key: cord-0026062-1w50a5sd
authors: Kouhpayeh, Hamidreza; Ansari, Hossein
title: HIV infection and increased risk of COVID-19 mortality: A Meta-Analysis
date: 2021-12-21
journal: Eur J Transl Myol
DOI: 10.4081/ejtm.2021.10107
sha: 13e11cc598adc19a153271fb3e393e80ed98387e
doc_id: 26062
cord_uid: 1w50a5sd

There are some concerns on the effect of infection with human immunodeficiency virus (HIV) and acquired immunodeficiency syndrome (AIDS) on the outcome and mortality of COVID- 19. In this meta-analysis, we aimed to address this issue and assess the risk of mortality in COVID-19 patients who are co-infected with HIV. Two International electronic databases (PubMed, Scopus) were searched from the first time available to 12 August 2021. The targeted outcome was the pooled odds ratio to examine the effect of HIV infection on COVID-19 mortality. The crude odds ratio (OR) for all studies and the pooled OR were calculated with 95% confidence interval. The forest plot was used to graphically represent the result of conducted meta-analysis and calculated OR for individual studies. The I2 statistic was used to examine the Heterogeneity in the included studies. Eleven studies were included in our study consisting of 19,642,775 COVID-19 infected cases, 59,980 HIV-positive, and 4,373 deaths due to COVID-19 in HIV positive patients. The overall pooled odds ratio was 1.21 (CI: 1.02; 1.43) and P-value < 0.0277. The I^2 value was 89% (P-value < 0.0001), which shows that included studies are heterogeneous. In this study, the funnel plot analysis showed symmetry among the included studies. HIV-positive patients are 21% more likely to die because of COVID-19 infection than people without HIV. Special attention should be considered for the prevention and treatment of COVID-19 and consistent treatment for HIV infection, in HIV-positive patients.

(SARS-CoV-2) had infected more than 103 million people around the world in almost a year since its emergence in late 2019. The virus has been responsible for more than 2.2 million deaths all over the world as well 1 The global pandemic of coronavirus disease 2019 (COVID-19) is having a major impact on health, economic and social aspects of life. [2] [3] [4] [5] Numerous studies have shown the effect of many conditions such as chronic diseases and co-infections with other viruses on the severity and outcome of the COVID- 19 infections. Diabetes, hypertension, cardiovascular and hepatic diseases, obesity, and kidney diseases can increase the risk of COVID-19 mortality. [6] [7] [8] [9] [10] [11] However, there is a controversy on the effect of infection with human immunodeficiency virus (HIV) and acquired immunodeficiency syndrome (AIDS) on the outcome and mortality of COVID-19. 12 There are some concerns that HIV can suppress the immune system and make people who are infected with HIV more susceptible to SARS-CoV-2 infection and subsequent severe outcomes and death. 13, 14 On the other hand, some studies suggest that low CD4 count and immunosuppression in HIV-positive patients may protect these patients against cytokine storms observed in SARS-CoV-2 infected patients. 15 There are almost 40 million people with HIV around the world; so it is essential to determine the outcome of COVID-19 infection in this group. 16 It is especially the case in sub-Saharan Africa, where many countries are exposed to HIV and COVID-19 epidemics simultaneously, and the capacity to treat severe COVID-19 is very limited. 17 In this meta-analysis, we aimed to address this issue and assess the risk of mortality in COVID-19 patients who 2 are co-infected with HIV.

The current meta-analysis is conducted based on the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines. 18 The targeted outcome was the pooled odds ratio to examine the effect of HIV infection on COVID-19 mortality, number of total HIV positive and SARS-CoV-2 co-infected patients, number of total HIV negative patients who are infected with SARS-CoV-2, number of COVID-19 deaths who are were infected with HIV, number of COVID-19 deaths who were HIV negative. Observational study -including cross-sectional, cohort, or case-control studies -was eligible for inclusion.

Two International electronic databases (PubMed, Scopus) were searched from the first time available to 12 August 2021. The following sets of key terms were used for searching international databases: 1) Human immunodeficiency virus, HIV, acquired immune deficiency syndrome, AIDS; 2) COVID-19, 2019-nCoV, severe acute respiratory syndrome coronavirus 2, SARS-CoV-2 (Appendix I). No language limitation was applied in the search or the selection process.

