zhang H, Wang H, Wei W, et al. The impact of ABO blood group on COVID-19 infection risk and mortality: a systematic review and meta-analysis. Blood Rev. 2021;48:100785.	Cross-sectional	**	*	**
HOILAND et al. (2020)⁴⁴44 Hoiland RL, Fergusson NA, Mitra AR, Griesdale DE, Devine DV, Stukas S, et al. The association of ABO blood group with indices of disease severity and multiorgan dysfunction in COVID-19. Blood Adv. 2020;4(20):4981-9.	Cross-sectional	***	**	**
GÖKERetal. (2020)⁴⁵45 Göker H, Karakulak EA, Demiroglu H, Ceylan ÇMA, Büyükasik Y, Inkaya AÇ, et al. The effects of blood group types on the risk of COVID-19 infection and its clinical outcome. Turk] Med Sei. 2020;50(4):679-83.	Cross-sectional	***	**	**
KOTILA et al. (2020)⁴⁶46 Kotila TR, Alonge TO, Fowotade A, Famuyiwa 01, Akinbile AS. Association of the ABO blood group with SARS-CoV-2 infection in a community with low infection rate. Vox Sang. 2021;116(8):910-5.	Cross-sectional	**	*	**
YAYLACI et al. (2020)⁴⁷47 Yaylacî S, Dheir H, íssever K, Gene AB, Senocak D, Kocayigit H, et al. The effect of abo and rh blood group antigens on admission to intensive care unit and mortality in patients with COVID-19 infection. Revista da Associação Médica Brasileira. 2020;66:86-90.	Cross-sectional	*	**	**
SOLMAZ et al. (2020)⁴⁸48 Solmaz I, Araç S. ABO blood groups in COVID-19 patients; cross-sectional study. Int. J. Clin. Pract. 2021;75(4):el3927.	Cross-sectional	***	*	**
AL KUWARI et al. (2020)⁴⁹49 Al Kuwari HM, Rahim HFA, Abu-Raddad LJ, Abou-Samra A-B, Al Kanaani Z, Al Khal A, et al. Epidemiological investigation of the first 5685 cases of SARS-CoV-2 infection in Qatar, 28 Febru-ary-18 April 2020. BMJ Open. 2020;10(10):e040428.	Cross-sectional	***	**	**
ALMADHI et al. (2021)⁵⁰50 Almadhi MA, Abdulrahman A, Alawadhi A, Rabaan AA, Atkin S, AlQahtani M. The effect of ABO blood group and antibody class on the risk of COVID-19 infection and severity of clinical outcomes. Sei Rep. 2021;ll(1):l-5.	Cross-sectional	***	**	**
AKTIMUR et al. (2020)⁵¹51 Aktimur SH, Ahmet S, Yazicioglu B, Gunes AK, Serhat G The assessment of the relationship between ABO blood groups and Covid-19 infection. Int J Hematol Oncol. 2020;31(3):121-5.	Cross-sectional	***	**	**
ESREF et al. (2020)⁵²52 Esref A, Solmaz I, Akkoc H, Donmezdil S, Karahan Z, Safak K, et al. Association between the Rh blood group and the Covid-19 susceptibility. Int J Hematol Oncol. 2020;32 (2):081-6.	Cross-sectional	***	*	**
MUNOZ-CULLA et al. (2021)⁵³53 Muhoz-Culla M, Roncancio-Clavijo A, Martinez B, Gorostidi-Aicua M, Pineiro L, Azkune A, et al. O group is a protective factor for COVID19 in Basque population. PLoS One. 2021;16(4): e0249494.	Cross-sectional	***	*	**
KHASAYESI et al. (2021)⁵⁴54 Khasayesi M, Kashi Z, Ilali NM, Ghasemian R, Eslamijoubari M, Hosseini-Khah Z. Association of ABO and rhesus blood groups with the severity of SARS-CoV-2 infection: a cross-sectional analytical study. J Clin Diagnost Res. 2021;15(12).	Cross-sectional	**	*	**
PASANGHA et al. (2020)⁵⁵55 Pasangha E, Dhali A, D'Souza C, Umesh S. Are blood groups related to the distribution and severity of COVID-19? A cross-sectional study in a tertiary care hospital in South India. Qatar Med J.2021;2021(3):63.	Cross-sectional	*	**	**
