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Article

Anger and Aggression in Relation to Psychological Resilience and Alcohol Abuse among Health Professionals during the First Pandemic Wave

by
Argyro Pachi
1,
Evgenia Kavourgia
1,
Dionisios Bratis
1,
Konstantinos Fytsilis
1,
Styliani Maria Papageorgiou
1,
Dimitra Lekka
1,
Christos Sikaras
2 and
Athanasios Tselebis
1,*
1
Psychiatric Department, Sotiria Thoracic Diseases Hospital of Athens, 11527 Athens, Greece
2
Nursing Department, Sotiria Thoracic Diseases Hospital of Athens, 11527 Athens, Greece
*
Author to whom correspondence should be addressed.
Healthcare 2023, 11(14), 2031; https://doi.org/10.3390/healthcare11142031
Submission received: 6 June 2023 / Revised: 27 June 2023 / Accepted: 12 July 2023 / Published: 15 July 2023
(This article belongs to the Special Issue Primary Mental Health Care in a New Era: Second Edition)
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Abstract

:
Mental health problems, behavior changes, and addictive issues have been consistently documented among healthcare workers during the pandemic. The objective of this study was to investigate the levels of anger and aggression in relation to psychological resilience and alcohol abuse among healthcare workers during the first wave of the COVID-19 pandemic. A total of 120 physicians and 123 nurses completed an online survey of the Dimensions of Anger Reactions-5 (DAR-5), the Brief Aggression Questionnaire (BAQ), the Brief Resilience Scale (BRS), and the Alcohol Screening questionnaire CAGE which is an acronym for the focus of the questions (Cutting down, Annoyance by criticism, Guilty feeling, and Eye-openers). Demographic and professional data were also recorded. A total of 53 men and 190 women participated in the study. Almost one-third of the participants had a positive score on the DAR-5 scale and one out of ten respondents presented with current problematic alcohol use. Male participants demonstrated lower scores on the DAR-5 scale compared to females. Individuals with current problematic alcohol use displayed higher scores on the BAQ compared to those without alcohol use disorders. Regression analysis revealed that 16.4% of the variance in the BAQ scores can be attributed to scores on the DAR-5, 5.9% to the BRS scores, 2.1% to the CAGE scores, 1.7% to gender, and 1.2% to years of work experience. Mediation analysis highlighted the role of psychological resilience as a negative mediator in the DAR-5 and BAQ relationship. Professional experience and alcohol abuse emerged as positive and negative risk factors contributing to aggression and psychological resilience. The findings hold practical implications for implementing interventions to strengthen resilience in order to compensate for aggressive tendencies and discourage addictive issues.

1. Introduction

The COVID-19 pandemic and other previous epidemics have primarily and disproportionately exerted their deleterious effects upon healthcare professionals, who are the first line of defense committed to handling the health emergency situation [1]. Meanwhile, recently available studies identified a high prevalence of insomnia, stress, anxiety, depression, and trauma, along with other related psychological health problems, health behavior changes, and addictive issues among healthcare workers [2,3,4,5]. During the pandemic research evidenced that anxiety and depression contributed to increased alcohol consumption and heavy alcohol use exacerbated depression, anxiety, and insomnia, constituting a bidirectional association [6,7,8,9].
Literature suggests that exposure to stress, especially from fatal, catastrophic events, elevates the risk of subsequent alcohol consumption and alcohol use disorders [10,11,12]. During the pandemic, health professionals experienced an immense amount of stress either directly related to the nature of their work or applicable to every human being in the general population [13,14,15,16]. Under conditions of increased job strains, when employees are confronted with complicated, controversial, and equivocal situations, they may experience work stress [17]. Sources of occupational stress in healthcare personnel during the pandemic, especially in the first wave, include fear of infection and its transmission, lack of protective equipment and its use during working hours, frequent changes in health protocols, inability to provide the standard level of care due to limited material and human resources availability, visiting hours for the critically ill patients, increased workload, moral injury, social exclusion, and social isolation measures [18].
In the meantime, symptoms of anger and confrontation have been reported in more than half of participants in a national cross-sectional survey in the United Kingdom during the first pandemic wave [19]. Anger, either state or trait, is regarded as a social emotion, predisposing to aggressive behavior. It may occur as a result of being subjected to a real or perceived threat, but it may also be a sign of a mental health disorder such as anxiety or depression. Earlier research findings supported the idea that anger, cynicism, and emotional exhaustion among hospital staff predicted distress levels resulting from increased workload and these negative distress reactions contributed substantially to increased levels of depression [20]. Anger as a consequence of perceived health threat has been documented, especially among nurses who were quarantined, in previous outbreaks of Severe Acute Respiratory Syndrome [21,22]. Recent research, during the COVID-19 pandemic, investigated the impact of psychological fatigue on the association between work stress, anger, and voluntary job attrition among nursing staff [23]. Factors like occupational stress and anger contribute to emotional exhaustion and moreover, anger may evoke adverse interactions among employees, motivating staff to exhibit aggressive behaviors [24,25,26]. Since ethical concerns are raised when healthcare personnel express anger, the relevant scientific literature is limited [27]. Yet, there is evidence that healthcare workers can experience angry emotions because of the stressful working conditions and during the pandemic such uncomfortable emotional experiences appear to arise [28,29,30]. In a recent study from the early phase of the pandemic, 15% among 14,600 healthcare workers admitted experiencing anger the day before completing the survey [31].
Hopefully, feelings of anger do not necessarily result in aggressive behavior. Aggression as a concept refers to a pattern of hostile, harmful, or destructive behaviors, usually meant to inflict deleterious repercussions. Recent aggression models, such as the General Aggression Model, argue that aggression is derived from combined biological, situational, and individual factors, in particular personal traits, prior life experiences and environmental inputs [32]. Workplace aggression against healthcare professionals is a well-known and ever-present problem, on the rise during the pandemic, threatening wellbeing and the right to work in a safe environment [33,34,35,36]. Plenty of research data refer to type II aggression, from patients or relatives against health staff [37]. Yet, information on aggression from healthcare professionals directed towards others and evidence based on type III aggression, particularly with reference to the COVID-19 pandemic, is limited [38,39,40,41,42,43,44,45].
Studies conducted among healthcare workers, after the onset of the COVID-19 pandemic, evidenced an escalation in alcohol consumption, presumably as a result of maladaptive attempts to relieve stress and overcome the increased psychological difficulties resulting from the pandemic [46,47,48]. Previous research advanced the role of anxiety symptoms, in contributing to problem drinking and alcohol-related aggression [49]. Alcohol use is more strongly linked to aggressive behavior than any other psychoactive agent, although the manifestation of aggression depends on individuals and circumstances [50,51,52]. Studies support that alcohol consumption elevates the risk for aggressive behavior, especially in men with increased dispositional anger, poor anger control, low consideration for future consequences, low psychological flexibility, and impaired executive functioning resulting in disinhibition and impulsivity [53,54,55,56,57]. Furthermore, it has been suggested that individuals with a genetic vulnerability to stressful situations due to their hypofunctional serotonergic neurotransmission linked with decreased alcohol-induced sedation, when facing negative life events have the propensity to consume excessive amounts of alcohol and exhibit aggressive behavior at the same time [58].
Psychological resilience is expected to provide protection in traumatic and distressing situations and earlier research supported that resilience has been proven to effectively protect healthcare staff from psychological distress, anxiety, depression, and burnout [59,60]. During the pandemic, research studies argue that healthcare workers with high levels of resilience have an advantage over their low-resilient counterparts to successfully rebound and withstand the pandemic psychological strain, but since psychological resilience is a dynamic construct, the reverse paradigm also applies, meaning that certain factors may weaken resilience and influence coping strategies [61,62,63].
The effect of resilience in the relation between occupational stress and anger in first responder populations in emergency situations has already been studied and as suggested in previous research resilience to challenging workplace situations is negatively related with state and trait anger [64,65]. Also, during the pandemic, studies support that psychological resilience has the ability to attenuate feelings of anger and counteract emotions of fear and worry caused by the pandemic preventing the emergence of stress, anxiety, and depression [66,67,68,69]. Likewise, psychoeducational interventions such as anger control training programs reduced the amount of anger and increased the level of resilience [70].
Studies confirm significant negative associations between aggression and psychological resilience and argue that spirituality and self-control may have a positive impact on reducing aggression [71,72,73]. From a different perspective, another way of reducing aggression in healthcare professionals, working during the COVID-19 pandemic, is the enhancement of their level of resilience to counteract aggression [74,75]. In order to reinforce psychological resilience improving sleep quality and following the directives of positive psychology are a few among other health promotion interventions [76,77,78]. Furthermore, previous and recent studies during the pandemic evidence that higher levels of psychological resilience buffer against stress and negative emotions and have been associated with lower alcohol consumption and lower hazardous drinking patterns [79,80,81,82,83,84,85].
The conceptual framework for our study was that enhanced psychological resilience may effectively mitigate anger and counteract aggression, even in adverse circumstances, but the question is if its protective role is compromised by certain risk factors such as alcohol abuse. The above hypothetical question underlies the main purpose of the study which is to have the opportunity to concurrently investigate the protective role of psychological resilience and the impact of alcohol abuse on aggression and their possible emerging interactions. Secondary objectives of the present study are to:
1. Evaluate the levels of anger, aggression, psychological resilience, and alcohol abuse among healthcare professionals during the first wave of the COVID-19 pandemic.
2. Explore for other demographic and work-related factors potentially contributing to aggression and psychological resilience.
The scientific significance of the study becomes apparent considering the limited research on healthcare workers’ aggression towards others in conjunction with the investigation of potentially modifiable risk and protective factors such as alcohol abuse and psychological resilience.