We included studies that provided data on the frequency of death due to COVID-19 and survival of COVID-19 patients, based on HIV status (positive or negative). We included studies where mortality due to COVID-19 in HIV positive and HIV negative patients is the main outcome, these methods could be PCR-based, antibodybased, molecular techniques or clinical/ hospital records, registries, or directly from patients. We excluded the studies that contain one or more of the following criteria: 1) Studies on any species of SARS other than SARS-CoV-2, 2) case reports, case series, systematic review, meta-analysis, grey literature, 3) Studies with less than three deaths due to 4) full text in any language other than English; 5) having infectious diseases other than HIV and COVID-19.

The titles and abstracts of all records retrieved from online databases were screened by two researchers independently. Eligible full texts were selected and were screened for data of interest and data were extracted. The quality of all included full texts were also evaluated. The extracted data were assessed by a third reviewer. Any disagreements were discussed with an expert as a fourth reviewer and were resolved. The following data was extracted from included studies: bibliometric information (name of the first author, year of publication), study implementation country, type of the study number of total HIV positive and SARS-CoV-2 co-infected patients, number of total HIV negative patients who are infected with SARS-CoV-2, number of COVID-19 deaths who are were infected with HIV, number of COVID-19 deaths who were HIV negative, the mean or median age of patients, and the period in which mortality is accounted to be due to COVID-19. Based on previous studies, the quality of the eligible studies was assessed using the New-Castle Ottawa Scale (NOS) quality assessment scale. The quality score was presented for each study. 19 

For data analysis, we used meta package in the R statistical software (version 4.0.5). 20 The crude odds ratio (OR) was calculated with a 95% confidence interval (CI) for all studies. After that, the pooled odds ratio was estimated using Mantel-Haenszel Method. Because of heterogeneity greater than 75%, the randomeffects model was used. 21 The pooled OR for the association between HIV infection and mortality due to COVID-19 was reported with 95% CI. The forest plot was used to graphically represent the result of conducted meta-analysis and calculated OR for individual studies. The I2 statistic was used to examine the Heterogeneity in the included studies. A value of more than 75% was considered as significant heterogeneity. The I2 statistic represents the percentage of total variation across studies due to heterogeneity. The funnel plot was used to assess the small study effect. Observing any asymmetry visually in the funnel plot was considered as a Small study effect. As the small studies show different, treatment effects compared with the large studies, we used this method. The small study effect is the association between the size of the study and the effect in meta-analysis. Egger regression test of funnel plot asymmetry and Begg correlation method were conducted to test publication bias. A trimand-fill method was utilized to adjust the effect estimate for this bias.

The flow diagram of the study selection is presented in Figure 1 . After the removal of duplicate records, 3,262 studies were retrieved from online databases. These studies were screened based on title and/ or abstract. After that, 45 studies were fulfilled the inclusion criteria for full-text review. From these full-texts, 34 studies were excluded because 1) seventeen studies had insufficient data, 2) studies were not stratified by HIV status, 3) four studies did not have appropriate, 4) four studies have heterogeneous data; 5) studies had less than 10 deaths in HIV-positive and COVID-19 positive patients. Finally, the process led to a final inclusion of 11 studies. The characteristics of the selected studies are presented in Table1 23 The largest retrospective cohort in South Africa was conducted in 2021 by Jassat et al. In this study 151.779 COVID-19 infected patients were included. In this study, 9% of the population size was HIV positive. This study, with 3.407 deaths in HIV-positive patients, had the most mortality cases due to COVID-19. The OR of COVID-19 mortality in HIV positive patients compared to HIV negative patients was 1.15 (CI: 1.10 to 1. 19 ). 24 As it shows in Figure 2 the overall pooled odds ratio is 1.21 (CI: 1.02; 1.43), which suggests that the odds of mortality due to COVID-19 infection in HIV-positive patients was 21% higher than in HIV-negative patients (P-value < 0.0277). The I^2 value was 89% (P-value < 0.0001), which shows that included studies are heterogeneous. The evidence of the small study effect was tested by observation of funnel plot symmetry. In this study, the funnel plot analysis showed symmetry among the included studies ( Figure 3) . P-values for 

Egger regression test and Begg correlation method were 0.88 and 0.3 respectively, which indicate publication bias is non-significant. After moderating the small studies with the trimming method, the odds of mortality due to COVID-19 in HIV-positive patients was 1.21 (CI: 1.02; 1.43) times higher than HIV-negative patients, which did not show any change compared to the previous result.

