key: cord-0790302-9x6a0tc7
authors: Takagi, Hisato
title: Down the Rabbit‐Hole of blood groups and COVID‐19
date: 2020-08-14
journal: Br J Haematol
DOI: 10.1111/bjh.17059
sha: 85e8221f18b436926c0e36238900b239e5932c09
doc_id: 790302
cord_uid: 9x6a0tc7

I read with great interest the recently published article by Li et al.,1 which suggests that a risk of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection may be significantly higher in subjects with blood-group A and significantly lower in those with blood-group O. This case-control study compared the ABO blood-group distribution in 265 cases with coronavirus disease 2019 (COVID-19) at the Central Hospital of Wuhan with that in 3694 heathy controls.

I read with great interest the recently published article by Li et al. 1 which suggests that a risk of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection may be significantly higher in subjects with blood group A and significantly lower in those with blood group O. This case-control study compared the ABO blood-group distribution in 265 cases with coronavirus disease 2019 (COVID-19) at the Central Hospital of Wuhan with that in 3 694 healthy controls. 1 To verify the clinical findings by Li et al. 1 I herein would like to epidemiologically analyze the relationship between bloodgroup distribution (i.e. proportion of subjects with bloodgroup O, and A, B, and AB ) and SARS-CoV-2 infection (i.e. COVID-19 prevalence) in nations around the world.

Blood-group distribution in 101 different nations was available on Rhesus Negative (http://www.rhesusnegative.net/ themission/bloodtypefrequencies/). For these nations, I extracted total confirmed COVID-19 cases and deaths on 25 June 2020 from the website of the World Health Organization (WHO) (https://www.who.int/emergencies/diseases/nove l-coronavirus-2019/situation-reports/); total population, total pure-alcohol consumption, life expectancy at birth, medicaldoctor and nursing/midwifery personnel density, hypertension and obesity prevalence, and annual PM2.5 [particulate matter 2.5] concentrations from WHO (https://www.who.int/ gho/publications/world_health_statistics/2020/en/); population ages 0-14 and ≥65, GDP (Gross Domestic Product) and GNI (Gross National Income) per capita, PPP (Purchasing Power Parity), and diabetes prevalence from World Bank (https://data.worldbank.org/indicator/); and daily-ambient UV (ultraviolet) radiation from WHO (https://apps.who.int/ gho/data/view.main.35300) (Table SI) . Random-effects metaregression (i.e. inverse variance-weighted regression), dealing with a nation as a study (in a meta-analysis), was performed using OpenMetaAnalyst (http://www.cebm.brown.edu/ope nmeta/index.html). No comparable data regarding COVIDtesting regimens, death timing (post a positive test), and imposed-lockdown timing/extent/duration were available. All the above-mentioned covariates were together entered in the multivariate model. A meta-regression graph depicted the COVID-19 prevalence/fatality (plotted as the logarithmtransformed prevalence/fatality on the y-axis) as a function of a given covariate (plotted on the x-axis). Because of relatively low proportions of subjects with blood-group Rh(À), only blood-group Rh(+) was investigated.

The present analysis included a total of 8Á9-million COVID-19 cases and 465 000 deaths on a total of 6Á8-billion populations. Results of the univariate and multivariate metaregression were summarized in Table I . The univariate model for COVID-19 prevalence indicated a significant association of higher blood-group B-Rh(+) (coefficient, À0Á089; P <0Á001; Fig 1A) with lower prevalence and no correlation of O-Rh(+), A-Rh(+), and AB-Rh(+) to prevalence. In the multivariate regression, however, there was no association of B-Rh(+) with prevalence. The univariate model for COVID- correspondence 19 fatality indicated significant correlations of higher O-Rh (+) (coefficient, À0Á030; P < 0Á001; Fig 1B) and B-Rh(+) (coefficient, À0Á037; P = 0Á004; Fig 1C) to lower fatality, a significant association of higher A-Rh(+) (coefficient, 0Á073; P = 0Á001; Fig 1D) with higher fatality, and no correlation of AB-Rh(+) to fatality. In the multivariate regression, there was no association of A-Rh(+) and B-Rh(+) with fatality but a significant correlation of higher O-Rh(+) (coefficient, À0Á024; P = 0Á022) to lower fatality. In summary, although blood groups may not be associated with SARS-CoV-2 infection (i.e. COVID-19 prevalence), O-Rh(+) may be independently and protectively correlated to COVID-19 fatality. The present findings do not mean directly that COVID-19 patients with blood group O-Rh(+) are at lower risk of death, which should be heeded. The present results denote simply that COVID-19 fatality was lower in nations with higher blood group O-Rh(+) prevalence because not patients' but populations' blood groups were analyzed. It should be also mentioned that COVID-testing regimens, death timing (post a positive test), and imposedlockdown timing/extent/duration were not considered as covariates in the present multivariate regression, which may have brought about inconsistence of COVID prevalence and fatality. The absence of an association of blood groups with SARS-CoV-2 infection suggested in the present analysis does not correspond with the findings by Li et al. 1 which may be explained by the following. First, the present analysis applied meta-regression (i.e. inverse variance-weighted regression) with the multivariable model adjusting for 14 potential confounders, whereas Li et al. 1 simply compared the COVID-19 cases and the healthy controls. Second, sample size of the study by Li et al. 1 was only 3 959 (265 cases and 3 694 controls), which is far smaller than the total of 6Á8-billion people (including a total of 8Á9-million cases) in the present analysis. Several previous findings, 2-4 however, may strengthen the results of the study by Li et al. 1 Furthermore, the Severe Covid-19 GWAS [genome-wide association study] Group 5 recently found, in their meta-analysis adjusting for age and sex, a higher and lower risk for respiratory failure due to COVID-19, respectively, in blood groups A and O than in other blood groups. Because of the nation-level epidemiological design, the present results should be confirmed by further experimental and clinical investigations. ]

Association between ABO blood groups and risk of SARS-CoV-2 pneumonia

Association of Abo and Rh blood group types to hepatitis B, hepatitis C, HIV and syphilis infection, a five year' experience in healthy blood donors in a tertiary care hospital

Inhibition of the interaction between the SARS-CoV spike protein and its cellular receptor by anti-histo-blood group antibodies

ABO blood group and susceptibility to severe acute respiratory syndrome

Genomewide association study of severe covid-19 with respiratory failure

The author declares no competing interests.

Shizuoka Medical Center, Shizuoka, Japan. E-mail: kfgth973@ybb.ne.jpKeywords: blood groups, COVID-19, meta-regression

Additional supporting information may be found online in the Supporting Information section at the end of the article.