key: cord-0944224-lqseoran
authors: Amer, Shaimaa A. A. M.; Fouad, Ahmed Mahmoud; El-Samahy, Mohamed; Hashem, Asmaa A.; saati, Abdullah A.; Sarhan, Anas A.; Anani, Maha
title: Mental Stress, Anxiety and Depressive Symptoms and Interleuken-6 Level among Healthcare Workers during the COVID-19 Pandemic
date: 2021-06-24
journal: J Prim Care Community Health
DOI: 10.1177/21501327211027432
sha: 37fe7f2fcc8ed9fa8fa74682025f8016364e1bf1
doc_id: 944224
cord_uid: lqseoran

OBJECTIVES: This study aimed to evaluate the interleukin-6 (IL-6) levels and its relationship to stress, anxiety, and depressive symptoms among healthcare workers (HCWs) compared to controls during the COVID-19 pandemic. METHODS: A total of 80 HCWs in Suez Canal University Hospital in Ismailia, Egypt, and 80 controls were analyzed during the COVID-19 pandemic. The Depression, Anxiety and Stress Scale (DASS 21) questionnaire was used, and serum IL-6 level was determined in both groups. RESULTS: IL-6 levels were high in 81.2% (65) of HCWs compared to 36% (45) of controls (P < .05). The DASS score was higher in participants with high IL-6 levels (>3 ng/mL) than in those with mild to moderate levels (P < .05). The regression model revealed that the type of work as a healthcare staff, irregular or night shift, and stress were predictors of increased IL-6 levels among the studied sample (P < .05) (odds ratio = 20.30, 2.44, and 2.04, respectively). CONCLUSION: The IL-6 level and DASS score were higher in HCWs compared to those in controls during the COVID-19 pandemic. The type of work as a healthcare staff, stress, and irregular or night shift were predictors of increased IL-6 levels.

Coronavirus disease 2019 (COVID- 19) is an infectious disease caused by enveloped, positive-stranded RNA viruses and was first identified in Wuhan City in December 2019, causing a cluster of pneumonia cases. It subsequently spread throughout China and then universally, becoming a global health emergency. In February 2020, the World Health Organization (WHO) nominated coronavirus disease 2019 as COVID-19. 1 As of April 5, COVID-19 has spread to 198 countries, infecting >130 422 190 individuals and causing 2 842 135 deaths worldwide, and therefore considered a global pandemic. 2 Healthcare workers (HCWs) were subjected to high risks and stressors, both physical and psychological, which have potentially led to posttraumatic stress disorder (PTSD). 3 HCWs were vulnerable, due to the risk of getting infected particularly with inadequate resources. While their fundamental "duty to treat" was antagonistic to their hope to keep their families and loved ones away from further transmission of infection. 4 The prevalence of depression, anxiety, insomnia and distress symptoms was assessed on a hospital-based survey study achieved in Wuhan among frontline HCWs from January 29, 2020, to February 3, 2020. The findings revealed high prevalence of depressive symptoms (50.4%), anxiety symptoms (44.6%), frequent insomnia (34.0%), and overall distress (71.5%) among HCWs. 5 Psychological stresses were associated with the physiological response such as changes in immunological response and inflammation. Anxiety and depression contribute to increased risk for disorders with an inflammatory etiology, and elevated inflammatory activity may be a significant moderator of emotion-disease interactions. 6 The reaction of circulating inflammatory cytokines to stress is associated with depression, previous stress exposure and cancer history. Many previous studies have examined the associations between depression and inflammation. 6, 7 Leukocytes, bone marrow cells and hepatocytes secrete a wide range of inflammatory cytokines. Numerous inflammatory cytokines react to the acute stress challenge, including interleukin IL-6, IL-10, IL-1 beta, and tumor necrosis factor (TNF)-α. 6 IL-6 is produced by nearly all stromal and immune cells, such as B lymphocytes, T lymphocytes, macrophages, dendritic cells, monocytes, mast cells, fibroblasts, and endothelial cells. IL-1-β and TNF-α are the main stimulators of the IL-6 expression. Several other factors can contribute to its secretion such as Toll-like receptors, prostaglandins, adipokines, stress response and other cytokines. 8 IL-6 acts through diverse signal transduction pathways 5 and combines to trans-membrane and a soluble form of its receptor IL-6R. Then this complex binds to gp130 triggering gene expression of the classical pathway. The JAK-STAT, RAS-RAF, and other pathways are activated, promoting cellular proliferation, differentiation, oxidative stress, and immune regulation. 9 O'Donovan et al suggested that clinically anxious individuals have lower morning cortisol and elevated IL-6 levels compared with non-anxious individuals, highlighting a potential pathway by which anxiety may increase risk of inflammatory diseases, and found a relationship between negative emotions and biological responses. 10 An essential constituent of public health measures for addressing the COVID-19 epidemic is protecting HCWs. Distinctive interventions to support the mental well-being in HCWs exposed to COVID-19 need to be immediately implemented with frontline HCWs demanding specific consideration.