2. Subjects and Methods

2.1. Research Design

This was a cross-sectional correlational design study, conducted from 15 June to 30 June 2020, through web-based self-report surveys administered via email. The authors designed the survey draft, and its final version was approved by consensus. The email addresses of the participants were retrieved through links to the websites of Greek healthcare workers from their scientific and professional associations. The first page of the electronic survey provided information about its scientific purpose and its voluntary nature. Also, the first page of the electronic questionnaire included a consent form to participate where we ensured that participants gave online informed consent by responding to the question: “Do you agree to participate in this study?” which was the first question in the online questionnaire. Participants with positive responses could then participate in our study. The study sample consisted of medical and nursing staff who agreed to respond to the email as a convenience sample and no measures were taken to increase the response rate, apart from the reassurance of data privacy. Τhe invitation was sent as an electronic message also contained an anonymous link allowing access to the online survey platform.
The study protocol has been approved by the Clinical Research Ethics Committee of the “Sotiria” General Hospital (Number 12253/7-5-20). This study was conducted in accordance with the ethical principles as defined by the Declaration of Helsinki, the International Committee of Medical Journal Editors, and the General Data Protection Regulation (GDPR-2016/679) of the European Union.
The study was conducted during the gradual de-escalation of the restrictive measures implemented by the Greek authorities. The lockdown in Greece was imposed from 23 March until 4 May 2020 and was characterized as one of the most restrictive in Europe, attempting to control the infection and the mortality rate. In a pilot study of ours [86], during the lockdown in April 2020, we investigated the relationship between anger, aggression, resilience, and family support in a general and healthcare population sample and the results reported higher anger scores among healthcare workers compared to the general population, which motivated us to study these and other related variables exclusively among healthcare workers.

2.2. Study Participants

A total of 150 doctors and 250 nurses were invited to participate in the study, 243 of whom (120 doctors and 123 nurses) responded to the invitation. Sample adequacy was calculated using the G-Power Version 3.1 software [87]. With a sample of 243 subjects, seven factors, and an alpha of 0.05, and the calculated power was 1.00. A Monte Carlo power analysis was performed for a single-mediated model [88]. For a sample of 243 subjects, 5000 of replications and a 95% confidence level the calculated power was 0.93.

2.3. Measurement Tools

Participants were invited, before completing the questionnaires, to state their demographic and professional data including age, gender, professional status and working experience in years.

2.3.1. Dimensions of Anger Reactions-5 (DAR-5)

The Dimensions of Anger Reactions-5 (DAR-5) is a 5-item self-administered scale designed to measure the experience of anger over the past four weeks, by answering on a 5-point Likert scale grading from 1 (None or almost none of the time) to 5 (All or almost all of the time). Total scores vary from 5 to 25, with higher scores reflecting more anger experiences. A cut-off value of 12 classifies respondents as high or low scorers [89]. The DAR-5 has demonstrated sound psychometric properties and has also been evaluated across community samples and trauma-exposed populations [90,91]. Cronbach’s alpha in this study was 0.762.

2.3.2. Brief Aggression Questionnaire

The Brief Aggression Questionnaire (BAQ) is a 12 item self-report measure of trait aggression. Participants are prompt to rate on a scale from 1 (strongly agree) to 5 (strongly disagree), the extent to which statements describing behaviors and emotions, are characteristic of themselves. The BAQ measures aggression on the dimensions of physical aggression, verbal aggression, anger, and hostility. The BAQ has been postulated as a valid and reliable tool, with good test–retest reliability and convergent validity with other behavioral measures of aggression [92,93,94]. Cronbach’s alpha in this study was 0.761.

2.3.3. Brief Resilience Scale (BRS)

The Brief Resilience Scale (BRS) is a 6-item self-report measure of resilience, reflecting the competence to overcome stress and adversity. Responses are rated on a 5-point Likert scale from 1 (Strongly Disagree) to 5 (Strongly Agree), but half of the items are reversed scored. Scores range from 6–30, with higher scores suggesting a higher level of resilience. The total score needs to be divided by the total number of questions answered and scores between 1.00 and 2.99 represent low resilience, between 3.00 and 4.30 normal resilience and between 4.31 and 5.00 high resilience. The original BRS demonstrated good levels of internal consistency and test–retest reliability, and adequate factorial, convergent and discriminant validity [95]. BRS was translated into Greek by Stalikas and Kyriazos [96]. Cronbach’s alpha in this study was 0.856.

2.3.4. CAGE Questionnaire

The CAGE questionnaire is a brief and popular screening instrument for detecting alcohol abuse and dependence that is easily applied in clinical practice [97]. It consists of four dichotomous questions that can be answered with yes/no. Scores range from 0 to 4 with higher scores indicating more pronounced alcohol use disorders. A cutoff ≥ 2 is considered clinically significant and is recommended to detect alcohol abuse or dependence in order to provide the best combination of sensitivity, specificity, and positive predictive value [98,99]. The Kuder–Richarson coefficient of reliability (KR-20) in this study was 0.63.

