key: cord-0969265-urab9d7g authors: Shah, Chirag; Grando, Donna J.; Rainess, Rebecca A.; Ayad, Lydia; Gobran, Emad; Benson, Payam; Neblett, Meika T.; Nookala, Vinod title: Factors associated with increased mortality in hospitalized COVID-19 patients date: 2020-11-04 journal: Ann Med Surg (Lond) DOI: 10.1016/j.amsu.2020.10.071 sha: 59593a8907ddbfa26eeb384c82fcabb2607857a6 doc_id: 969265 cord_uid: urab9d7g BACKGROUND: The rapid spread of the coronavirus disease 2019 (COVID-19) epidemic has significantly impacted global health. So far, the evidence regarding the risk factors that predict the outcomes of COVID-19 patients is limited. In this study, we identified several risk factors that are associated with increased mortality in COVID-19 patients. METHODS: We performed a retrospective review of electronic medical records of the patients admitted with an initial diagnosis of COVID-19. We extracted several patient variables (including demographics, lab results, and pre-existing conditions) and examined for their association with increased mortality. RESULTS: Of the 487 people included in the study, 340 survived and 147 expired. Significant differences existed in demographics and underlying comorbidities between the two groups. A higher proportion of patients were age 65 and older (87.76% vs 53.24%, p < 0.001), and were predominantly male (63.27% vs 52.94%, p = 0.0351). Multivariate analysis showed five variables to be the predictors for mortality: age ≥65 [OR = 3.87, 95% CI (2.01, 7.46), p < 0.001], initial presentation with dyspnea [OR = 1.71, 95% CI (1.03, 2.82), p = 0.037], history of cardiomyopathy [OR = 3.33, 95% CI (1.07, 10.41), p < 0.038], positive initial chest imaging findings [OR = 2.24, CI (1.26, 3.97), p = 0.006], and acute kidney injury (AKI) [OR = 3.33 CI (2.10, 5.28), P < 0.001]. CONCLUSION: Identifying COVID-19 patients with these characteristics may help guide the management and improve mortality. The coronavirus disease 2019 (COVID-19) pandemic initially began as an outbreak of acute respiratory illness in China's Hubei Province and has rapidly evolved into a global health emergency [1] . Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) causes severe illness in a significant proportion of infected individuals, most notably in older patients and those with underlying comorbidities, including hypertension, diabetes, coronary heart disease, and malignancy [2] [3] [4] . The disease presentation varies widely. According to a study of ~ 44,500 confirmed COVID-19 patients, a major proportion (80 %) of patients presented with mild respiratory symptoms, but a significant percentage of patients (19%) presented with either severe disease including hypoxia or critical illness including respiratory failure [5] . Some have developed fatal complications including multiple organ failure, septic shock, pulmonary edema, severe pneumonia, acute respiratory distress syndrome (ARDS), and death [6] [7] [8] . SARS-CoV-2 is believed to cause cytokine storm, which triggers an exaggerated inflammatory response in the body, and results in acute respiratory distress syndrome, shock, and multi-organ failure [9, 10] . The disease severity correlates with various pro-inflammatory cytokines, although it is not yet clear what is triggering the cytokine storm [11] . The pathophysiology, clinical presentation, and the management of COVID-19 still need to be more clearly defined. A significant proportion of patients deteriorate rapidly after initially presenting with milder symptoms [12] [13] [14] . This poses a challenge for frontline healthcare professionals and reinforces the need for early risk stratification. Government and public health care agencies have taken several measures to mitigate the effect. Still, numerous health care systems have faced a shortage of the resources necessary to manage these patients. Identifying independent high-risk factors for increased mortality of COVID-19 patients is crucial. Early identification of critically ill patients who require early medical intervention may reduce overall morbidity and mortality. Additionally, it helps effectively channel resources, especially in already challenged ICU environments. We obtained the study population from the patients admitted to Community Medical Center with COVID-19 from January 1 through May 31, 2020. We included initial admission of adult patients with a confirmed laboratory diagnosis of SARS-CoV-2 infection. Patients < 18 years old and those who refused medical treatment were excluded from the study. This study (IRB # 20-014) was approved by the Community Medical Center Institutional Review Board (HHS IRB Registration #: 00000942), New Jersey. This work has been reported in line with the strengthening the reporting of cohort studies in surgery (STROCSS) criteria [45] . J o u r n a l P r e -p r o o f We utilized a retrospective review of electronic medical records of the patients admitted to Community Medical Center with a confirmed diagnosis of SARS-CoV-2 infection. Demographics, clinical characteristics, laboratory results, and imaging findings were extracted from the patients' charts, and evaluated for the association with mortality in COVID-19 patients. A total of 487 people were included in the study. We analyzed and compared the outcomes in COVID-19 patients, and their association with the extracted variables. The extracted variables among survivors and expired