key: cord-0687758-7e19pa0y authors: Nemati, Saeed; Saeedi, Elnaz; Abdi, Sepideh; Qandian, Ali; Kalhor, Esmaeil; Moradi, Samin; Joshang, Narges; Eftekharzadeh, Anita; Hatamzadeh Khanghahi, Masoud; Fattahi, Pedram; Vand Rajabpour, Mojtaba; Najari, Hamid Reza title: Decomposition of socioeconomic inequality in COVID‐19 mortality in Iran: A retrospective cohort study date: 2021-11-05 journal: Health Soc Care Community DOI: 10.1111/hsc.13627 sha: 17d76010b176d319395071280cdd4760b6cad1e8 doc_id: 687758 cord_uid: 7e19pa0y This study aimed to investigate the relationship between socioeconomic status and COVID‐19 mortality in Iran. We performed a retrospective cohort study on data from the hospitalised COVID‐19 patients in Qazvin. We collected data on education, self‐reported socioeconomic status, and location of residence as a proxy for socioeconomic status (SES). We applied the Blinder‐Oaxaca decomposition approach to assess the role of socioeconomic inequality in COVID‐19 mortality and determine the main contributors to the observed inequality. Overall, 941 patients (48.96%) had low SES, while only 24.87% (n = 478) were classified in the high SES category. The mortality rate was significantly higher in the low SES group, and we spotted a 17.13% gap in COVID‐19 mortality between the high and low SES patients (p < 0.001). Age was the main contributor to the observed inequality, responsible for 6.91% of the gap (p < 0.001). Having co‐morbidities (1.53%) and longer length of stay (LOS) in hospitals (0.95%) in the low SES group were other main determinants of the inequality in COVID‐19 mortality (p < 0.05). In the unexplained part of our model, the effect of increased age (10.61%) and a positive RT‐PCR test result (3.43%) were more substantial in the low SES group compared to the high SES patients (p < 0.05). The low SES people had an increased risk of getting COVID‐19, and the disease has been more severe and fatal among them. Increased age, co‐morbidities, and LOS were identified as the main drivers of this inequality. as a normative concept (Organisation, 2013) . Several studies have already addressed health inequality in different aspects of health, including the incidence of both communicable and non-communicable diseases, exposure to risk factors, and access to health services (Emamian et al., 2011; Nemati et al., 2019; Pini et al., 2019) . The association between socioeconomic status and health outcomes has already been proven. It has been shown that deprived people are at increased risk of getting both communicable and non-communicable diseases. They also have less access to health facilities, and health awareness is much lower among low SES. Although data are scarce regarding the social distribution of COVID-19, higher infection rates in more poor households have been reported in a few studies (Prats-Uribe, Paredes, & Prieto-Alhambra, 2020). Addressing such an association between the socioeconomic status and the morbidity and mortality of COVID-19 may increase the efficiency of preventive strategies by identifying the at-risk groups. In this study, we used data from the hospital in Qazvin city in Iran to assess the role of socioeconomic inequality in the mortality of COVID-19. We also determined the contribution of each factor in the observed inequality. We performed a retrospective cohort study on 1922 patients with a primary diagnosis of COVID-19 who were admitted to hospitals in Qazvin, Iran, from February 20 to May 16, 2020. We employed the data from an electronic database provided by Qazvin University of Medical Sciences since the earliest day of the COVID-19 epidemic emergence. This database includes epidemiological and clinical data of all hospitalised patients across Qazvin city. The data source is explained in more detail elsewhere . First, study participants were categorised based on their SES into three groups: low, medium, and high SES, and then we investigated COVID-19 mortality among these groups. Next, the low and high SES groups were selected as the extreme SES groups to illustrate socioeconomic inequality in mortality due to and decompose the observed difference between these two compared groups. The study was performed on patients admitted with a primary diagnosis of COVID-19 according to INIGCDT and hospitalised in the Qazvin city (Health, 2020) . According to the guidelines of the INIGCDT, a primary diagnosis of COVID-19 is characterised by symptoms of fever, cough, or myalgia (referred herein as minor clinical criteria), coupled with either A) respiratory distress, low pulse oximetry reading (Sp02 = <93%), respiratory rate (RR) of >30 (herein What is known about this topic? • Deprived people are at increased risk of COVID-19 symptomatic infection. • The volume of health inequality regarding contagious diseases like COVID-19 varies from country to country, but the right mix of government policies could reduce it. • COVID-19 is more deadly in socioeconomically deprived patients. • Age, co-morbidities, and hospital length of stay are the main contributors to the observed inequality between the low and high SES patients. • Socioeconomic inequality in COVID-19 outcomes is not due to health system-related factors. considered as primary clinical criteria), or decreased level of consciousness; or B) patients being among high-risk groups who have an underlying medical condition along with suggestive chest X-ray or CT scan changes for COVID-19. In addition, other laboratory and chest imaging studies were performed during the patients' admission course. The definitive diagnosis of COVID-19 was based on the results of rRT-PCR test (Health, 2020) . The Length of Stay at the hospital (LOS) for all study participants was more than 24 hr, and cases