KOMAL et al. (2021)⁵⁶56 Komal A, Noreen M, Akhtar J, Imran M, Jamal M, Atif M, et al. Analyses of ABO blood groups with susceptibility and symptomatic variations of COVID-19 infection, a questionnaire-based survey. APMIS. 2021;129(10):579-86.	Cross-sectional	**	*	*
HALIM et al. (2021)⁵⁷57 Halim MR, Saha S, Haque IU, Jesmin S, Nishat RJ, Islam AA, et al. ABO blood group and outcomes in patients with COVID-19 admitted in the intensive care unit (ICU): a retrospective study in a tertiary-level hospital in Bangladesh. J Multidiscip Healthc. 2021;14:2429.	Cross-sectional	***	*	**
HERMEL et al. (2021)⁵⁸58 Hermel DJ, Spierling Bagsic SR, Costantini CL, Mason JR, Gahvari ZJ, Saven A. ABO phenotype and clinical correlates of COVID-19 severity in hospitalized patients. Future Sei OA. 2021;7(8):FSO735.	Cross-sectional	***	**	**

Authors, year, place of study	Type of study/ Newcastle score	Sample size (n)	Outcomes of interest	Main results
SOLMAZ et al, 2020, Turkey⁴⁸48 Solmaz I, Araç S. ABO blood groups in COVID-19 patients; cross-sectional study. Int. J. Clin. Pract. 2021;75(4):el3927.	Cross-sectional / 6	128,758 1667 cases^* * Study sample 1 (hospitalized). 127,091 controls² 2 Non-blood donor controls.	COVID-19 infection	- Group A was more prevalent in COVID patients compared to controls, Group O was less prevalent in patients
AL KUWARI et al, 2020, Pakistan.⁴⁹49 Al Kuwari HM, Rahim HFA, Abu-Raddad LJ, Abou-Samra A-B, Al Kanaani Z, Al Khal A, et al. Epidemiological investigation of the first 5685 cases of SARS-CoV-2 infection in Qatar, 28 Febru-ary-18 April 2020. BMJ Open. 2020;10(10):e040428.	Cross-sectional / 7	3870 1935 cases^* * Study sample 1 (hospitalized). 1935 controls¹ 1 Blood donor controls.	COVID-19 infection	- Group B was more prevalent in COVID patients compared to controls, Group AB was less prevalent in patients
KOTILA et al, 2020, Nigeria⁴⁶46 Kotila TR, Alonge TO, Fowotade A, Famuyiwa 01, Akinbile AS. Association of the ABO blood group with SARS-CoV-2 infection in a community with low infection rate. Vox Sang. 2021;116(8):910-5.	Cross-sectional / 5	9440 302 cases^ Study sample 2 (outpatients). 9138 controls¹ 1 Blood donor controls.	COVID-19 infection	- Group B and AB were more prevalent in COVID patients compared to controls, Group O was less prevalent in patients
LATZ et al, 2020, USA ⁴³43 Latz CA, DeCarlo C, Boitano L, Png C, Patell R, Conrad MF, et al. Blood type and outcomes in patients with COVID-19. Ann. Hematol. 2020;99(9):2113-8.	Cross-sectional / 6	7648 1289 cases 6359 controls² 2 Non-blood donor controls.	COVID-19 infection	- Groups A, B and AB were more prevalent in COVID patients compared to controls, Group O was less prevalent in patients
HOILAND et al, 2020, Canada.⁴⁴44 Hoiland RL, Fergusson NA, Mitra AR, Griesdale DE, Devine DV, Stukas S, et al. The association of ABO blood group with indices of disease severity and multiorgan dysfunction in COVID-19. Blood Adv. 2020;4(20):4981-9.	Cross-sectional / 7	62,341 95 cases^* * Study sample 1 (hospitalized). 62,246 controls² 2 Non-blood donor controls.	COVID-19 infection	- No significant difference