This study aimed to assess IL-6 levels among HCWs during the COVID-19 pandemic in comparison to controls, measure stress, anxiety and depression and its ranks, and determine factors that predict IL-6 levels among HCWs and controls.

Eighty HCWs, includes 62 nurses and 18 laboratory and radiology technicians in Suez Canal University Hospital; Ismailia, Egypt, were included in a comparative cross -sectional study, from March 2020 to August 2020 during the COVID-19 pandemic.

Sixteen (20%) participants worked in the laboratory and blood bank; 30 (37%) in internal medicine, surgery and pediatrics departments, and 34 (42.5%) in the intensive care unit (ICU) and emergency department. Another 80 controls of staff relatives (not HCWs) were included in the study. All participants in both groups were asked to fulfill a questionnaire, and serum IL-6 level was assessed.

The questionnaire included sociodemographic data (age, sex, marital status, residence and educational level), job data (job, place of work, work duration in hours, work days per week), and characteristic of night shift if present (periodicity, number per month and duration). Depression, Anxiety and Stress Scale (DASS 21) Arabic version questionnaire was used, 11 which is a quantitative measure of distress along 3 axes of depression, anxiety and stress that can be a useful measure of disturbance, but it is not a categorical measure of clinical diagnosis, although it is clinically helpful to have tags to state the grade of severity relative to the population. The following cutoff scores have been developed to determine mild/moderate/severe/extremely severe scores for DASS 21, regarding depression score(normal, 0-4; mild, 5-6; moderate, 7-10; severe, 11-13; extremely severe, +14), anxiety score (normal, 0-3; mild, 4-5; moderate, 6-7; severe, 8-9; extremely severe, +10), and stress score (normal, 0-7; mild, 8-9; moderate, 10-12; severe, 13-16; extremely severe, +17).

Serum samples for IL-6 was drawn into EDTA tubes, spun immediately at 3000 g at 4°C for 20 minutes, and then frozen at −70°C for further analysis. Then, IL-6 levels were measured in batched samples with the enzyme-linked immunosorbent assay (ELISA) utilizing monoclonal antibodies to IL-6. With a high-sensitivity Human IL-6 ELISA kit (Chongqing Biospes Co., Ltd, China), the IL-6 ELISA was accomplished according to the manufacturer's instructions. All samples from all participants were assayed within the same assay plate. The standard curve was generated as per experiment. High and low concentration cytokine quality controls that included IL-6 were run on each plate. Statistics: All analyses were conducted using the SPSS for Windows statistical package, version 22.0. The distribution of variables was compared with the normal distribution by the Kolmogorov-Smirnov goodness-of-fit test. The differences between groups in nonparametric quantitative data were assessed using the Mann-Whitney U-test. Backward stepwise multiple linear regression analysis was conducted for factors affecting IL-6 level. The significance level was considered at <0.05. Table 1 shows the Sociodemographic charachteristics, work shift, IL-6 level and mental symptoms among HCWs and controls (n = 160): 80 HCWs and 80 controls, results reported that 22.5% (18) of HCWs, and 30% (24) of controls were smokers. Moreover, 55% (44) of HCWs have both night and day shifts, while 45% (36) have night shift only, while 93.8% of controls worked at day time and nearly 6% had both night Table 2 shows the Sociodemographic characteristics, work shift, IL-6 level and mental symptoms between participants with low (0.3 ng/mL to moderate (0.3-3 ng/mL) IL-6 levels (n = 59) and those with high levels (n = 101) (>3 ng/mL). The results showed no statistically significant difference in sex, residence, marital status and smoking between groups (P > .05). The results presented that 83.3% (60) and 16.7% (12) of HCWs and controls respectively reported normal to moderate IL-6 levels, while 77.3% (68) and 22.7% (20) , respectively had high levels (P < .05). Approximately 79% (57) of participants with low/moderate IL-6 levels had normal stress, and 1.4% (1) reported severe to extremely severe stress compared to 28.4% (25) and 20.5% (18) of participants with high IL-6 levels respectively (P < .05). Regarding symptoms of anxiety; 63.9% (46) and 17% (15) of the low/moderate IL-6 level and high IL-6 level groups, had normal anxiety level respectively, while 37.5% (33) and 4.2% (3), respectively, reported severe to extremely severe symptoms (P < .05). Approximately 59.7% (43) of participants with low to moderate IL-6 levels and 25% (22) of participants with high IL-6 levels showed normal depressive symptoms, while 4.2% (3) and 28.4% (25) respectively reported severe to extremely severe depressive symptoms (P < .05). Table 3 model-A shows the logistic regression analysis among all studied participants where work type (HCWs, controls), anxiety, depression, stress (normal, mild/moderate, severe/extremely sever), shift type (day shift vs (night and day or night only)), sex, age, and smoking were independent variables (predictors) and IL-6 level(low/moderate and high) was dependent variable. The model revealed that HCWs as a type of work, night or day and night shift, and stress were predictors of high IL-6 levels among the studied sample (P < .05) (Odds ratio [OR] = 20.30, 2.44, and 2.04 respectively). Model-B summarizes the logistic regression analysis among HCWs where anxiety, depression, stress (normal, mild/moderate, severe/extremely severe), shift type (night shift vs irregular shift (night and day)), sex, age and smoking were independent variables (predictors) and IL-6 level(low/moderate and high) was a dependent, the model revealed that night shift and stress were predictors of high IL-6 level (P < .05) (OR = 4.49, 10.98).

