key: cord-0963058-8a5xr5si authors: Asghar, Muhammad Sohaib; Yasmin, Farah; Dapke, Kartik; Shah, Syed Muhammad Ismail; Zafar, Muhammad Daim Bin; Khan, Anosh Aslam; Mohiuddin, Osama; Surani, Salim title: Evaluation of Vitamin-D Status and Its Association with Clinical Outcomes Among COVID-19 Patients in Pakistan date: 2021-11-10 journal: Am J Trop Med Hyg DOI: 10.4269/ajtmh.21-0577 sha: 0c8235a0ac2b9b34fc3b5cddbdea46317d49e23d doc_id: 963058 cord_uid: 8a5xr5si The risk of acute respiratory tract infections is particularly pronounced in patients deficient in 25-hydroxyvitamin D (25(OH)D). With respect to COVID-19, there are conflicting evidence on the association of 25(OH)D levels with disease severity. We undertook this study to evaluate the 25(OH)D status in COVID-19 patients admitted in Karachi, Pakistan, and associated vitamin D deficiency with primary outcomes of mortality, length of stay, intubation, and frequency of COVID-19 symptoms. A total of 91 patients were evaluated for 25(OH)D status during their COVID-19 disease course. 25-hydroxyvitamin D levels were classified as deficient (< 10 ng/mL), insufficient (10–30 ng/mL), or sufficient (> 30 ng/mL). The study population comprised 68.1% males (N = 62). The mean age was 52.6 ± 15.7 years. Vitamin D deficiency was significantly associated with intensive care unit (ICU) admission (RR: 3.20; P = 0.048), invasive ventilation (RR: 2.78; P = 0.043), persistent pulmonary infiltrates (RR: 7.58; P < 0.001), and death (RR: 2.98; P < 0.001) on univariate Cox regression. On multivariate Cox regression, only death (RR: 2.13; P = 0.046) and persistent pulmonary infiltrates (RR: 6.78; P = 0.009) remained significant after adjustment for confounding factors. On Kaplan Meier curves, vitamin D deficient patients had persistent pulmonary infiltrates and a greater probability of requiring mechanical ventilation than patients with 25(OH)D ≥ 10 ng/mL. Mechanical ventilation had to be initiated early in the deficient group during the 30-day hospital stay (Chi-square: 4.565, P = 0.033). Patients with 25(OH)D ≥ 10 ng/mL also demonstrated a higher probability of survival than those with 25(OH)D concentrations < 10 ng/mL. 25-hydroxyvitamin D deficient population had longer hospital stays and worse outcomes. Vitamin D deficiency has been associated with a greater risk of respiratory tract infections. 1 The receptors for 25(OH)D are expressed on macrophages (and dendritic cells) and are known to regulate the transcription process, including some genes encoding antimicrobial peptides and may play a role in warding off respiratory infections. 2 25-hydroxyvitamin D is also known to protect from free radical-mediated oxidative injury. In the renin-angiotensin pathway, 25(OH)D is known to promote the expression of the angiotensin-converting enzyme 2 (ACE-II), which has been shown to be downregulated by SARS-COV-2. Other mechanisms that vitamin D levels could impact the morbidity and mortality of SARS-COV-2 may include minimizing the pro-inflammatory response in these patients including selective separation of inflammatory cytokines; inducing the innate and acquired antiviral immune response and/or local conversion of 25(OH)D to 1,25-(OH)2D by an increase expression of CYP27B1 enzyme in lung epithelial cells. While there is conflicting evidence on the association of 25(OH)D levels with COVID-19 infection, it is a plausible association that warrants investigation. Szeto et al. 3 found no significant association of 25(OH)D levels with primary outcomes like mortality, intubation, and renal replacement. Whereas Abrishami et al. 4 found significant associations of 25(OH)D deficiency with decreased survival and increased total lung involvement. Hence, we undertook this study to evaluate the role of 25(OH)D status in COVID-19 patients, and the association of vitamin D deficiency with primary outcomes like mortality, length of stay, intubation, and frequency of COVID-19 symptoms in these patients. A retrospective study was conducted between May and November 2020, for 6 months at a tertiary care hospital in Karachi, Pakistan. It is a private hospital and one of the largest referral units for COVID-19 in the city. Vitamin D status was evaluated in 91 patients during their COVID-19 disease course. The 25(OH)D concentrations were ascertained in these patients usually at admission by taking a serum sample volume of 10-12 mL for analysis by an automated kit method utilizing Electrochemiluminescence enzyme immunoassay (cobas e 411, Roche Diagnostics). Serum was collected using standard sampling tubes or tubes containing separating gel for this assay. 