GÖKER et al, 2020, Turkey⁴⁵45 Göker H, Karakulak EA, Demiroglu H, Ceylan ÇMA, Büyükasik Y, Inkaya AÇ, et al. The effects of blood group types on the risk of COVID-19 infection and its clinical outcome. Turk] Med Sei. 2020;50(4):679-83.	Cross-sectional / 7	2068 186 cases^* * Study sample 1 (hospitalized). 1882 controls² 2 Non-blood donor controls.	COVID-19 infection	- Group A was more prevalent in COVID patients compared to controls, Group O was less prevalent in patients
AKTIMUR et al, 2020, Turkey.⁵¹51 Aktimur SH, Ahmet S, Yazicioglu B, Gunes AK, Serhat G The assessment of the relationship between ABO blood groups and Covid-19 infection. Int J Hematol Oncol. 2020;31(3):121-5.	Cross-sectional / 7	5379 179 cases^* * Study sample 1 (hospitalized). 5200 controls² 2 Non-blood donor controls.	COVID-19 infection	- Group A was more prevalent in COVID patients compared to controls, Group O was less prevalent in patients
KOMAL, 2021, Pakistan.⁵⁶56 Komal A, Noreen M, Akhtar J, Imran M, Jamal M, Atif M, et al. Analyses of ABO blood groups with susceptibility and symptomatic variations of COVID-19 infection, a questionnaire-based survey. APMIS. 2021;129(10):579-86.	Cross-sectional / 4	1599 305 cases^ Study sample 2 (outpatients). 1294 controls¹ 1 Blood donor controls.	COVID-19 infection	- Group AB was more prevalent in COVID patients compared to controls, Group B was less prevalent in patients
ALMADHI et al, 2021, Bahrain.⁵⁰50 Almadhi MA, Abdulrahman A, Alawadhi A, Rabaan AA, Atkin S, AlQahtani M. The effect of ABO blood group and antibody class on the risk of COVID-19 infection and severity of clinical outcomes. Sei Rep. 2021;ll(1):l-5.	Cross-sectional / 7	7319 2334 cases^ Study sample 2 (outpatients). 4985 controls² 2 Non-blood donor controls.	COVID-19 infection	- Group B was more prevalent in COVID patients compared to controls, Group AB was less prevalent in patients
ZHAO et al, 2020, China.³³33 Zhao J, Yang Y, Huang H, Li D, Gu D, Lu X, et al. Relationship between the ABO blood group and the coronavirus disease 2019 (COVID-19) susceptibility. Clin Infect Dis. 2021;73(2): 328-31.	Cross sectional / 8	29.253 2173 cases 27,080 controls² 2 Non-blood donor controls.	COVID-19 infection	- Group A was more prevalent in COVID patients compared to controls, Group O was less prevalent in patients
WU et al, 2020, China.³⁵35 Wu Y, Feng Z, Li P, Yu Q. Relationship between ABO blood group distribution and clinical characteristics in patients with COVID-19. Clin Chim Acta. 2020;509:220-3.	Case control / 6	2178 187 cases^* * Study sample 1 (hospitalized). 1991 controls² 2 Non-blood donor controls.	COVID-19 infection	- Group A was more prevalent in COVID patients compared to controls, Group O was less prevalent in patients
SAIFY et al, 2020, Afghanistan.³⁴34 Saify K, Alborz MS, Saadat M. Susceptibility to the novel coronavirus disease (COVID-19) is associated with ABO and Rh blood groups: a case-control study from Afghanistan. Egypt J Med Hum Genet. 2021;22(1):l-5.	Case control / 7	1340 301 cases^* * Study sample 1 (hospitalized). 1039 controls¹ 1 Blood donor controls.	COVID-19 infection	- No significant difference
AD'HIAH et al, 2020, Iraq. (32)	Case control / 9	1915 1014 cases^* * Study sample 1 (hospitalized). 901 controls¹ 1 Blood donor controls.	COVID-19 infection	- Group A was more prevalent in COVID patients compared to controls.