2.4. Statistical Analysis

All variables in the analysis were computed with descriptive statistics. To enable statistical analysis of the data and to make comparisons easier, some independent variables were grouped. The variable alcohol abuse/dependence was recoded as two categories for the associations: low-risk alcohol abuse when scores were below two on the CAGE questionnaire and risky alcohol abuse when scores were above or equal to two. Likewise, the resilience variable was also recoded into three categories, for the same purpose: low, moderate, and high levels of resilience. The Fisher’s exact test was utilized to establish the differences between qualitative data. In order to assess differences between variables, Student’s t-test and analysis of variance (ANOVA) were employed. The assumption testing for equality of error variances using Levene’s Test was performed before the analyses. Independent sample t-tests assessed for differences in gender and differences between healthcare workers as to their profession and alcohol use. The effect size was calculated with Hedges’ g-value from the results of the independent samples t-test, considering that values less than 0.2 suggest a small effect size, less than 0.5 a medium effect size, and less than 0.8 a large effect size. The results of the ANOVA test were estimated with the eta squared value (ηp2), counting ηp2 = 0.01 as a small effect size, ηp2 = 0.06 as a medium effect size, and ηp2 ≥ 0.14 as a large effect size. To investigate if there is an interaction effect between the two independent variables (levels of psychological resilience and alcohol abuse) in terms of a continuous dependent variable (aggression), whilst adjusting for continuous covariates that are thought to influence this interaction effect, a two-way analysis of covariance (ANCOVA) was employed. The assumption testing for a two-way ANCOVA (linearity, homogeneity of regression slopes, homogeneity of variances using Levene’s test of equality of variances, homoscedasticity, absence of significant outliers, and normal distribution of residuals) was carried out before the analysis. Pearson correlation was conducted to assess the direction and strength of the relationship between variables and the values of the correlation coefficients were interpreted as weak from ±0.10 to ±0.29, moderate from ±0.30 to ±0.49, and strong from ±0.50 to ±1.00. Linear regression models were built to explore if the related variables were significant predictors of the dependent variable, aggression. The assumption testing for regression analysis (linear relationship, independence, homoscedasticity, and normality) was carried out performing a graphical review of the variables, residuals and collinearity statistics, probability–probability (PP) plots, and scatterplots. A simple mediation analysis using the Hayes SPSS Process Macro was performed to investigate the role of resilience in the relationship between anger and aggression, setting anger as the predictor variable, aggression as the outcome variable and resilience as the mediator variable for the analysis. Statistical significance level was set at p < 0.05 and p values were two-tailed. Analyses were performed using IBM SPSS Statistics 23 (IBM SPSS Statistics for Windows, Version 23.0). Mediation analysis was conducted using the Hayes SPSS Process Macro [100]. IBM SPSS AMOS 23 Graphics enabled the graphical representation of the mediation analysis.

3. Results

3.1. General Characteristics of Participants and Scores on Outcome Variables as to Gender and Alcohol Abuse

The study included a total of 243 participants (53 men and 190 women). As to the profession, 120 of them belonged to the medical and 123 to the nursing staff. Means and standard deviations for general characteristics of participants and all outcome variables as to gender are presented in Table 1. A positive score value on the DAR-5 scale was reported by 32.5% of participants. A total of 9.9% of responders scored above cut-off on the CAGE questionnaire. A total of 15.4% of current alcohol users felt the need to cut down. 9.7% of them have been annoyed by people criticizing their drinking, 12.6% have felt bad or guilty about their drinking, and a few of them (1.6%) had the need for alcohol in the morning as an eye opener. Means and standard deviations for general characteristics of participants and all outcome variables as to alcohol abuse are presented in Table 2. A total of 18.1% of respondents were classified as low resilient individuals (11.32% of male participants versus 20% of females, p = 0.164), 58.4% as normal (56.6% of males as to 59% of females, p = 0.756), and 23.5% as high resilient (32.07% of males compared to 21% of females, p = 0.102), concluding that gender differences in levels of resilience did not reach statistical significance.
Female participants evidenced higher scores on the DAR-5 scale compared with their male counterparts (10.37 ± 3.50 versus 9.38 ± 2.52, t-test p < 0.05, Hedges’ g: 0.30), (Table 1). Also, female healthcare workers displayed higher scores on the hostility subscale of the BAQ scale compared with males (6.72 ± 2.6 versus 5.72 ± 2.14, p < 0.01, Hedges’ g: 0.43), (Table 1), whereas males scored higher on the physical aggression subscale of the BAQ scale compared with females (5.45 ± 2.47 versus 4.11 ± 1.87, p < 0.01, Hedges’ g: 0.66), (Table 1). Levene’s test showed that the variances were equal (p > 0.05).
Healthcare workers with alcohol use disorders scored higher on the BAQ scale and its physical aggression subscale compared to participants without alcohol abuse (27.5 ± 7.95 versus 23.11 ± 6.69, p < 0.05, Hedges’ g: 0.66 and 5.83 ± 2.74 versus 4.24 ± 1.95, p < 0.01, Hedges’ g: 0.78), (Table 2). As to participants’ professions, no differences were observed in key outcome variables, except for the fact that nursing staff participants were older and had more years of professional experience compared to physicians (t-test p < 0.01). Levene’s test showed that the variances were equal (p > 0.05).

3.2. Differences on Outcome Variables as to the Level of Resilience

Meanwhile, participants’ level of resilience revealed significant differences, as determined by one-way ANOVA, the DAR-5 scores (F(2, 240) = 5.296, p < 0.01, ηp2= 0.042), the BAQ scores (F(2, 240) = 4.892, p < 0.001, ηp2 = 0.068), and on working experience (F(2, 238) = 5.296, p = 0.012, ηp2 = 0.036). A Tukey post hoc test identified statistically significant differences among normal (9.92 ± 3.332, p < 0.01) and high resilient groups (9.65 ± 2.9, p = 0.01), compared to the low resilience group (11.59 ± 3.526) as to the DAR-5 scores, among normal (22.85 ± 6.527, p < 0.001) and high resilience groups (22.33 ± 6.61, p = 0.001), compared to the low resilience group (27.39 ± 7.434) as to the BAQ scores and among normal (14.48 ± 10.841, p = 0.035) and high resilience groups (17.09 ± 11.11, p = 0.011), compared to the low resilience group (10.93 ± 8.689) as to working experience. There were no statistically significant differences among the normal and high resilience groups (p = 0.862) as for the DAR-5 scores, the BAQ scores (p = 0.878), and working experience (p = 0.596). Levene’s test showed that the variances were equal (p > 0.05).

3.3. Two-Way Interaction between Psychological Resilience—Alcohol Abuse and Psychological Resilience—Gender in Terms of Aggression

Since we are primarily interested in knowing if and how psychological resilience and alcohol abuse influence aggression, we employed a two-way ANCOVA to determine whether there is an interaction between psychological resilience and alcohol abuse in terms of aggression, after adjusting/controlling for age, working experience, and DAR-5 scores as covariates. Results reveal no statistically significant interaction between psychological resilience and alcohol abuse, whilst controlling for the above covariates, F(2, 232) = 0.015, p = 0.985, partial η2 = 0.010, (Figure 1). Similarly, we investigated if gender interacts with psychological resilience in terms of aggression following the same procedure and results evidenced no statistically significant interaction between psychological resilience and gender, whilst controlling for age, working experience, DAR-5, and CAGE scores as covariates (F(2, 231) = 0.891, p = 0.412, partial η2 =0.008), (Figure 2).

3.4. Correlations among Continuous Variables

Significant positive correlations were identified between DAR-5 and BAQ scores (p < 0.001) and negative between BRS scores with both DAR-5 and BAQ scores (p < 0.001). Age and work experience correlated positively with BRS scores (p < 0.001) and negatively with BAQ scores (p < 0.05). Scores on the CAGE questionnaire correlated positively with the BAQ scores (p < 0.05), (Table 3) and three out of the four BAQ subscales; physical aggression, verbal aggression, and anger (r = 0.187 **, p < 0.01; r = 0.142 *, p < 0.05; r = 0.139 *, p < 0.05, correspondingly). Scores on the hostility subscale of the BAQ were not related to CAGE scores (p > 0.05). Also, significant negative correlations were revealed among BRS and three out of the four BAQ subscales; hostility, verbal aggression, and anger (r = −0.435 **, p < 0.001; r= −0.170 **, p < 0.01; r= −0.292 **, p < 0.001, correspondingly). Scores on the physical aggression subscale of the BAQ were not related to BRS scores (p > 0.05).