25-hydroxyvitamin D is stable for 8 hours at 20-25 C. Samples containing precipitates were centrifuged prior to measurement within 2 hours. Minimum detection limit is 3.0 ng/ml. COVID-19 infection was diagnosed from either nasopharyngeal or oropharyngeal swab using polymerase chain reaction (PCR). The diagnostic kit used the principle of real-time fluorescence (RT-PCR), USA-WA1/2020 stock concentration 2.8E105 TCID50/mL, with a lower detection limit of 0.003 TCID50/mL. Serum 25(OH)D concentrations , 10 ng/mL levels were classified as deficient, 10-30 ng/mL as insufficient, and . 30 ng/mL as sufficient. To assess the role of 25(OH)D status in relation to the disease clinical features, all data were classified into two subgroups based on 25(OH)D that were less than or $ 10 ng/mL. The primary outcomes were mortality, length of hospital stay, intubation, and frequency of COVID-19 symptoms, and secondary outcomes were relationship with comorbidities, pulmonary infiltrates, and in-hospital events (like acute respiratory distress syndrome (ARDS), multiorgan failure [MODS] , thrombotic event, intubation, etc.). Age, gender, body mass index (BMI), and outcome data was determined/extracted from patient review charts in the hospital's electronic medical records. BMI was categorized as below or above 26 kg/m 2 for high-risk population as guided by the World Health Organization. 5 Simple linear regression was performed to determine the outcomes of various effect modifiers on 25(OH)D status, further univariate and multivariate Cox regression was conducted to obtain hazard ratio for significant variables. Kaplan Meier curves were constructed to evaluate the probability distribution of the 25(OH)D deficient group with mechanical ventilation, resolving of pulmonary infiltrates on chest X-ray, and survival during the hospital stay. A log-rank test was applied to determine the survival distributions between groups, and a P value of , 0.05 was considered statistically significant. All analysis was conducted using SPSS version 25.0 (IBM Corp, Armonk, NY) and variables were reported using descriptive statistics. Scatter plots were also generated accordingly for significant associations. Figure 1 ). Overall 25(OH)D mean (SD) concentrations of all patients in this study were 21.4 (10.3) ng/mL with 20% (18/91) had deficient levels, 57% (52/91) had insufficient levels, while 23% (21/91) had sufficient levels. The study population comprised 68.1% males (N 5 62). The mean (SD) age was 52.6 (15.7) years. Of the cases 69.2% were managed in isolation wards and the remaining in intensive care units (ICUs). In addition, 20.9% of patients died during hospital stay as demonstrated in Table 1 . Based on cox univariate analysis, vitamin D deficient patients were more likely to be admitted to the ICU (HR: 3.20; P 5 0.048), invasive ventilation (HR: 2.78; P 5 0.043), persistent pulmonary infiltrates (HR: 7.58; P , 0.001), and death (HR: 2.98; P , 0.001) as shown in Table 2 . On multivariate cox regression, only death (HR: 2.13; P 5 0.046) and persistent pulmonary infiltrates (HR: 6.78; P 5 0.009) remain significant after adjustment of confounding factors. The majority of the population presented with fever 79.12% (N 5 72) and dry cough 75.82% (N 5 69) as shown in Supplemental Figure 1A) . 25(OH)D deficient patients (, 10 ng/mL) had a greater probability of requiring mechanical ventilation than patients with 25(OH)D $ 10 ng/mL. Mechanical ventilation had to be initiated early in the deficient group during the 30-day hospital stay (Chi-square: 4.565, P 5 0.033) ( Figure 1B) . Patients with 25(OH)D levels $ 10 ng/mL also demonstrated higher probability of survival than those with 25(OH)D levels , 10 ng/mL (Chi-square: 6.365, P 5 0.012) ( Figure 1C ). Figure 2 demonstrates the association of 25(OH)D status with age and their correlations with inpatient mortality, ICU stays, and invasive ventilation required because of COVID-19 infection. A scatter plot relating serum 25(OH)D levels with age showed a declining trend. A weakly negative correlation is established, that is, as the age increases, 25(OH)D status may decrease slightly (R 2 5 0.024) as shown in Figure 2A . The number of red dots in Figure 2B represents ICU stay, which is significantly more in patients having 25(OH)D levels , 10 ng/mL. Also, the trend inpatient mortality is observed more for lower levels of 25(OH)D as shown in Figure 2C . While a majority recovered on noninvasive ventilation, a small proportion of patients with deficient 25(OH)D warranted invasive ventilation as shown in Figure 2D . It has been documented that 25(OH)D plays a vital role in the regulation of the renin-angiotensin system. SARS-CoV-2 is known to exploit the ACE-II receptors to facilitate its entry into the host cell. 6 25(OH)D modulates multiple immune mechanisms to contain the virus including dampening of viral entry and replication of SARS-CoV-2, suppressing the hyperinflammatory state by increasing anti-inflammatory cytokine levels. 