KÍRiSCietal, 2021, Turkey⁴⁰40 KÍRÍSCi Ö, ÖZLÜK S, TOPALCA US, KÖPRÜLÜ ND. Relationship of ABO blood groups to SARS-COV-2 infection causing COVID-19 disease. Konuralp Med J. 2021;13(1):18-23.	Case control / 6	8299 455 cases^ Study sample 2 (outpatients). 7844 controls² 2 Non-blood donor controls.	COVID-19 infection	- No significant difference
FAN et al, 2020, China.³¹31 Fan Q, Zhang W, Li B, Li D-J, Zhang J, Zhao F. Association between ABO blood group system and COVID-19 susceptibility in Wuhan. Front Cell Infect Microbiol. 2020;10:404.	Case control / 9	208 105 cases^* * Study sample 1 (hospitalized). 103 controls² 2 Non-blood donor controls.	COVID-19 infection	- Group A was more prevalent in COVID patients compared to controls, Group O was less prevalent in patients
KHALIL et al, 2020, Lebanon.³⁶36 Khalil A, Feghali R, Hassoun M. The Lebanese COVID-19 cohort; a challenge for the ABO blood group system. Front Med. 2020;7:585341.	Case control / 6	6643 146 cases^* * Study sample 1 (hospitalized). 6497 controls² 2 Non-blood donor controls.	COVID-19 infection	- No significant difference
RAY et al, 2020, Canada.¹⁴14 RayJG, Colacci M, Schuil MJ, Vermeulen MJ, Park AL. Non-ABO red cell antibodies and risk of COVID-19. Int J Infect Dis. 2021;108:179-82.	Cohort / 9	225,556 7071 cases^* * Study sample 1 (hospitalized). 218,485 controls² 2 Non-blood donor controls.	COVID-19 infection	- Group AB was more prevalent in COVID patients compared to controls, Group O was less prevalent in patients.
BARNKOB et al., 2020, Denmark.¹⁶16 Barnkob MB, Pottegárd A, St0vring H, Haunstrup TM, Homburg K, Larsen R, et al. Reduced prevalence of SARS-CoV-2 infection in ABO blood group O. Blood Adv. 2020;4(20):4990-3.	Cohort / 7	2211,894 7422 cases^ Study sample 2 (outpatients). 2204,472 controls² 2 Non-blood donor controls.	COVID-19 infection	- Groups A, B and AB were more prevalent in COVID patients compared to controls, Group O was less prevalent in patients
MUNIZ-DIAZ et al., 2020, Spain.⁵5 Muniz-Diaz E, Llopis J, Parra R, Roig I, Ferrer G, Grifols J, et al. Relationship between the ABO blood group and COVID-19 susceptibility, severity and mortality in two cohorts of patients. Blood Transfusion. 2021;19(1):54.	Cohort / 9	76.724 854 cases^ Study sample 2 (outpatients). 75,870 controls¹ 1 Blood donor controls.	COVID-19 infection	- Group A was more prevalent in COVID patients compared to controls, Group O was less prevalent in patients.
NALBANT et al., 2022, Turkey.¹⁹19 Nalbant A, Aydm A, Yaylac« S, Kaya T, Wermeulen CL, Cin-emre H. Association of ABO blood group and age with COVID-19 positive test. Revista da Associação Médica Brasileira. 2021;67:46-50.	Cohort / 9	313 220 cases^* * Study sample 1 (hospitalized). 93 controls² 2 Non-blood donor controls.	COVID-19 infection	- No significant difference
AMOROSO et al., 2021, Italy.²⁰20 Amoroso A, Magistroni P, Vespasiano F, Bella A, Bellino S, Puoti F, et al. of Italian network. Regional transplant coordinating C. HLA and ABO Polymorphisms May Influence SARS-CoV-2 Infection and COVID-19 Severity. Transplantation. 2020.	Cohort / 8	40,904 219 cases^ Study sample 2 (outpatients). 40,685 controls² 2 Non-blood donor controls.	COVID-19 infection	- Group A was more prevalent in COVID patients compared to controls
MUNOZ-CULLA et al, 2021, Basque.⁵³53 Muhoz-Culla M, Roncancio-Clavijo A, Martinez B, Gorostidi-Aicua M, Pineiro L, Azkune A, et al. O group is a protective factor for COVID19 in Basque population. PLoS One. 2021;16(4): e0249494.	Cohort / 7	18,208 412 cases^* * Study sample 1 (hospitalized). 17,796 controls² 2 Non-blood donor controls.	COVID-19 infection	- Group A was more prevalent in COVID patients compared to controls, Group O was less prevalent in patients.