3.5. Multiple Regression Analysis

Stepwise multiple regression analysis was performed to evaluate the prediction of the BAQ scores (dependent variable) from the general characteristics of participants (age, gender, working experience, and profession), CAGE, DAR-5, and the BRS scores (independent variables). The assumptions of multiple regression analysis were satisfied. The independence of the residuals was checked with the Durbin–Watson test value being 2.291 (Table 4). The absence of multicollinearity in the data was checked with the Variance Inflation Factor (VIF), with values ranging from 1.013 to 1.150 (Table 4). Normality was checked by visual inspection of the predicted probability (P-P) plots to determine if the residuals of the regression (the errors between observed and predicted values) are normally distributed (depicted in Figure A1 which is included in Appendix A) and the scatterplots of residuals versus predicted values (plots of the standardized residuals by the regression standardized predicted value) to check for homoscedasticity (illustrated in Figure A2 which is also included in Appendix A, Breusch-Pagan test, p = 0.235). The regression analysis revealed that ‘scores on DAR-5′, ‘scores on BRS’, and ‘scores on CAGE’, gender and working experience were all significant predictors of ‘scores on the BAQ’, each explaining 16.4%, 5.9%, 2.1%, 1.7%, and 1.2% of the variance (Table 4). Participants’ predicted aggression was equal to 27.238 + 0.743 (DAR-5) − 1.939 (BRS) + 1.339 (CAGE) − 2.0003 (gender) − 0.074 (working experience).

3.6. Simple Mediation Analysis

In order to specify the nature of the relationship among significant variables identified from the regression analysis, we investigated the underlying mechanism by which anger influences aggression through psychological resilience in relation to alcohol abuse. A simple mediation analysis, using the bootstrap method, was conducted to test the hypothesis, setting BAQ as the dependent variable, DAR-5 as the predictor, and BRS as the mediator variable. Thus, the study assessed the mediating role of psychological resilience in the relationship between anger and aggression. Including covariates in the analysis is because we wanted to explain part of the variability in the outcome variable. The results revealed a significant indirect impact of anger on aggression through psychological resilience (b = 0.1130, t = 2.4145). Furthermore, the direct effect of anger on aggression in the presence of the mediator resilience was also found significant (b = 0.7211, p < 0.001). Hence, resilience partially mediated the relationship between anger and aggression and the model explains 13.55% of the variance in the outcome variable aggression (Table 5). Additionally, alcohol abuse proved to be a significant covariate affecting aggression but had an insignificant impact on resilience. Working experience, as a covariate, was found to have a significant impact on both aggression and resilience, but gender, in the presence of alcohol abuse and working experience as covariates, was found insignificant, and so in the last analysis, it was not included in the model. Unstandardized coefficients for the variables with standard errors in parentheses are illustrated in Figure 3.

4. Discussion

4.1. Summary of Results

During the first pandemic wave in this study one third of healthcare workers expressed high anger emotions, primarily prevalent in the female population and one out of ten respondents exhibited problematic alcohol use. Gender-specific types of aggression were identified with males displaying more physical aggression and females preferably reporting anger and hostility. Participants with current problematic alcohol use scored higher in physical and total aggression compared to those without alcohol use disorders. Psychological resilience presented negative associations with both anger and aggression and partially mediated the relationship between anger and aggression. Professional experience and alcohol abuse emerged as positive and negative risk factors contributing to aggression and psychological resilience.
Negative associations were identified between psychological resilience with the three of the aggression subscales, namely hostility, anger, and verbal aggression, which implies that increasing the level of resilience reduces the level of aggression. Among the three correlated with resilience dimensions of aggression, hostility had the strongest negative association with respect to the rest of the other subscales; results that are also supported by other research studies [101,102].
As expected, alcohol abuse presented positive associations with aggression, having the strongest correlation with physical aggression, but the only domain among the four aggressive domains that did not correlate with alcohol abuse was hostility, the cognitive domain of aggression. In our sample psychological resilience and alcohol abuse operate in different ways, primarily affecting distinct aggression domains, and no interaction was identified between these two constructs in terms of aggression. The fact that alcohol abuse impairs cognitive functions, specifically executive functions, information processing, and attentional control, among other individual differences, leading to alcohol-related aggression while psychological resilience requires integrity of self-regulation processes and intact prefrontal cortical control to achieve its salutary benefits, by taming aggressive urges, justifies the aforementioned results [50,103,104,105]. In other words, alcohol abuse undermines resilience’s protective role and fuels aggression, both directly and indirectly.

4.2. Professional Experience and Demographic Variables as to Resilience and Workplace Aggression

Research suggests that work-related variables, like professional experience, is positively associated with resilience and studies evidence that the less experienced nurses have lower resilience compared with the higher experienced ones [59,106,107]. Work experiences can, under certain circumstances, empower employees, increasing job satisfaction, commitment, and performance and various studies confirm that over the years healthcare professionals may develop highly adaptive mechanisms, or resilient characteristics enabling them to consistently provide a high standard of care and remain competent despite unfavorable working conditions [108,109,110]. Other studies fail to provide evidence about the role of working experience as to resilience and support other implicated work-related and exogenous factors [111,112,113]. A recent systematic review revealed discrepancies while investigating factors associated with resilience and identified several positive related factors, like self-efficacy, social support and job satisfaction, and various negative such as stress, workplace bullying, and burnout [114].
Work experience, among other factors, predicted workplace aggression in healthcare workers attributed to the fact that the more experienced healthcare workers have eventually acquired skills enabling them to foresee, appraise, and resolve conflicts in a more competent way than their less experienced counterparts [115,116,117]. Previous research supported the increase in resilience with age since with advancing age life experiences are acquired [118]. Older people are deemed to have faced at times adverse life events that have enabled them to acquire a repertoire of effective coping skills [119]. Also, as to the rest of the demographic variables, results from most studies examining resilience in terms of gender are in favor of men, beyond reasons of heritability [120,121]. Gender-specific differences regarding resilience levels were not observed in our study. Furthermore, in other studies results were inconclusive and gender has been termed as an inconsistent and non-reliable predictor of resilience, possibly because measures of resilience are not gender sensitive [122].

4.3. Workplace Aggression and Interrelated Variables

Workplace aggression in healthcare is an immerging growing phenomenon as if the pandemic kindled an outrage against healthcare professionals. Previous research argued that being exposed to workplace aggression undoubtedly evokes emotional responses like anger, despair, or fear and the more harm-causing incidents of workplace aggression have a higher impact on female employees [123]. A review identified several staff-related causes of workplace aggression in healthcare: notably emotional dysregulation, distressing working conditions, unsupportive supervisors, inappropriate management, lack of instructions for handling aggressive incidents, and alcohol abuse [124]. In a recent qualitative study, many healthcare workers claimed that aggression in the workplace induced deleterious psychological and physical effects and reported experiencing fatigue, exhaustion, and distress effectuating a negative influence in providing effective and safe patient care [125].

4.4. Alcohol Abuse among Healthcare Professionals

Another alarming trend is problematic alcohol use among physicians, which appears to have been increasing during the pandemic [126,127]. A recent systematic literature review revealed a high rate of self-reported alcohol use disorder among doctors impacting up to one third of them [128]. According to this review, the rate of reported alcohol use disorder increased from 16.3% between 2006 and 2010 to 26.8% between 2017 and 2020. The proportion of a positive screen using the CAGE questionnaire was 3.8% to 22.0% for studies [128]. In a cross-sectional study from a hospital during the first wave of the pandemic, 17.1% of healthcare professionals admitted increased alcohol consumption assumed to be a maladaptive coping strategy from vulnerable individuals who lack adequate work experience while attempting to handle occupational stress and anxiety [129]. Increased alcohol consumption has also been reported among nursing staff from diverse healthcare settings mostly due to increased workplace stress [130].