7, 8 One major limitation of the study is the small sample size since the study was conducted at a single institution. The possibility of collider bias due to convenience sampling cannot be ruled out. Hence, our findings limit generalizability and power. Another major limitation of this study is the additional confounders that may account for the differences in 25(OH)D status and outcomes, which impacts the validity of the findings. For instance, reduced outdoor activities may be impacted due to illness and also cause lower vitamin D status. Similarly, seasonal variation, age, pregnancy, and thyroid function may influence circulating vitamin D levels. Small sample size will further reduce the power to detect a significant difference. Nevertheless, our results suggest that 25(OH)D deficiency might be linked to aggravation of symptoms, invasive interventions, ICU stays, hence reducing mortality. Sufficient vitamin D levels were also associated with survival promotion and quicker recovery. There is a potential for reverse causality to explain these findings, as inflammation may dysregulate vitamin D metabolism because 25(OH)D is a negative acute-phase reactant. 9 Another similar association is that of a prothrombotic state, seen in vitamin D deficiency as well as COVID-19 infection. If 25(OH)D is functional in reducing the severity of COVID-19, it is wise to supplement the treatment regimen with vitamin D to decrease the impact of the pandemic. 10 However, studies have not supported supplementation of vitamin D because of no difference in mortality, need for intubation, and length of hospital stay. 11, 12 Not only COVID-19 positivity is associated with deficient 25(OH) D levels, 13 worse morbidity outcomes in older age group are reportedly more likely to be vitamin D deficient. 14 A study conducted 330 patients found no significant associations of 25(OH)D levels with body mass index (BMI) similar to our findings, but also with duration of stay, oxygen requirements, and death opposing our findings. 15 Another study on 73 patients concluded lower levels of 25(OH)D observed in deceased patients as compared with discharged patients, while lesser involvement of lungs on computed tomography (CT) scan was observed in those with sufficient 25(OH)D levels. 4 Lastly, the study conducted by Szeto et al. 3 found those with 25(OH)D deficiency did not differ from those who had sufficient levels in terms of gender, BMI, or comorbidities, which correlated with our findings. However, clinical outcomes like mortality, intubation, and length of stay were not found associated with opposing our results. 3 vitamin D on the immune system. It is wise on part of the health care providers to adopt a cautious approach when treating COVID-19 patients with depleted 25(OH)D levels till randomized clinical trials provide sufficient evidence supporting the association. Evidence regarding vitamin D and risk of COVID-19 and its severity Effects of vitamin D on macrophages and myeloid-derived suppressor cells (MDSCs) hyperinflammatory response in the lungs of COVID-19 patients Vitamin D status and COVID-19 clinical outcomes in hospitalized patients Possible association of vitamin D status with lung involvement and outcome in patients with COVID-19: a retrospective study Appropriate Body-mass Index for Asian Populations and Its Implications for Policy and Intervention Strategies FIGURE 2. (A) Scatter plots of 25-hydroxyvitamin D levels with respect to age (B) along with hospital stay, (C) clinical outcome, and (D) mode of ventilation A brief review of interplay between vitamin D and angiotensin-converting enzyme 2: implications for a potential treatment for COVID-19 Putative roles of vitamin D in modulating immune response and immunopathology associated with COVID-19 Effects of vitamin D on COVID-19 infection and prognosis: a systematic review Vitamin D: a negative acute phase reactant Does vitamin D deficiency increase the severity of COVID-19 Effect of a single high dose of vitamin D3 on hospital length of stay in patients with moderate to severe COVID-19: a randomized clinical trial The effect of high-dose parenteral vitamin D3 on COVID-19-related inhospital mortality in critical COVID-19 patients during intensive care unit admission: an observational cohort study SARS-CoV-2 positivity rates associated with circulating 25-hydroxyvitamin D levels Missouris CG, 2021. Vitamin D status and outcomes for hospitalised older patients with COVID Patients hospitalized with COVID-19 have low levels of 25-hydroxyvitamin D Hygiene has waived the Open Access fee for this article due to the ongoing COVID-19 pandemic.