Since the WHO has declared COVID-19 as a pandemic, HCWs were on the battle zone, dealing directly with COVID-19 patients, involved in examination, the diagnosis, and caring of COVID-19 these patients and being at a higher risk for COVID-19 infection, HCWs are at higher risk for developing psychological distress and mental health problems. [12] [13] [14] In our study, about two-thirds of HCWs reported variable levels of anxiety, depression, and stress symptoms (70%, 67.5%, and 60%, respectively) compared to control group.

A survey conducted in Saudi Arabia by Temsah et al 15 included 44.8% responses from critical care departments (ICU and emergency) HCWs were susceptible to various health consequences due to the COVID-19 pandemic. Several risk factors were identified; long duty hours, and working in the high-risk department were well-identified risk factors which were in agreement with our study results.

Our study findings were consistent with the results of numerous studies that were performed during the COVID-19 pandemic and indicated a global rise in the prevalence of psychological outcomes among HCWs. In a Chinese study on 493 physicians and 764 nurses, 50.4% had depressive symptoms, 44.6% had anxiety symptoms, and 71.5% reported overall distress. With further analyses, Lai's study showed that nurses had more severe levels of psychological distress symptoms compared to other HCWs 5. In another multicenter Chinese study on 1563 medical staff, the prevalence of depression was 50.7%, that of anxiety was 44.7%, and that of stress-related symptoms was 73.4%. 16 Conversely, during the earlier severe acute respiratory syndrome outbreak (2002) (2003) (2004) , 89% of HCWs reported psychological distress symptoms. 17 However, the prevalence of anxiety, depression, and stress symptoms among HCWs in our study was substantially higher than those of other studies during the COVID-19 pandemic. For example, a study including 680 medical doctors and 247 nurses reported a prevalence of 13% and 12.2% for anxiety and depression, respectively. 14 Another Chinese study including 1173 frontline HCWs reported that 15.7% had anxiety symptoms and 14.3% had depressed mood while 52.6% had mental health problems. 18 The high prevalence of psychological problems among HCWs, particularly during public health emergencies such as the COVID-19 pandemic, could be explained by their safety concerns while working, long working hours, irregular shift work, highly demanding work, poor psychosocial work environment, and frequent exposure to serious life circumstances. 5, 14 Safety concerns among HCWs arise from the insufficient understanding of the virus, lack of effective preventive and control measures, increased risk of infection due to exposure to high viral load while dealing with patients with COVID-19, and the shortage in the medical protective equipment. 14, 19, 20 On the contrary, the high prevalence of stress and anxiety symptoms among the control group in our study may be contributed to the eminence of dread that is present globally during the COVID-19 pandemic.