DE FREITAS DUTRA et al, 2021, Brazil.²³23 de Freitas Dutra V, Bonet-Bub C, Yokoyama APH, Achkar R, Machado RRG, Assunção M, et ai. Anti-A and SARS-CoV-2: an intriguing association. Vox Sang. 2021;116(5):557-63.	Cohort / 5	2642 430 cases^* * Study sample 1 (hospitalized). 2212 controls¹ 1 Blood donor controls.	COVID-19 infection	- Group A was more prevalent in COVID patients compared to controls, Group O was less prevalent in patients.
KOLIN et al, 2020, United Kingdom.⁴¹41 Ko lin DA, Kulm S, Christos PJ, Elemento O. Clinical, regional, and genetic characteristics of Covid-19 patients from UK Bio-bank. PLoS One. 2020;15(11):e0241264.	Cohort / 8	397.064 968 cases^ Study sample 2 (outpatients). 396,096 controls² 2 Non-blood donor controls.	COVID-19 infection	- Group A was more prevalent in COVID patients compared to controls, Group O was less prevalent in patients.
MATZHOLD, et al, 2021, Austria.²⁷27 Matzhold EM, Berghold A, Bemelmans MKB, Banfi C, Stelzl E, Kessler HH, et al. Lewis and ABO histo-blood types and the secretor status of patients hospitalized with COVID-19 implicate a role for ABO antibodies in susceptibility to infection with SARS-CoV-2. Transfusion. 2021;61(9):2736-45.	Cohort / 6	250,636 338 cases^* * Study sample 1 (hospitalized). 250,298 controls¹ 1 Blood donor controls.	COVID-19 infection	- Group AB was more prevalent in COVID patients compared to controls, Group O was less prevalent in patients.
TEVATIA et al, 2020, India.¹⁷17 TEVATIA MS, SIDHU A, KALRA DK, BARANWAL AK, PANDIT P, GULERIA P, et al. Does PCR cycle threshold for SARS-CoV-2 have association with ABO blood group types? J Clin Diagnost Res. 2020;14(10).	Cohort / 7	998 116 cases^* * Study sample 1 (hospitalized). 882 controls¹ 1 Blood donor controls.	COVID-19 infection	- No significant difference
DOMÈNECH-MONTOLIU et al, 2021, Spain.²⁴24 Domènech-Montoliu S, Puig-Barberà J, Pac-Sa MR, Vidal-Utril-las P, Latorre-Poveda M, Rio-González AD, et al. ABO blood groups and the incidence of complications in COVID-19 patients: a population-based prospective cohort study. Int J Environ Res Public Health. 2021;18(19):10039.	Cohort / 6	1821 483 cases^* * Study sample 1 (hospitalized). 1338 controls² 2 Non-blood donor controls.	COVID-19 infection	- No significant difference

Authors, year, place of study	Type of study / Newcastle score	Sample size (n)	Outcomes of interest	Main results
LATZ et al., 2020, USA ⁴³43 Latz CA, DeCarlo C, Boitano L, Png C, Patell R, Conrad MF, et al. Blood type and outcomes in patients with COVID-19. Ann. Hematol. 2020;99(9):2113-8.	Cross-sectional / 6	1289	Mortality	- No significant difference
LIU et al., 2020, Germany.⁶6 Liu N, Zhang T, Ma L, Zhang H, Wang H, Wei W, et al. The impact of ABO blood group on COVID-19 infection risk and mortality: a systematic review and meta-analysis. Blood Rev. 2021;48:100785.	Cross-sectional / 5	5391,149	Mortality	- Increased mortality in blood group A, decreased mortality in blood group B
BADEDI, 2020, Saudi Arabia.³⁷37 Badedi M, Makrami A, Alnami A. Co-morbidity and blood group type risk in coronavirus disease 2019 patients: a case -control study. J Infect Public Health. 2021;14(4):550-1.	Case control / 8	323 -108 cases - 215 control	Mortality	- No significant difference