In this meta-analysis, we assessed the mortality risk in HIV and COVID-19 co-infection compared to HIVnegative patients. It was revealed that persons living with HIV are 21% more likely to die because of COVID-19 infection than people without HIV. There are some explanations for the observed results. First, HIV-positive patients are more likely to have some preexisting chronic conditions that make them more susceptible to severe outcomes and mortality when infected with the COVID-19 virus. [25] [26] [27] [28] [29] [30] [31] [32] [33] [34] Some of these conditions are hypertension, diabetes, and cardiovascular diseases that numerous studies have shown their effectiveness in COVID-19 caused mortality and severity. 35 Besides, HIV-positive patients have a compromised immune system, and subsequent attenuated immune response to COVID-19 infection and severity and mortality are followed 13 The delayed SARS-CoV-2 specific antibody response caused by HIV infection may also increase the recovery time of lung lesions and provides the opportunity for the SARS-CoV-2 virus to spread and infect more areas of the lungs, but this hypothesis needs to be confirmed by future studies. In addition, HIV-positive patients are more susceptible to some conditions such as anemia, neutropenia, thrombocytopenia, and abnormal serum electrolytes. 36 Co-infection with some other types of pneumonia and infectious diseases, which may worsen during the course of COVIS-19 infection, is also another possible explanation for the greater mortality rate of COVID-19 among HIV-positive patients. 37 The mean age of patients with HIV and COVID-19 coinfection was 50 years, which is significantly younger than the mean age of hospitalized COVID-19 patients in the general population. This age difference results from premature aging of HIV-positive patients due to chronic inflammation or certain behavioral risk factors. 38, 39 With a greater chance of mortality in HIV-positive patients, they should follow all applicable recommendations for COVID-19 carefully to prevent SARS-CoV-2 acquisition. These recommendations include social or physical distancing, avoiding crowded areas, and wearing masks consistently. 40 Besides, HIV-positive patients should be included in the category of high-risk medical conditions and should be of high priority to receive SARS-CoV-2 vaccines, and this should be done regardless of viral load or CD4 count. In addition to caution about SARS-CoV-2 infection control in HIVpositive patients, health care providers should ensure that HIV-positive patients maintain their HIV controlled and sustain antiretroviral therapy (ART) continuously with proper adherence to treatment. 41 Addressing underlying medical conditions and achieving viral suppression could reduce COVID-19-associated mortality in HIV-positive patients, especially in highly affected regions with HIV including sub-Saharan Africa. Our study had some limitations. First, the studies included in our meta-analysis are from three regions, the United States, the United Kingdom and, South Africa, which may not be representative of the whole world. The latter limits the generalization of the results to other countries. Second, due to a limited number of studies, subgroup analysis, including age and sex groups, stages of HIV, HIV viral load, CD4 counts, ART regimen, and comorbidities were not possible. Therefore, future studies might take into account the association between HIV and COVID-19 outcomes by comorbidities, HIV viral load, CD4 count, and sex and age subgroups.

In conclusion, HIV infection is associated with higher mortality due to COVID-19. HIV-positive patients are 21% more likely to die because of COVID-19 infection than people without HIV. Special attention should be considered for the prevention and treatment of COVID-19 in HIV-positive patients. Authors' contributions HK, HA: conception, design, drafting of the manuscript, analysis and interpretation of the data, critical review and final approval of the version to be published.

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Accepted for publication

None.

This research did not receive any specific grant from funding agencies in the public, commercial, or not-forprofit sectors.