4.5. The Role of Psychological Resilience as to Aggression and Alcohol Abuse

It has been argued that the pandemic created the optimal setting for testing psychological resilience in the presence of worldwide challenges heavily impacting mental health. A recent review examining resilience among frontline healthcare workers during the pandemic evidenced modest resilience scores [131]. According to a meta-analysis the pandemic adversely affected the psychological well-being of healthcare workers worldwide and among other disappointing results, they reported that the rate of low resilience was 16.1% (95% CI: 12.8–19.4) [132]. It is generally accepted that resilience is amenable to change and can be further enhanced by interventions, such as cognitive–behavioral, stress inoculation, acceptance and commitment, mindfulness, and problem-solving psychotherapies [133,134].
Resilience has an important role in the resolution of psychological difficulties such as aggression, depression, or anxiety, caused by early adversities and allows people to deal with emotional and behavioral reactions and, therefore, reduces the likelihood for displaying aggressive behaviors when confronted with any distressing situation [135]. Levels of resilience and aggression are greatly influenced by diverse social, biological, environmental, situational, personal, and cultural factors. Protective and risk factors that modulate patterns of response to lifetime experiences and determine the correlation between resilience and aggression are identified, such as self-control, gender, coping styles, family and social relationships, and socioeconomic status, among others [136].
Studies highlight that people who are inclined to risk-taking behaviors, such as alcohol and substance use, aggressive, and other disruptive behaviors, have maladaptive coping styles and are not capable of managing life stressors with resilience [137]. In other words, low resilience levels may lead to inefficient management, as in the case of excessive alcohol consumption to overcome a variety of stressors [138,139]. A recent cross-sectional survey identified resilience as a moderator, compensating for the increase in alcohol use arising from the pandemic-related stress [140].
Likewise, investigating the association between resilience and various psychosocial factors, it was reported that resilience has a negative correlation with anger expression and was also implicated in emotion regulation and impulse control [141,142]. This sense of emotional regulation allows a resilient person to withstand during adversities instead of reacting aggressively [143]. Resilience also encourages people to seek healthier ways to relieve from stress, using relaxation and exercising, and ultimately this contributes to the reduction of negative emotions [144]. Furthermore, a research study supported that enhancing resilience in the workplace is also of great importance, as improving the level of resilience increases the probability of diminishing undesirable workplace behaviors, such as anger, hostility towards co-workers, or verbal aggression, ultimately effectuating better employee performance [145].

4.6. Anger and Aggression as to Gender

In our sample, male respondents demonstrated higher levels of self-reported physical aggression compared with females and female participants exhibited higher scores in self-reported levels of anger and hostility, in agreement with other research [146]. There is consensus in the literature that anxiety symptoms tend to be associated with increased levels of anger and hostility [147,148], although most people with anxiety problems are less likely to express themselves with overt aggression due to the fear of negative evaluation by others. Sometimes people in their work environment are potentially confronted with morally injurious experiences, which may challenge fundamental ethical principles, placing them at increased risk of presenting symptoms of anxiety and behavioral problems such as anger and hostility [149,150]. In this sense, anger is a frequent reaction to potentially fatal situations encountered at work, and results from studies during the pandemic suggest that healthcare workers experience increased feelings of anger as a result of direct or indirect contact with COVID-19 patients and proximity of exposure to these patients and the female gender were identified as risk factors [151]. Similar conclusions emerge from previous research that focused on other life-threatening situations experienced by female military medical personnel [152].
Literature suggests that there are differences in aggression according to gender, with men displaying direct and women indirect aggression [153]. Biological, psychological, and social factors have been associated with these gender-specific differences [154]. From an evolutionary perspective, women tend to be more fearful and risk-averse than men, with a greater vulnerability to developing anxiety disorders [49]. These gender differences in fear partly explain differences in physical aggression. Although women may be just as likely to experience anger as men, they are assumed to use non-injurious ways of expressing anger and also express different beliefs about injurious modes of aggression [155]. Women view direct aggression as a failure of self-control and men as a means of controlling others [156]. Also, research results support that in intoxicated states alcohol increases aggression mostly in men and in individuals predisposed to aggressive behavior [157]. In general, participants predisposed to aggression tend to perceive conflict and attempt to exercise inhibitory control. Research suggests that females with high trait hostility exhibit a pattern of increased inhibitory control, whereas men with high hostility do not display this response, pointing to gender differences in aggressive behavior [158]. Another study revealed impaired frontal interhemispheric connectivity in women in response to alcohol consumption, suggesting a plausible explanation for aggression in the female gender [159].
Upon provocation, the gender effect on aggression may be blunted. Angry rumination triggered by interpersonal provocation reduces self-control and raises aggression [160]. Angry rumination, one of the important aggression-related cognitive factors, perpetuates anger and increases aggression by reducing self-control and research studies suggest that anger rumination mediates the effect of trait hostility and trait anger on aggression [161,162,163].

4.7. Psychotherapeutic Interventions Targeting Anger, Aggression, Hostility and Substance Abuse

Through diverse proposed mechanisms, mindfulness may counteract angry rumination and decrease aggression, anger, and hostility [164]. Left untreated, according to a recent meta-analysis of longitudinal studies, hostility and anger elevate the risk of coronary artery disease among healthy subjects and predict poorer prognosis among cardiac patients [165]. Also, other research supported that the cognitive dimensions of hostility and anger may anticipate and predispose to depressive symptoms [166].
Another example of psychotherapeutic interventions, from a cognitive–behavioral approach, suggests that stress-related mental disorders like depression, anxiety disorder, and substance abuse, can be viewed as the outcome of dysfunctional thinking patterns. When people are exposed to stressful situations, they often exhibit maladaptive behavioral reactions and suffer from negative emotions because of dysfunctional cognitions. This is consistent with other theories of stress and resilience, suggesting that it is the way the stressor is perceived that drives stress reactions. Consequently, modifying cognitive processes to more adaptive thought patterns is likely to adjust both behavioral and emotional responses to stress. Questioning maladaptive thinking patterns and introducing novel strategies eventually promotes the resilience factors of cognitive flexibility and adaptive coping [167].
Cognitive–behavioral models of addiction and relapse treatment emphasize the role of adverse emotional experiences as determinants of alcohol use and relapse, and research suggests that being able to communicate negative emotional states, a feature of psychological resilience, prevents alcohol use disorders [168]. Resilience building interventions against stress, promoting self-awareness, enabling cognitive restructuring, and encouraging interpersonal relations could advance effective stress management and help individuals avoid alcohol use problems or prevent relapse [169].

