key: cord-0849153-9qq049qb authors: Parveen, Rizwana; Sehar, Nouroz; Bajpai, Ram; Bharal Agarwal, Nidhi title: Association of diabetes and hypertension with disease severity in covid-19 patients: a systematic literature review and exploratory meta-analysis date: 2020-07-03 journal: Diabetes Res Clin Pract DOI: 10.1016/j.diabres.2020.108295 sha: 231954871ce8c9516bb4a29f9a20059215759cc6 doc_id: 849153 cord_uid: 9qq049qb Abstract Aim The novel coronavirus infection (COVID-19), now a worldwide public health concern is associated with varied fatality. Patients with chronic underlying conditions like diabetes and hypertension have shown worst outcomes. The understanding of the association might be helpful in early vigilant monitoring and better management of COVID-19 patients at high risk. The aim of the meta-analysis was to assess the association of diabetes and hypertension with severity of disease. Methods A literature search was conducted using the databases PubMed and Cochrane until March 31, 2020. Seven studies were included in the meta- analysis, including 2018 CIVID-19 patients. Results Diabetes was lower in the survivors (OR: 0.56; 95%CI: 0.35-0.90; p=0.017; I2 : 0.0%) and non-severe (OR: 1.66; 95%CI: 1.20-2.30; p=0.002; I2 : 0.0%) patients. No association of diabetes was found with ICU care. Hypertension was positively associated with death (OR: 0.49; 95%CI: 0.34-0.73; p=0.000; I2 : 0.0%), ICU care (OR: 0.42; 95%CI: 0.22-0.81; p=0.009; I2 : 0.0%) and severity (OR: 2.69; 95%CI: 1.27-5.73; p=0.01; I2 : 52.4%). Conclusions Our findings suggest that diabetes and hypertension have a negative effect on health status of COVID-19 patients. However, large prevalence studies demonstrating the consequences of comorbid diabetes and hypertension are urgently needed to understand the magnitude of these vexatious comorbidities. The novel coronavirus pandemic is now a worldwide public health concern [1] and is a progressive public health emergency of global significance [2] . The first case was reported to in Wuhan province of China on 31 December, 2019 with unexplained lower respiratory infections [3] . The disease has rapid human to human transmission capacity and varied fatality, due to acute respiratory distress syndrome (ARDS), multi-organ failure and other serious complications [4] . These viruses are termed as the Severe acute respiratory syndromecoronavirus-2 (SARS-CoV-2) as it is very similar to the one that caused the SARS outbreak [3] . They are a large family of single-stranded RNA viruses (+ssRNA) that can be isolated in different animal species [5] . According to recent estimates, 2% of the population is suggested to be healthy carriers of Coronavirus and these viruses are responsible for 5% to 10% of acute respiratory infections [6] . WHO Primarily, the COVID-19 patients have fever, myalgia or fatigue, and dry cough at the time of admission [7] . Although most patients are thought to have a favorable prognosis, older patients and those with chronic underlying conditions like diabetes, hypertension, coronary heart diseases etc. show worse outcomes [8, 9] . Patients with severe illness develop dyspnea and hypoxemia within 1week after onset of the disease, which might quickly progress to ARDS or end-organ failure [8] . Various studies have reported the clinical characteristics of patients with covid-19 who need management in intensive care units. Old age and comorbidities, particularly hypertension and diabetes, are believed to be risk factors for disease severity and death in SARS-Cov-2 infected patients [1, 7, 10] . Another study also reported comorbid hypertension being the most common, followed by diabetes and coronary heart disease [11] . Several studies have demonstrated higher prevalence of diabetes in COVID-19 patients, however, the effect of the prevalence of diabetes on severity of the disease needs further exploration. The understanding of the association might be helpful in early vigilant monitoring and better management of COVID-19 patients at high risk leading to ARDS, organ failure and death. Thus, in this meta-analysis we aim to assess the association of diabetes and hypertension with severity of disease. This systematic literature review followed the Preferred Reporting Items for Systematic Review and Meta-Analysis (PRISMA) guidelines extension for scoping reviews [12] . We searched PubMed, Medline and Cochrane until March 31, 2020 using the keywords "COVID-19 and diabetes", "2019 novel coronavirus and diabetes", "2019 novel coronavirus and hypertension" and "Covid-19 and hypertension". We also searched grey literature using Google Scholar and reference list of eligible articles. The studies describing the prevalence of diabetes and hypertension according to disease severity were included. We excluded duplicate publications, reviews, editorials, case reports, letters, meta-analysis, protocols, studies in language other than English and studies not reporting the required data. First author (RP) searched data and screened article for eligibility. Senior author (NA) double checked all the included articles and any dispute was resolved by consensus. Two reviewers (RP and NS) assessed the quality of data in the included studies using the National Institute of Health (NIH) quality assessment tools [13] . We preferred the NIH tool because it is comprehensive and widely accepted for an exhaustive assessment of data quality. We rated the overall quality of included studies as good, fair and poor, and incorporated them in the meta-analysis results. Data were inputted into a standardized data extraction table (Excel) and independently checked by a second reviewer (NS) for accuracy. The following variables were extracted: name of the first author, year of publication, study design, age, gender, current smoking, number of patients in severe and non-severe condition with comorbidities hypertension and diabetes. The included studies designated severe group as having respiratory distress, RR ≥ 30 beats/minute in a resting state, a mean oxygen saturation of ≤ 93%, and an arterial blood oxygen partial pressure (PaO2)/oxygen concentration (FiO2) ≤ 300 mmHg [14] . We performed an exploratory meta-analysis to understand the magnitude and direction of