were examined. Continuous variables were reported as means with standard deviation (SD) or medians, and categorical variables as proportions. We used Student's t-test or the Wilcoxon rank-sum test to analyze between-group differences, as appropriate for the continuous variables. Fisher's exact test or Chi-square test was used for the categorical variables. Additional analyses were performed with the use of the multivariable logistic regression adjusted for the significant covariates. Odds ratios with 95% confidence intervals were reported for all the predictors. All analyses were performed with the use of SAS software, version 9.4 (SAS Institute, Cary, NC). A two-sided p-value of less than 0.05 was considered to indicate statistical significance. In total, we included 487 people in the study. Of these, 147 expired and 340 survived. Baseline demographics are described in Table 1 . Compared to survivors, expired patients were older, with more patients age 65 years and older (87.76% vs 53.24 %, p = 0.001). Males were predominant in the expired group than the survivor group (63.27% vs 52.94%, p = 0.035). The proportion of patients admitted from the ICU was higher in the expired group than the survivor group (23.3 % vs 6.18 %, p < 0.001). The expired group had more underlying comorbidities than the survivor group ( 10 .29%, p = 0.038), acute kidney injury [defined as increase in serum creatinine of 0.3 mg/dL in 48 hours, serum creatinine increase of 1.5 mg/dL from baseline in 7 days or urine output of <0.5 mL/kg/hour in 6 hours] (63.27% vs 28.53 %, p < 0.001). Certain clinical features and laboratory findings were more prevalent in the expired group: dyspnea (72.11% vs 55.59%, p < 0.001), positive initial chest imaging findings (82.31% vs 65.59%, p < 0.001) [infiltrates, opacities, ground glass opacities, etc.], increased WBC count (mean-14.0 vs 8.4, p = 0.001), low albumin (mean-27 vs 30, p < 0.001), higher ferritin (mean-1247.9 vs 916, p = 0.001), higher procalcitonin (mean-3.9 vs 3.4, p < 0.001), higher IL-6 levels (mean 1200.9 vs 162.6, p < 0.001), higher C-reactive protein (mean 140.3 vs 81.2, p < 0.001), higher lactic acid levels (mean-3.1 vs 2.0, p < 0.001), higher LDH levels (mean-630.3 vs 360.3, p < 0.001) were predominant in the expired group vs the survivor group. Lymphopenia was more J o u r n a l P r e -p r o o f common in the expired group than the survivor group (mean-0.9 vs 1.2, p < 0.001). A greater number of patients in the expired group were on dialysis and needed more oxygen support. We identified several patient factors that predict mortality in multivariate analysis: Table 3 describes the initial presenting symptoms in the emergency department and initial lab reports of the patients. HLD -hyperlipidemia, CAD -coronary artery disease, CHF -congestive heart failure, A.fibatrial fibrillation, COPD -chronic obstructive pulmonary disease, CKD -Chronic kidney disease, ESRD -end stage renal disease, CVA -cerebrovascular accident, TIA -transient ischemic attack, PVD -peripheral vascular disease, DM -diabetes mellitus, AKI -acute kidney injury. ED -emergency department, CXR -chest x-ray, CT -computed tomography, IL-6 -interleukin-6, CRP -C-reactive protein, LDH -lactate dehydrogenase. PMH -past medical history, CHF -congestive heart failure, A. fib -atrial fibrillation, COPDchronic obstructive pulmonary disease, CVA -cerebrovascular accident, CKD -chronic kidney disease, DM -diabetes mellitus, AKI -acute kidney injury, CXR -chest x-ray, CT -computed tomography. Identifying the risk factors that predict the outcomes in COVID-19 patients would help clinicians to stratify the patients based on the severity of the disease and prognosis. Earlier identification of the patients with poor clinical outcomes aids in the management of the patients efficiently and proper allocation of resources. The available data suggests that advanced age, underlying comorbidities, various laboratory findings such as lymphopenia, thrombocytopenia, elevated inflammatory markers, and certain chest imaging findings are associated with poor clinical outcomes [15] [16] [17] [18] [19] [20] . In this study, we examined for several factors that are associated with increased mortality in hospitalized COVID-19 patients. The demographics of the study population are listed in Table 1 . The proportion of the patients admitted from the ICU was significantly higher in the expired group than the survivor group (23.13% vs 6.18%). Patients were much older in the expired group than the survivor group (mean age 78.4 Years vs 64.1 Years). The proportion of male patients was also higher in the expired group than the survivor group (63.27% vs 52.94%). Furthermore, the patients with age 65 years and older were higher in the expired group compared to the survivor group [OR = 3.87, 95 % CI (2.01, 7.46), p < 0.001] ( Table 5) . Older age and male sex are poor prognostic factors, and these findings are consistent with previous studies [5, 19, [21] [22] [23] [24] . Our study showed the patients with respiratory symptoms during an initial presentation were more common in the expired group than the survivor group (dyspnea -72.11 % vs 55.59 %, cough -51.70% vs 48.24%) ( Table 3 ). The percentage of the patients presenting with positive chest imaging findings at initial presentation was higher in the expired group than the survivor group ( (Table 3) . Several inflammatory markers such