4.8. Recommendations

Primary, secondary, and tertiary are the three levels of addressing healthcare workers’ resilience; with primary interventions targeting coping strategies and facilitating communication skills, while secondary interventions screening for burnout and taking care of those at risk should be implemented [170]. Finally, tertiary-level interventions should reach out to healthcare workers who operate beyond safety limits and require treatment in order to recover [170]. The National Academies of Sciences, Engineering, and Medicine Initiative for Clinician Wellbeing and Resilience recommends interventions both at the individual and the organizational level. At the individual level, interventions include good sleep hygiene, physical exercise programs, social support, mindfulness practice and stress management approaches, reflective counseling, etc. [171]. Interventions at the organizational level involve education training sessions, enabling information dissemination regarding the principles of psychosocial resilience, establishing contact between psychosocial services and health professionals, and ensuring the feedback of their worries and proposals [171]. At present, there is limited research evidence to offer recommendations to promote the resilience of health care workers [172]. Conducting robust research is essential to identify optimal approaches for building resilience among healthcare workers and to further explore how healthcare settings should be integrated into interventions [173].
Another critical issue to attend to is workplace aggression. Occupational protocols and administrative strategies are needed that target safety issues, monitoring, and referral of events, as well as workforce training on the prevention and management of workplace aggression [115]. It is strongly advised to enhance communication skills, stress relief, and prevent or manage confrontation through educational training programs for healthcare workers and to provide explicit guidelines for the referral of aggressive incidents in the workplace [174,175,176,177,178]. Preventive interventions to reduce workplace aggression should be evaluated at regular intervals to provide feedback on the benefits and drawbacks of implemented strategies [179]. Also, it is suggested that aggression management be incorporated into the undergraduate nursing education programs and effective strategies be integrated to enhance and improve nursing students’ resilience when dealing with aggressive incidents in the clinical setting [180].
Providing healthcare workers with appropriate training to improve self-control in stressful situations and upgrade their social competencies will diminish aggressive incidents, while enabling feedback and support from their supervisors will increase their sense of security and boost their self-confidence [108,181]. Measures to address workplace aggression should also entail strategies to mitigate the negative impact of verbal and physical aggression in the workplace on healthcare workers [182]. Further, in order to create a safe working environment, it is essential to have good quality and efficient security staff to reduce exposure to potential aggressors [183]. Health authorities and policymakers need to implement strategies focusing on specifically identified factors within the psychosocial framework, considering both proximal and distal risk factors, both patient and healthcare-related determinants of workplace aggression [37]. To draw conclusions about the effect of these specific approaches or programs on reducing workplace aggression, interventional studies that evaluate the proposed initiatives are needed [184].
For alcohol use disorders among healthcare workers, it is important that both diagnostic tests and therapeutic interventions are implemented as an appropriate approach to this important health problem [185]. These programs targeting high-risk populations should include monitoring, screening, and counseling on the harmful effects of alcohol consumption, and health education about healthy nutrition, sleep quality, physical exercise, and stress reduction techniques to dissuade alcohol use as a management strategy [4,186]. Health education training and counseling interventions should be personalized and adjusted to the population at risk [187]. Longitudinal population studies employing national health data are required to allow relevant comparisons in order to identify high-risk groups for harmful alcohol use and provide appropriate support [188,189].
Finally, the workplace should be monitored for stress problems on an ongoing basis, in order to early detect and address these problems, but also to promote a healthy work environment and reduce the harmful aspects of work [190]. The resilience of health systems necessitates drastic structural and resource reforms, along with facilitating health workers’ access to psychological support. The context-specific design of intervention programs should be based on informed inputs and observational outcomes from research studies aimed at uncovering the pressures faced by health care workers and their mental health-related demands [191,192]. Drafting psychological support programs and interventions plans calls for collaboration with health professionals in order to identify work stressors and determine support needs [193]. Knowing the areas of distress that affect human resources in healthcare settings is particularly critical to ensuring the resilience of health systems [173].

4.9. Limitations

In our study, we examined the role of psychological resilience on anger and aggression in relation to alcohol abuse among healthcare professionals, but apart from psychological resilience, there are other identified protective factors such as family and social support, along with negative risk factors such as anxiety, depression, and burnout prevalent among healthcare professionals, particularly among those allocated on the front line of the pandemic. To draw effective individualized psychological interventions all these factors, not taken into account in our study, should be considered. Other limitations in the present study include the limited sample size which impedes the drawing of safe epidemiological conclusions; the convenience sampling method possibly reflecting selection bias; the gender disproportionality of participants, which may have affected the generalizability of the results; employing self-administered questionnaires which raises concerns about the objectivity of the estimates; the cross-sectional design of the study which precludes causal inferences and online data collection excluding healthcare professionals without internet access and further influencing the generalizability of the results.

5. Conclusions

The present study confirmed the protective role of psychological resilience neutralizing anger experiences and averting aggressive tendencies among healthcare professionals during the first pandemic wave. Further, professional experience and alcohol abuse were identified as positive and negative risk factors, correspondingly, impacting aggression and psychological resilience and explaining part of the variability in aggression. Implementing interventions to address workplace aggression and alcohol use disorders among healthcare workers and enhance resilience to counteract the harmful aspects of work is of outmost importance.

Author Contributions

Conceptualization, A.P., C.S. and A.T.; methodology, A.P., E.K. and A.T.; software, D.B., K.F., S.M.P. and D.L.; validation, A.P., S.M.P. and C.S.; formal analysis, A.P. and A.T.; investigation, C.S. and A.T.; resources, A.P. and E.K.; data curation, D.B., D.L., C.S. and A.T.; writing—original draft preparation, A.P., E.K. and A.T.; writing—review and editing, A.P., K.F., S.M.P. and C.S.; supervision, A.P. and A.T.; project administration, A.P. and A.T. All authors have read and agreed to the published version of the manuscript.

Funding

This research received no external funding.

Institutional Review Board Statement

The study was conducted in accordance with the Declaration of Helsinki and approved by the Clinical Research Ethics Committee of “Sotiria” General Hospital (Number 12253/7-5-2020).

Informed Consent Statement

Informed consent was obtained from all subjects involved in the study.

Data Availability Statement

The data that support the findings of this study are available from the corresponding author, [A.T.], upon reasonable request.

Acknowledgments

We would like to thank all participants in our study.

Conflicts of Interest

The authors declare no conflict of interest.

Appendix A

Healthcare 11 02031 g0a1 550
Figure A1. P-P plot to test the Normality of the distribution of the residuals.
Figure A1. P-P plot to test the Normality of the distribution of the residuals.
Healthcare 11 02031 g0a1
Healthcare 11 02031 g0a2 550
Figure A2. Scatterplot of the standardized residuals by the regression standardized predicted values to test homoscedasticity.
Figure A2. Scatterplot of the standardized residuals by the regression standardized predicted values to test homoscedasticity.
Healthcare 11 02031 g0a2