AD'HIAH et al., 2020, Iraq.³²32 Ad'hiah AH, Abdullah MH, Alsudani MY, Shnawa RM, Al-Sa'ady AJ, Allami RH, et al. Association between ABO blood groups and susceptibility to COVID-19: profile of age and gender in Iraqi patients. Egypt J Med Hum Genet. 2020;21 (1):1-10.	Case control / 9	895 - 300 cases - 595 controls	Mortality	- Increased mortality in blood groups A and AB
BEHBOUDI et al., 2021, Iran.³⁸38 Behboudi E, Hamidi V, Gholizadeh F, Grala EM, Ghelmani Y, Nakhaie M, et al. Association between ABO blood groups and rhesus antigen and susceptibility to COVID-19 in the Yazd hospital. New Microbes New Infect. 2021;44:100934.	Case control / 5	398 - 148 cases - 250 controls	Mortality	- No significant difference
GAMBOA-AGUILAR et al., 2022, Mexico⁴²42 Gamboa-Aguilar J, Zamorano-Montano AC, Enriquez-Osorio A, Torres-Cubillas W, López-Arroyo JL, Chapol JAM, et al. Abo blood group, atherothrombotic comorbidities, and COVID-19: a case-control study of their association in the Mexican population. Arch. Med. Res. 2022;53(1):100-8.	Case control / 8	7416 - 2416 cases - 5000 controls	Mortality	- No significant difference
SARDU et al., 2020, Italy.¹³13 Sardu C, Marfella R, Maggi P, Messina V, Cirillo P, Codella V, et al. Implications of ABO blood group in hypertensive patients with covid-19. BMC Cardiovasc Disord. 2020;20(1):1-10.	Cohort / 7	164 cases - 72 type O - 92 non-O	Mortality	- Increased mortality in non-O blood types
BARNKOB et al., 2020, Denmark.¹⁶16 Barnkob MB, Pottegárd A, St0vring H, Haunstrup TM, Homburg K, Larsen R, et al. Reduced prevalence of SARS-CoV-2 infection in ABO blood group O. Blood Adv. 2020;4(20):4990-3.	Cohort / 7	2211,894 - 7422 cases - 2204,472 controls	Mortality	- No significant difference
RAY et al., 2020, Canada.¹⁴14 RayJG, Colacci M, Schuil MJ, Vermeulen MJ, Park AL. Non-ABO red cell antibodies and risk of COVID-19. Int J Infect Dis. 2021;108:179-82.	Cohort/9	225,556 - 7071 cases - 218,485 controls	Mortality	- Increased mortality in blood group B, decreased in blood group O
NAUFFAL et al., 2021, USA.¹⁸18 Nauffal V, Achanta A, Goldhaber SZ, Piazza G Association of ABO blood group type with cardiovascular events in COVID-19. J. Thromb. Thrombolysis. 2021;51(3):584-6.	Cohort/9	810 - 401 cases - 409 controls	Mortality	- No significant difference
SZYMANSKI et al., 2021, USA.²¹21 Szymanski J, Mohrmann L, Carter J, Nelson R, Chekuri S, Assa A, et al. ABO blood type association with SARS-CoV-2 infection mortality: a single-center population in New York City. Transfusion. 2021;61(4):1064-70.	Cohort/7	4968	Mortality	- Increased mortality in blood group A
NALBANT et al., 2022, Turkey.¹⁹19 Nalbant A, Aydm A, Yaylac« S, Kaya T, Wermeulen CL, Cin-emre H. Association of ABO blood group and age with COVID-19 positive test. Revista da Associação Médica Brasileira. 2021;67:46-50.	Cohort/9	313 - 220 cases - 93 controls	Mortality	- No significant difference