without any contact number or those reluctant to participate in the study were excluded. The Research Ethic Committee approved this study of Qazvin University of Medical Sciences (Code: IR.QUMS.REC.1399.007). Informed consent was obtained from the study participants before the phone interview. Socioeconomic status was the main exposure that we collected through a phone interview with patients or their next of kin. Trained interviewers collected data on patients' level of education, their location of residence, and self-reported SES. In low and middle-income countries, there is no access to data indicating people's socioeconomic status (O'donnell, Van Doorslaer, Wagstaff, & Lindelow, 2007) . Moreover, previous studies illustrated that due to severe underreporting, collecting data regarding salary and income is challenging and might lead to biased information. Therefore, the indirect approach is recommended (O'donnell et al., 2007) . First, we collected a couple of living standard variables, including the level of education, location of residence, and self-reported SES as a proxy for socioeconomic status. Then the collected variables were coded from 1 to 5 from the lowest to the highest category. Afterward, we converted these values to a continuous variable using Principal Component Analysis (PCA). The suitability of the variables for PCA was checked using Kaiser- KMO for the included variables in the current study was 0.62, and the Bartlett test was statistically significant (χ 2 = 167.8, pvalue < 0.001). Then we created the SES variable using weights of the first component that covered 65% of the whole variance. Then, patients were categorised into three quartiles based on their PCA scores. Gender, age, SARS-CoV-2 RT-PCR test result, co-existing disorders, admission in intensive care unit (ICU admission), type of hospital (educational versus non-educational private hospital), and length of stay were also collected from the hospital database as potential confounders. The patient's outcome at discharge was the main interest that we collected from patients' medical records and hospital data sets. Categorical variables were described as the number and proportion of frequency. We also provided mean and standard deviation (SD) for all continuous variables. First, we compared baseline characteristics of the study participants using the Chi-square test to check whether our groups were comparable. We then applied a multiple Poisson regression model to determine the most influential factors associated with death from COVID-19. Next, variables with the Wald test p less than 0.2 were selected and entered into the Oaxaca-Blinder decomposition model. The Blinder-Oaxaca approach is a decomposition method that Blinder and Oaxaca first used to identify influential factors of inequality in the labour market (Blinder, 1973) . In this method, we compared the gap in outcome between the two groups of hospitalised COVID-19 patients with high or low SES and determined how the overall gap between them could be attributed to explained (difference in outcome determinants) and unexplained parts (difference in the effects of the determinants) of the model. The explained part indicates how differences in the mean of variable x could affect outcomes in both compared groups, whereas, in the unexplained part, we would like to know the effect of the difference in the role of independent variables between the compared groups on the desired outcome. In Equations, (1) and (2), X, β, and ε are the mean of determinant, regression coefficients, and error terms, respectively, We also used equation (3) in order to decompose the observed inequality between high and low SES groups, Therefore, the gap in outcome between the compared groups would be due to two primary sources, i.e. (i) difference in means of the determinants and (ii) difference in βs between high and low SES patients (O'donnell et al., 2007) . Data of 1922 COVID-19 hospitalised patients in Qazvin city, Iran, were collected. Among them, 48.96% were categorised into the low SES category, while 26.17% and 24.87% were labelled as medium and high SES, respectively. The mean age (±SD) in low, medium and high SES group was 66.2 (±19.1), 52.7 (±18.1), and 47.7 (±18.1), correspondingly and it was significantly higher in the low SES in comparison to medium and high SES groups (p-value < 0.001). In addition, the low SES group was more likely to have co-morbidities (more than 50% of patients in the low SES group (p-value < 0.001) compared to 30.54% and 40.56% patients in the high and medium-SES groups, respectively) ( Table 1 ). We also observed that being admitted to (1) Y lowSES = βX lowSES + ε high SES (2) Y highSES = βX highSES + ε high SES (3) Y high − Y low = X high − X low β high + X low β high − β low private hospitals was much lower in the low SES group (3.29%) than in other categories (8.79%). Moreover, while the mortality rate was 18.49% in the low SES group, it was significantly lower in the medium SES (10.14%) and high SES (4.60%) groups (p-value < 0.001) ( Table 1) . The association between SES and COVID-19 related mortality is depicted in Table 2 . After adjustment for all investigated confounders, the death ratio was 2.39 times higher in the low SES group than the high SES group. We also observed that patients in the medium SES group were more likely to die from COVID-19 when they were compared to patients in the high SES group (adjusted IRR = 1.96, 95% CI = 1.18, 3.25, p-value = 0.009) ( Table 2) . Table 3 , the incidence rate of death in the low SES group (22.8%) was significantly higher than the high SES group (5.69%), and we observed a 17.13% gap in death proportion between high and low SES patients. Overall, 9.60% of the observed