References

  1. Tselebis, A.; Pachi, A. Primary Mental Health Care in a New Era. Healthcare 2022, 10, 2025. [Google Scholar] [CrossRef] [PubMed]
  2. Li, Y.; Scherer, N.; Felix, L.; Kuper, H. Prevalence of depression, anxiety and post-traumatic stress disorder in health care workers during the COVID-19 pandemic: A systematic review and meta-analysis. PLoS ONE 2021, 16, e0246454. [Google Scholar] [CrossRef] [PubMed]
  3. Tselebis, A.; Lekka, D.; Sikaras, C.; Tsomaka, E.; Tassopoulos, A.; Ilias, I.; Bratis, D.; Pachi, A. Insomnia, Perceived Stress, and Family Support among Nursing Staff during the Pandemic Crisis. Healthcare 2020, 8, 434. [Google Scholar] [CrossRef] [PubMed]
  4. Jaguga, F.; Kwobah, E.K.; Mwangi, A.; Patel, K.; Mwogi, T.; Kiptoo, R.; Atwoli, L. Harmful Alcohol Use among Healthcare Workers at the Beginning of the COVID-19 Pandemic in Kenya. Front. Psychiatry 2022, 13, 821610. [Google Scholar] [CrossRef]
  5. Albano, L.; Ferrara, P.; Serra, F.; Arnese, A. Alcohol consumption in a sample of Italian healthcare workers: A cross-sectional study. Arch. Environ. Occup. Health 2020, 75, 253–259. [Google Scholar] [CrossRef]
  6. Capasso, A.; Jones, A.M.; Ali, S.H.; Foreman, J.; Tozan, Y.; DiClemente, R.J. Increased alcohol use during the COVID-19 pandemic: The effect of mental health and age in a cross-sectional sample of social media users in the US. Prev. Med. 2021, 145, 106422. [Google Scholar] [CrossRef]
  7. Tran, T.D.; Hammarberg, K.; Kirkman, M.; Nguyen, H.T.M.; Fisher, J. Alcohol use and mental health status during the first months of COVID-19 pandemic in Australia. J. Affect. Disord. 2020, 277, 810–813. [Google Scholar] [CrossRef]
  8. Pollard, M.S.; Tucker, J.S.; Green, H.D., Jr. Changes in Adult Alcohol Use and Consequences during the COVID-19 Pandemic in the US. JAMA Netw. Open. 2020, 3, e2022942. [Google Scholar] [CrossRef]
  9. Yue, Y.; Wang, S.; Smith, E.; Goyal, D.; Zhu, K.; Zhang, Z.F.; Smith, B.; Niu, Z.; Lei, L.; Freudenheim, J.L.; et al. Alcohol Consumption and Mental Health during the COVID-19 Pandemic. Alcohol. Alcohol. 2023, 58, 247–257. [Google Scholar] [CrossRef]
  10. Keyes, K.M.; Hatzenbuehler, M.L.; Hasin, D.S. Stressful life experiences, alcohol consumption, and alcohol use disorders: The epidemiologic evidence for four main types of stressors. Psychopharmacology 2011, 218, 1–17. [Google Scholar] [CrossRef] [Green Version]
  11. Gonçalves, P.D.; Moura, H.F.; do Amaral, R.A.; Castaldelli-Maia, J.M.; Malbergier, A. Alcohol Use and COVID-19: Can we Predict the Impact of the Pandemic on Alcohol Use Based on the Previous Crises in the 21st Century? A Brief Review. Front. Psychiatry 2020, 11, 581113. [Google Scholar] [CrossRef] [PubMed]
  12. Clay, J.M.; Parker, M.O. Alcohol use and misuse during the COVID-19 pandemic: A potential public health crisis? Lancet Public Health 2020, 5, e259. [Google Scholar] [CrossRef] [PubMed]
  13. Pachi, A.; Sikaras, C.; Ilias, I.; Panagiotou, A.; Zyga, S.; Tsironi, M.; Baras, S.; Tsitrouli, L.A.; Tselebis, A. Burnout, Depression and Sense of Coherence in Nurses during the Pandemic Crisis. Healthcare 2022, 10, 134. [Google Scholar] [CrossRef] [PubMed]
  14. Frenkel, M.O.; Pollak, K.M.; Schilling, O.; Voigt, L.; Fritzsching, B.; Wrzus, C.; Egger-Lampl, S.; Merle, U.; Weigand, M.A.; Mohr, S. Stressors faced by healthcare professionals and coping strategies during the early stage of the COVID-19 pandemic in Germany. PLoS ONE 2022, 17, e0261502. [Google Scholar] [CrossRef]
  15. Mira, J.J.; Cobos-Vargas, Á.; Astier-Peña, M.P.; Pérez-Pérez, P.; Carrillo, I.; Guilabert, M.; Pérez-Jover, V.; Fernández-Peris, C.; Vicente-Ripoll, M.A.; Silvestre-Busto, C.; et al. Addressing Acute Stress among Professionals Caring for COVID-19 Patients: Lessons Learned during the First Outbreak in Spain (March–April 2020). Int. J. Environ. Res. Public Health 2021, 18, 12010. [Google Scholar] [CrossRef]
  16. Sikaras, C.; Ilias, I.; Tselebis, A.; Pachi, A.; Zyga, S.; Tsironi, M.; Gil, A.P.R.; Panagiotou, A. Nursing staff fatigue and burnout during the COVID-19 pandemic in Greece. AIMS Public Health 2021, 9, 94–105. [Google Scholar] [CrossRef]
  17. Notelaers, G.; De Witte, H.; Van Veldhoven, M.; Vermunt, J.K. Construction and validation of the Short Inventory to Monitor Psychosocial Hazards. Médecine Du Trav. Ergon. 2007, 44, 11–17. [Google Scholar]
  18. Herraiz-Recuenco, L.; Alonso-Martínez, L.; Hannich-Schneider, S.; Puente-Alcaraz, J. Causes of Stress among Healthcare Professionals and Successful Hospital Management Approaches to Mitigate It during the COVID-19 Pandemic: A Cross-Sectional Study. Int. J. Environ. Res. Public Health 2022, 19, 12963. [Google Scholar] [CrossRef]
  19. Smith, L.E.; Duffy, B.; Moxham-Hall, V.; Strang, L.; Wessely, S.; Rubin, G.J. Anger and confrontation during the COVID-19 pandemic: A national cross-sectional survey in the UK. J. R. Soc. Med. 2021, 114, 77–90. [Google Scholar] [CrossRef]
  20. Greenglass, E.R.; Burke, R.J.; Moore, K.A. Reactions to increased workload: Effects on professional efficacy of nurses. Appl. Psychol. 2003, 52, 580–597. [Google Scholar] [CrossRef]
  21. Fiksenbaum, L.; Marjanovic, Z.; Greenglass, E.R.; Coffey, S. Emotional exhaustion and state anger in nurses who worked during the SARS outbreak: The role of perceived threat and organizational support. Can. J. Commun. Ment. Health 2007, 25, 89–103. [Google Scholar] [CrossRef]
  22. Robertson, E.; Hershenfield, K.; Grace, S.L.; Stewart, D.E. The psychosocial effects of being quarantined following exposure to SARS: A Qualitative study of Toronto health care workers. Can. J. Psychiatry 2004, 49, 403–407. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  23. Shah, S.H.A.; Haider, A.; Jindong, J.; Mumtaz, A.; Rafiq, N. The Impact of Job Stress and State Anger on Turnover Intention among Nurses during COVID-19: The Mediating Role of Emotional Exhaustion. Front. Psychol. 2022, 12, 810378. [Google Scholar] [CrossRef] [PubMed]
  24. Goldman, B.M. The application of referent cognitions theory to legal claiming by terminated workers: The role of organizational justice and anger. J. Manag. 2003, 29, 705–728. [Google Scholar]
  25. Asaoka, H.; Sasaki, N.; Kuroda, R.; Tsuno, K.; Kawakami, N. Workplace Bullying and Patient Aggression Related to COVID-19 and its Association with Psychological Distress among Health Care Professionals during the COVID-19 Pandemic in Japan. Tohoku J. Exp. Med. 2021, 255, 283–289. [Google Scholar] [CrossRef]
  26. Khawaja, K.F.; Sarfraz, M.; Rashid, M.; Rashid, M. How is COVID-19 pandemic causing employee withdrawal behavior in the hospitality industry? An empirical investigation. J. Hosp. Tour. Insights 2022, 5, 687–706. [Google Scholar] [CrossRef]
  27. Gorman, J.M.; Reist, C.; Aamar, R.; Steiner, L. Anger among Health Care Professionals. Psychiatric Times. Available online: https://www.psychiatrictimes.com/view/anger-among-health-care-professionals (accessed on 7 April 2022).