AMOROSO et al., 2021, Italy.²⁰20 Amoroso A, Magistroni P, Vespasiano F, Bella A, Bellino S, Puoti F, et al. of Italian network. Regional transplant coordinating C. HLA and ABO Polymorphisms May Influence SARS-CoV-2 Infection and COVID-19 Severity. Transplantation. 2020.	Cohort/8	40,904 - 219 cases - 40,685 controls	Mortality	- No significant difference
MATZHOLD, et al., 2021, Austria.²⁷27 Matzhold EM, Berghold A, Bemelmans MKB, Banfi C, Stelzl E, Kessler HH, et al. Lewis and ABO histo-blood types and the secretor status of patients hospitalized with COVID-19 implicate a role for ABO antibodies in susceptibility to infection with SARS-CoV-2. Transfusion. 2021;61(9):2736-45.	Cohort/6	338	Mortality	- No significant difference
HERMEL et al., 2021, USA.⁵⁸58 Hermel DJ, Spierling Bagsic SR, Costantini CL, Mason JR, Gahvari ZJ, Saven A. ABO phenotype and clinical correlates of COVID-19 severity in hospitalized patients. Future Sei OA. 2021;7(8):FSO735.	Cross-sectional / 7	473	ICU admission and mortality	- No significant difference
AKTIMUR et al., 2020, Turkey.⁵¹51 Aktimur SH, Ahmet S, Yazicioglu B, Gunes AK, Serhat G The assessment of the relationship between ABO blood groups and Covid-19 infection. Int J Hematol Oncol. 2020;31(3):121-5.	Cross-sectional / 7	5379 -179 cases - 5200 controls	ICU admission and mortality	- No significant difference
YAYLACI et al., 2020, Turkey⁴⁷47 Yaylacî S, Dheir H, íssever K, Gene AB, Senocak D, Kocayigit H, et al. The effect of abo and rh blood group antigens on admission to intensive care unit and mortality in patients with COVID-19 infection. Revista da Associação Médica Brasileira. 2020;66:86-90.	Cross-sectional / 5	397	ICU admission and mortality	- No significant difference
PASANGHA et al., 2020, India.⁵⁵55 Pasangha E, Dhali A, D'Souza C, Umesh S. Are blood groups related to the distribution and severity of COVID-19? A cross-sectional study in a tertiary care hospital in South India. Qatar Med J.2021;2021(3):63.	Cross-sectional / 5	370	ICU admission, mechanical ventilation and mortality	- No significant difference
MULLINS, et al., 2021, USA.²⁸28 Mullins J, Al-Tarbsheh AH, Chieng H, Chaukiyal P, Ghalib S, Jain E, et al. The association of ABO blood type with the risk and severity of COVID-19 infection. Am J Blood Res. 2021;11 (1):53.	Cohort/ 5	227	ICU admission and mechanical ventilation	- No significant difference
GRECO et al., 2021, Italy.²⁹29 Greco S, Bella A, Bonsi B, Fabbri N, Califano A, Morrone S, et al. SARS-CoV-2 infection and H1N1 vaccination: does a relationship between the two factors really exist? A retrospective analysis of a territorial cohort in Ferrara, Italy. Eur Rev Med Pharmacol Sei. 2021: 2795-801.	Cohort/8	330	ICU admission and mortality	- Increased ICU admission in blood group AB
KABRAH et al., 2021, Saudi Arabia.⁵⁹59 Kabrah SM, Abuzerr SS, Baghdadi MA, Kabrah AM, Flemban AF, Bahwerth FS, et al. Susceptibility of ABO blood group to COVID-19 infections: clinico-hematological, radiological, and complications analysis. Medicine. 2021;100(52).	Cohort/7	285	ICU admission and mortality	- No significant difference
HOILAND et al., 2020, Canada.⁴⁴44 Hoiland RL, Fergusson NA, Mitra AR, Griesdale DE, Devine DV, Stukas S, et al. The association of ABO blood group with indices of disease severity and multiorgan dysfunction in COVID-19. Blood Adv. 2020;4(20):4981-9.	Cross-sectional / 7	95	Mechanical ventilation	- Increased need for mechanical ventilation in blood groups A and AB