Elevated levels of pro-inflammatory cytokines, such as IL-6, have been noted in the development of common mental health problems. 21 Therefore, we have examined the association between IL-6 and psychological distress symptoms (ie, depression, anxiety, and stress) among the studied sample of nurses. The majority of HCWs (81.2%) in our sample had a higher IL-6 level (>3.0 ng/mL) with a mean (±SD) of 31 (±25) ng/mL compared to the control group (25%). Besides, although female nurses constituted only 30% HCWs, they had significantly higher IL-6 level than male nurses. Moreover, nurses engaged in continuous night shifts had significantly higher IL-6 levels than nurses on alternating work shifts and both higher than controls who worked at daytime only.

Then, the high IL-6 levels in our sample could be explained partially by night shift work, and the sex-difference in IL-6 level was related to stress response. Earlier studies involving IL-6 level measurement support this observation. In a Japanese study on 5259 workers, the association between work schedule and IL-6 was examined. The findings reported that the night workers had significantly higher levels of logtransformed IL-6 compared to those with regular work schedules, even after adjusting for sociodemographic and work-related factors, including job stress. 22 Circadian rhythm disruption and sleep deprivation were among the most common explanatory factors of increased IL-6 level among night workers. 23, 24 Conversely, further studies demonstrated greater IL-6 stress responses in women. 25, 26 Furthermore, our study denoted that high IL-6 levels was significantly associated with increased depression, anxiety, and stress scores, with stress being the most common predictor of IL-6 levels among HCWs and among all participants including controls. Our results are consistent with those of former studies that investigated the association between IL-6 and mental health problems, particularly among HCWs. A Japanese study on133 female HCWs, the reported that elevated serum IL-6 levels was directly correlated with depressive symptoms. 27 Likewise, Bob et al 28 demonstrated a significant correlation between IL-6 and both depression and PTSD. A study by Virtanen et al 29 had further investigated the association between IL-6 level and the recovery from psychological distress symptoms in a non-clinical sample; low IL-6 at baseline was associated with substantial symptom resolution at follow-up.

Furthermore, Falco's study had investigated the association between serum IL-6 level and both job demands (JD) and job resources (JR) in 119 employees at an Italian healthcare organization. They concluded that exposure to stressful work situations (ie, high JD and low JR) is associated with higher IL-6 levels among HCWs, 30 which was consistent with current study results where being a healthcare staff was a predictor of increased serum IL-6 levels.

Some limitations should considered while interpreting our study findings. First, our study had a cross-sectional design in which causal inferences cannot be settled due to the lack of temporal relationship. A longitudinal study design should be considered in further research to further address the question of causal direction. Second, we used IL-6 level as a sole biomarker of inflammatory cytokines. Future studies should consider other inflammatory cytokines such as C-reactive protein and TNF-α. Finally, our conclusion was based on a single IL-6 measurement; however, serial measurements of IL-6 would further explain the relationship under study. Finally, the direct causal relationship between work-related factors, particularly details of night shift work, and IL-6 level was not well-characterized and warranted further investigation.

The IL-6 levels among studied HCWs (81.2%) were higher compared to controls. They reported increased stress, anxiety and depressive symptoms which correlated with IL-6 levels during the COVID-19 pandemic. The type of work as a HCW, stress and night shift were predictors of increased IL-6 levels.

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Shaimaa A. A. M. Amer 1 : idea of research, protocol writing, biostatistics, revision. Maha Anani 6 : IL-6 measurements, questionnaire collection. Ahmed Mahmoud Fouad, Mohamed El-Samahy: questionnaire collection, discussion. Asmaa A. Hashem, Abdullah A. saati, Anas A. Sarhan: writing introduction and methodology, revision. All authors reviewed, commented and approved the manuscript.

The author(s) declared no potential conflicts of interest with respect to the research, authorship, and/or publication of this article.

The author(s) disclosed receipt of the following financial support for the research, authorship, and/or publication of this article: Selffunded by authors.

Approval from medical research committee of Faculty of Medicine, Suez Canal University was obtained (No. 4426, 22\7\2020) and complied with local legislation and the Declaration of Helsinki, and informed consent was obtained from each participant in the study.

Shaimaa A. A. M. Amer https://orcid.org/0000-0001-5089-9702