as ferritin, procalcitonin, IL-6 levels, and C-reactive protein were elevated in the expired group (Table 3) . Lactic acid levels (mean-3.1 vs 2.0) and LDH levels (mean-630.3 vs 360.3) were elevated in the expired group than the survivor group (Table 3) . Active cancer diagnosis was higher in the deceased group, but did not predict mortality in multivariate analysis. This may be due to a smaller sample size [25] . Various patient factors including clinical features, laboratory, and positive imaging findings have been identified as predictors of clinical outcomes in other studies [26] . The novel coronavirus is known to induce a cytokine storm that results in various clinical manifestations in patients [10, 27] . This is likely the cause of several elevated inflammatory markers in critically ill patients. Lymphopenia, high serum lactate, D-dimer levels, interleukin-6, and cardiac troponins have been associated with poor outcomes [12, 13, [28] [29] [30] [31] . COVID-19 patients in the intensive care unit have been found to have higher levels of various proinflammatory cytokines [32] . This study showed the odds of mortality in patients with a history of cardiomyopathy were higher [OR = 3.33, 95% CI (1.07, 10.41), p < 0.038]. Previous studies have demonstrated the association of poor patient outcomes with various cardiovascular conditions such as hypertension, coronary artery disease, heart failure, and cardiac arrhythmia, but there is limited evidence showing the association with cardiomyopathy [33] [34] [35] . A recent study demonstrated that the novel coronavirus might cause cardiac injury and the patients with elevated cardiac troponins and LDH had poor clinical outcomes [36] . Thus, it was hypothesized that severe inflammatory response in COVID-19 patients with preexisting cardiovascular conditions may precipitate cardiac injury [37] . This study also showed that the odds of mortality were higher in patients with acute kidney injury [OR = 3.33 CI (2.10, 5.28), p < 0.001]. A recent prospective cohort study by Cheng et al. showed that COVID-19 patients with underlying renal disorders and the development of AKI during hospitalization were associated with higher in-hospital mortality [38] . Several other studies have also showed the association between AKI and increased mortality [39] . Although the exact mechanism of renal injury in COVID- 19 is not yet clear, several studies have shown the association between SARS-CoV-2 and renal involvement [40] [41] [42] [43] [44] . More studies are needed to evaluate risk factors and long-term outcomes, especially for patients who developed AKI, proteinuria, and microscopic hematuria associated with COVID-19. J o u r n a l P r e -p r o o f Several limitations must be considered while interpreting this study. First, as it is a single center study with a largely geriatric population, it is vulnerable to certain tendencies, such as selection bias. Second, since this is a retrospective study using electronic medical records, we cannot make inferences regarding causality. Third, we cannot generalize the findings to the outpatient setting, as this was an inpatient hospital study. Additional limitations include variations in treatment protocol based on patient setting; for example: proning of patients by a dedicated team in the ICU, vs. encouragement of self-proning for patients on medical units (Table 4 ). We identified history of cardiomyopathy (Table 2 ) by chart review (physician diagnosis or inclusion in past medical history); ejection fraction information was not available for all patients. Similar studies at multiple centers with larger sample sizes are needed to substantiate these results. Overall, our study supports the findings of the previous studies. We identified several predictors for increased mortality in hospitalized COVID-19 patients. These are: age 65 and older, an initial presentation with dyspnea, positive chest imaging findings during initial presentation, past medical history of cardiomyopathy, and AKI. Out of these variables, the current evidence regarding the association between cardiomyopathy and mortality in COVID-19 patients is very limited. Particular consideration should be given to these variables, as they help to identify patients requiring early intervention and improve the chances of survival. In addition, mortality was higher for those with several underlying conditions, and although this was not significant in multivariate analysis, it warrants further study. Larger multiple center studies are needed to establish a stronger evidence. The datasets and the other information related to this study are available with the corresponding author. This study did not receive any grant from any funding agency. No conflicts of interest. This study was approved by the Community Medical Center Institutional Review Board, New Jersey. • The evidence regarding the risk factors associated with mortality in COVID-19 patients is limited. • Advanced age, an initial presentation with dyspnea, positive chest imaging findings, past history of acute kidney injury, and cardiomyopathy are associated with increased mortality. • Early identification of the patients with an increased risk that require early medical intervention may reduce overall morbidity and mortality. 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Not commissioned, externally peer reviewed.J o u r n a l P r e -p r o o f