HALIM et al., 2021, Blangadesh.⁵⁷57 Halim MR, Saha S, Haque IU, Jesmin S, Nishat RJ, Islam AA, et al. ABO blood group and outcomes in patients with COVID-19 admitted in the intensive care unit (ICU): a retrospective study in a tertiary-level hospital in Bangladesh. J Multidiscip Healthc. 2021;14:2429.	Cross-sectional / 6	771	Mechanical ventilation and mortality	- Increased mortality and need for mechanical ventilation in blood group A
GÖKERetal., 2020, Turkey⁴⁵45 Göker H, Karakulak EA, Demiroglu H, Ceylan ÇMA, Büyükasik Y, Inkaya AÇ, et al. The effects of blood group types on the risk of COVID-19 infection and its clinical outcome. Turk] Med Sei. 2020;50(4):679-83.	Cross-sectional / 7	2068 -186 cases -1882 controls	Mechanical ventilation, ICU admission and mortality	- No significant difference
TORRES-ALARCÓN et al., 2021, Mexico.³⁹39 Torres-Alarcón CG, García-Ruíz A, Cahete-Ibáhez CR, Morales-Pogoda II, Muhoz-Arce CM, BE Cid-Domínguez, et al. Blood system ABO antigens as risk factor for severity of SARS-CoV-2 infection. Gaceta médica de México. 2021;157(2):181-7.	Case control / 5	125 - 73 cases - 52 controls	Mechanical ventilation, ICU admission and mortality	- Increased mortality in blood group A
AL-YOUHA et al., 2020, Kuwait.³⁰30 Al-Youha SA, Alduaij W, Al-Serri A, Almazeedi SM, Al-Haddad M, Jamal MH, et al. The impact of ABO blood groups on clinical outcomes and susceptibility to COVID-19: a retrospective study in an unselected population. Transfusion. 2021 ;61 (5):1631-41.	Cohort / 7	3703,305 - 3305 cases - 3700,000 controls	Mechanical ventilation	- No significant difference
BADEDI, 2020, Saudi Arabia.²²22 Badedi M, Alnami A, Darraj H, Alrajhi A, Mutawwam D-A, Somaily M, et al. Clinical characteristics and ABO blood groups in COVID-19 patients, Saudi Arabia. Medicine. 2021;100(30).	Cohort / 7	404	Mechanical ventilation	- No significant difference
TAMAYO-VELASCO et al., 2021, Spain.²⁵25 Tamayo-Velasco A, Penarrubia Ponce MJ, Alvarez FJ, Gonzalo-Benito H, de la Fuente I, Perez-Gonzalez S, et al. Can the cytokine profile according to ABO blood groups be related to worse outcome in COVID-19 patients? yes, they can. Front Immunol. 2021: 4088.	Cohort / 6	136 -108 cases - 28 controls	Mechanical ventilation and mortality	- Increased mortality and need for mechanical ventilation in blood groups A, B and AB
ZIETZ et al., 2020, USA.¹⁵15 Zietz M, Zucker J, Tatonetti NP. Associations between blood type and COVID-19 infection, intubation, and death. Nat Commun. 2020;11(1):l-6.	Cohort / 8	14,112	Mechanical ventilation and mortality	- Increased mortality and need for mechanical ventilation in blood group AB
ISHAQetal., 2021, Pakistan.²⁶26 Ishaq U, Malik A, Malik J, Mehmood A, Qureshi A, Laique T, et al. Association of ABO blood group with COVID-19 severity, acute phase reactants and mortality. PLoS One. 2021;16(12): e0261432.	Cohort / 6	1067	Mechanical ventilation and mortality	- No significant difference

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