gap was due to the factors that the decomposition model examined. Age was the primary variable explaining 6.91% of the observed difference, followed by co-morbidities (1.53%) and length of stay (0.95) (p-value < 0.05). We also observed that 7.53% of the gap was related to the unexplained part of the model. The coefficients of age (10.61) and RT-PCR test (3.43) were statistically significant in the unexplained part of the decomposition model (Table 3) . This study aimed to investigate and decompose socioeconomic inequality regarding mortality of COVID-19 during the epidemic in Iran. Thus, our study is among the first attempts investigating the socioeconomic inequality in COVID-19 mortality to the best of our knowledge. We found that while COIVD-19 mortality was concentrated in the low SES people in Iran, there was a 17.13% difference between the low and high SES patients. Based on our decomposition model, the primary variable contributing to this gap was age. Several studies have shown that COVID-19 mortality is associated with age, i.e., older patients are more likely to die (Goyal et On the other hand, as they earn less money and have less access to health information obeying self-protection procedures would be more difficult (Pini et al., 2019) . Additionally, the cost of self-protection procedures along with the economic crises in Iran and the inefficiency and poor performance of the health system in providing personal protective equipment's have led to the circumstances in which low SES people did not have access to affordable and adequate protective measures such as face masks and shields. Hence, it seems that unprotected attendance in crowded places has been more common among low SES people during the COVID-19 epidemic. Also, delays in referral and admission to hospital are more common among deprived patients. Thereby, diseases are tended to be diagnosed in more advanced stages, and more severe outcomes are expected . Accordingly, we showed that co-morbidities were much higher among more deprived patients, which was in line with previous findings (Emamian et al., 2011) . The unhealthy lifestyle is more prevalent among low SES groups, and several studies have reported higher non-communicable diseases and their risk factors. Emamian et al. reported a higher prevalence of non-communicable diseases in low SES people in Iran. Hence, it is predictable that noncommunicable disease is concentrated in more deprived groups (Emamian et al., 2011) . In this study, length of stay in the hospital was also identified as one determinant of higher mortality rates in low SES patients. Longer LOS was shown to be responsible for 0.9% of the gap in COVID-19 mortality across socioeconomic groups. Thus, longer LOS in the low SES could be attributed to the higher proportion of severe cases in deprived patients. Although we did not provide data on the severity of the disease, higher mean age and co-morbidity in low SES make them more susceptible to COVID-19, and the disease tended to be more severe among them (data not shown). In the unexplained part of the Blinder-Oaxaca decomposition was the limited socioeconomic information. Collecting asset data has been suggested as the best approach to determine SES in developing countries. However, in the current study, due to the low response rate that we encountered while collecting such data, we used data on education, the location of residence, and selfreported SES as a proxy of SES. Additionally, we did not have access to data on the cause of death and could not adjust for competing risks. However, the outcome of interest in our study was the status upon discharge from the hospital (recovery versus death). Therefore, we presume that the leading cause of death in the admitted patients was COVID-19. Moreover, we included having co-morbidities into our multiple regression model as a confounding factor to control its effect on the causal pathway. Patients with a low SES were at a higher risk of COVID-19 fatal outcomes, and the disease was more severe among them. Age, co-morbidities and LOS were found to be the main drivers of this inequality. However, none of the variables contributing to the observed gap were related to the health care, and a variable such as access to ICU care has been almost equal between the low and high SES groups. The socioeconomic status could not be changed in a short time. However, we suggested that the low SES people must be considered as a priority in all actions taken by governments. Providing emergency financial supports or free access to protective equipment like face masks/ shields might be helpful to reduce the vulnerability of low SES groups to COVID-19 complications. We would like to thanks all staffs in Qazvin city hospitals and particularly Mr. Hashem Alijani that helped us in data gathering. We also thank Dr. Mohammad Reza Rouhollahi for his useful suggestions. The authors also would like to thank WE4H writing and editing, Vancouver, Canada for English editing of the manuscript. All authors declare that they had no conflict of interests. TA B L E 3 Decomposition of the gap between the high and low SES group regarding COVID-19 mortality during the epidemic in Qazvin city, Iran Saeed Nemati: Methodology, Software, Formal analysis, writing original drafts. Elnaz Saeedi: Methodology, Software, Formal analysis Ali Qandian: Project administration, Writing -Review & Editing. Kalhor Esmaeil: Project administration, Validation, Writing-Review & Editing Samin Moradi: Investigation, Data collection. Narges Joshanng: Investigation, Data collection. Anita Eftekharzadeh: Writing-Review & Editing. Masoud Hatamzadeh Khanghahi: Investigation, Data Collection. 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