effect estimate. Odds ratios (ORs) were calculated and presented with respective 95% confidence intervals (CIs). Mantel-Haenszel random-effects meta-analysis using DerSimonian and Laird method was used to pool ORs [15] . Heterogeneity between studies was assessed using the χ 2based Cochran's Q statistic (p<0.1 considered as the presence of heterogeneity) and I-squared (I 2 ) statistics (>50% representing moderate heterogeneity) [15] . Forest plot was produced and studies were grouped according to their design. Publication bias was not assessed as a total number of studies were less than ten [15] . The systematic search yielded a total of 105 publications. Out of 105 studies 40 studies were found using the keyword" COVID-19 and diabetes", 16 studies with keyword "2019 novel coronavirus and diabetes", 33 studies with the term "Covid-19 and hypertension", and 14 studies with keyword "2019 novel coronavirus and hypertension". Two studies were found from other sources. After removing duplicates, 53 articles were found to be potential publications for screening. After the application of predefined inclusion and exclusion criteria, a total of seven studies were included for the meta-analysis. All the included studies were conducted in China. The prevalence of diabetes and hypertension were reported in survivors and non-survivors in two studies, ICU care and non-ICU care patients in two studies, while the prevalence of diabetes and hypertension in severe and non-severe patients was reported in three studies. Among the seven included studies, three were cohort studies [11, 14, 16] , while four were case-series [1, 7, 10, 17] . The studies enrolled a total of 2018 patients, including 1175 males and 840 females. The demographic characteristics of the subjects included in these studies are provided in Table 1 . We assessed the quality of data in the included studies using the NIH quality assessment tools. The quality assessment indicated that most included studies were of acceptable quality. All the papers clearly stated the research question or objective, the study population was clearly specified and defined and all the subjects were selected from the same or similar populations. The detailed result of the quality assessment is provided in Supplementary File. 0.0%) (Figure 2c ). Recent evidence on SARS-CoV-2 suggest that the presence of comorbidities increase mortality risk in COVID-19 patients. Diabetes is one the most important components to predict adverse outcomes [18] . Thus, the present meta-analysis was conducted to assess the association of diabetes with disease severity in COVID-19 patients. The present meta-analysis was based on data from 7 studies on COVID-19 patients. The present meta-analysis demonstrated that the prevalence of diabetes is lower in survivors than in non-survivors of COVID-19 patients. However, there was no difference in diabetes prevalence in patients requiring or not requiring ICU care. Additionally, a positive association between diabetes and disease severity was found. Several studies have demonstrated higher prevalence of diabetes in COVID-19 patients, however, the effect of the prevalence of diabetes on severity of the disease needs further exploration. A recent meta-analysis on the comorbidities suggested diabetes as one of the most prevalent comorbidities (8±6, 95% CI 6-11%), in COVID-19 patients. However, no significant difference was found in diabetes between severe and non-severe group [19] . Another similar meta-analysis demonstrated the pooled prevalence of diabetes to be 7.87% (95%CI 6.57%-9.28%) [20] . A meta-analysis reported the proportions of diabetes in patients with COVID-19 to be 9.7%. The incidences of diabetes were about two folds higher in ICU/severe cases than in their non-ICU/severe counterparts [18] . A retrospective study showed that 85.54% of severe patients had diabetes or cardiovascular diseases, which was significantly higher than that of the mild group [21] . A case-series reported 58% COVID-19 patients to have comorbid diabetes mellitus [22] . Although the pathophysiology involved in this comorbidity remains unexplained, several hypotheses have been suggested. Blood glucose level is suggested to play an essential role in the pathogenesis of infectious diseases. The immune system of diabetes patients might be altered by the abnormal blood glucose level, resulting in dysregulation and reduced responses of immune components. Consequently, these patients are susceptible to SARS-CoV-2 and various other types of bacteria [21] . Another hypothesis states that, human pathogenic coronaviruses, SARS-CoV and SARSCoV-2 bind to their target cells through angiotensin-converting enzyme 2 (ACE2), which is expressed by epithelial cells of the lung, intestine, kidney, and blood vessels. The expression of ACE2 is significantly increased in diabetes patients, being treated with ACE inhibitors and angiotensin II type-I receptor blockers. Use of thiazolidinediones and ibuprofen can also be increased ACE2. Consequently, the increased expression of ACE2 would facilitate infection with COVID-19 [23] . The present meta-analysis showed that hypertension is lower in survivors than in non-survivors of COVID-19 patients. Additionally, a positive association of hypertension with disease severity and ICU care was found. A recent meta-analysis demonstrated hypertension to be the most prevalent comorbidity (17±7, 95% CI 14-22%) in COVID-19 patients. Additionally, higher risk with hypertension was found in the severe group compared to those in Non-severe group, (OR 2.36, 95% CI: 1.46-3.83) [19] . According to another meta-analysis, the pooled prevalence of hypertension in people infected with SARS-CoV-2 were estimated as 16.37% (95%CI: 10.15%-23.65%) [20] . A meta-analysis reported the proportions of hypertension in patients with COVID-19 to be 17.1%. The incidence of hypertension were about two folds higher in ICU/severe cases than in their non-ICU/severe counterparts [18] . in understanding of the disease to establish risk stratification of the patients. All authors contributed significantly to this manuscript. Funding: This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors. 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