  28. Di Mattei, V.E.; Perego, G.; Milano, F.; Mazzetti, M.; Taranto, P.; Di Pierro, R.; De Panfilis, C.; Madeddu, F.; Preti, E. The “Healthcare Workers’ Wellbeing (Benessere Operatori)” Project: A Picture of the Mental Health Conditions of Italian Healthcare Workers during the First Wave of the COVID-19 Pandemic. Int. J. Environ. Res. Public Health 2021, 18, 5267. [Google Scholar] [CrossRef]
  29. Stuijfzand, S.; Deforges, C.; Sandoz, V.; Sajin, C.T.; Jaques, C.; Elmers, J.; Horsch, A. Psychological impact of an epidemic/pandemic on the mental health of healthcare professionals: A rapid review. BMC Public Health 2020, 20, 1230. [Google Scholar] [CrossRef]
  30. Bayrak, N.G.; Uzun, S.; Kulakaç, N. The relationship between anxiety levels and anger expression styles of nurses during COVID-19 pandemic. Perspect. Psychiatr. Care 2021, 57, 1829–1837. [Google Scholar] [CrossRef]
  31. Forrest, C.B.; Xu, H.; Thomas, L.E.; Webb, L.E.; Cohen, L.W.; Carey, T.S.; Chuang, C.H.; Daraiseh, N.M.; Kaushal, R.; McClay, J.C. Impact of the early phase of the COVID-19 pandemic on US healthcare workers: Results from the HERO Registry. J. Gen. Intern. Med. 2021, 36, 1319–1326. [Google Scholar] [CrossRef]
  32. DeWall, C.N.; Anderson, C.A. The general aggression model. In Human Aggression and Violence: Causes, Manifestations, and Consequences; Shaver, P.R., Mikulincer, M., Eds.; American Psychological Association: Washington, DC, USA, 2011; pp. 15–33. [Google Scholar]
  33. Liu, J.; Gan, Y.; Jiang, H.; Li, L.; Dwyer, R.; Lu, K.; Yan, S.; Sampson, O.; Xu, H.; Wang, C.; et al. Prevalence of workplace violence against healthcare workers: A systematic review and meta-analysis. Occup. Environ. Med. 2019, 76, 927–937. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  34. Devi, S. COVID-19 exacerbates violence against health workers. Lancet 2020, 396, 658. [Google Scholar] [CrossRef] [PubMed]
  35. Ramzi, Z.S.; Fatah, P.W.; Dalvandi, A. Prevalence of Workplace Violence Against Healthcare Workers during the COVID-19 Pandemic: A Systematic Review and Meta-Analysis. Front. Psychol. 2022, 13, 896156. [Google Scholar] [CrossRef] [PubMed]
  36. García-Zamora, S.; Pulido, L.; Miranda-Arboleda, A.F.; García, D.E.; Pérez, G.; Priotti, M.; Chango, D.X.; Antoniolli, M.; Zaidel, E.J.; Lopez-Santi, R.; et al. Aggression, Micro-aggression, and Abuse against Health Care Providers during the COVID-19 Pandemic. A Latin American Survey. Curr. Probl. Cardiol. 2022, 47, 101296. [Google Scholar] [CrossRef] [PubMed]
  37. Debanjan, B. Workplace violence in healthcare: Towards a psychosocial perspective. Aggress. Violent Behav. 2021, 58, 101573. [Google Scholar]
  38. Ehie, O.; Muse, I.; Hill, L.; Bastien, A. Professionalism: Microaggression in the healthcare setting. Curr. Opin. Anaesthesiol. 2021, 34, 131–13656. [Google Scholar] [CrossRef]
  39. Baras, S.; Lekka, D.; Bokari, M.; Orlandou, K.; Arachoviti, V.; Roubi, A.; Tsaraklis, A.; Pachi, A.; Douzenis, A. Investigation of the Relationship Between Aggression and Adult Attachment in Healthcare Professionals. Cureus 2021, 13, e19360. [Google Scholar] [CrossRef]
  40. Viottini, E.; Politano, G.; Fornero, G.; Pavanelli, P.L.; Borelli, P.; Bonaudo, M.; Gianino, M.M. Determinants of aggression against all health care workers in a large-sized university hospital. BMC Health Serv. Res. 2020, 20, 215. [Google Scholar] [CrossRef] [Green Version]
  41. Piryani, R.M.; Piryani, S. Conflict Management in Healthcare. J. Nepal Health Res. Counc. 2019, 16, 481–482. [Google Scholar] [CrossRef]
  42. Azoulay, E.; Timsit, J.F.; Sprung, C.L.; Soares, M.; Rusinová, K.; Lafabrie, A.; Abizanda, R.; Svantesson, M.; Rubulotta, F.; Ricou, B.; et al. Conflicus Study Investigators and for the Ethics Section of the European Society of Intensive Care Medicine. Prevalence and factors of intensive care unit conflicts: The conflicus study. Am. J. Respir. Crit. Care Med. 2009, 180, 853–860. [Google Scholar] [CrossRef]
  43. Hamblin, L.E.; Essenmacher, L.; Ager, J.; Upfal, M.; Luborsky, M.; Russell, J.; Arnetz, J. Worker-to-Worker Violence in Hospitals: Perpetrator Characteristics and Common Dyads. Workplace Health Saf. 2016, 64, 51–56. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  44. Arnetz, J.E.; Aranyos, D.; Ager, J.; Upfal, M.J. Worker-on-worker violence among hospital employees. Int. J. Occup. Environ. Health 2011, 17, 328–335. [Google Scholar] [CrossRef] [PubMed]
  45. Hamblin, L.E.; Essenmacher, L.; Upfal, M.J.; Russell, J.; Luborsky, M.; Ager, J.; Arnetz, J.E. Catalysts of worker-to-worker violence and incivility in hospitals. J. Clin. Nurs. 2015, 24, 2458–2467. [Google Scholar] [CrossRef] [Green Version]
  46. Beiter, K.J.; Wiedemann, R.P.; Thomas, C.L.; Conrad, E.J. Alcohol Consumption and COVID-19-Related Stress among Health Care Workers: The Need for Continued Stress-Management Interventions. Public Health Rep. 2022, 137, 326–335. [Google Scholar] [CrossRef]
  47. Rezapour, M.; Niazi, M.K.K.; Gurcan, M.N. Machine learning-based analytics of the impact of the Covid-19 pandemic on alcohol consumption habit changes among United States healthcare workers. Sci. Rep. 2023, 13, 6003. [Google Scholar] [CrossRef] [PubMed]
  48. Cedrone, F.; Buomprisco, G.; Nicola, M.; La Torre, G.; Nieto, H.; Perri, R.; Montagna, V.; Greco, E.; De Sio, S. Alcohol Use during COVID-19 Pandemic: A Cross-Sectional Survey among Healthcare and Office Workers in Italy. Int. J. Environ. Res. Public Health 2022, 19, 12587. [Google Scholar] [CrossRef] [PubMed]
  49. Durrant, R. Anxiety, alcohol use, and aggression: Untangling the causal pathways. Leg. Criminol. Psychol. 2011, 16, 372–378. [Google Scholar] [CrossRef]
  50. Beck, A.; Heinz, A. Alcohol-related aggression. Dtsch. Aerzteblatt Online 2013, 110, 711–715. [Google Scholar] [CrossRef] [Green Version]
  51. Alkan, Ö.; Tekmanlı, H.H. Determination of the factors affecting sexual violence against women in Turkey: A population-based analysis. BMC Womens Health 2021, 21, 188. [Google Scholar] [CrossRef]
  52. Alkan, Ö.; Ünver, Ş. Determinants of domestic physical violence against women in Turkey. Humanit. Soc. Sci. Rev. 2020, 8, 55–67. [Google Scholar] [CrossRef]
  53. Giancola, P.R. The influence of trait anger on the alcohol-aggression relation in men and women. Alcohol. Clin. Exp. Res. 2002, 26, 1350–1358. [Google Scholar] [CrossRef]
  54. Parrott, D.J.; Giancola, P.R. A further examination of the relation between trait anger and alcohol-related aggression: The role of anger control. Alcohol. Clin. Exp. Res. 2004, 28, 855–864. [Google Scholar] [CrossRef]
  55. Bushman, B.J.; Giancola, P.R.; Parrott, D.J.; Roth, R.M. Failure to Consider Future Consequences Increases the Effects of Alcohol on Aggression. J. Exp. Soc. Psychol. 2012, 48, 591–595. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  56. Grom, J.L.; Maloney, M.A.; Parrott, D.J.; Eckhardt, C.I. Alcohol, Trait Anger, and Psychological Flexibility: A Laboratory Investigation of Intimate Partner Violence Perpetration. J. Contextual Behav. Sci. 2021, 19, 100–107. [Google Scholar] [CrossRef] [PubMed]
  57. Giancola, P.R. Executive functioning: A conceptual framework for alcohol-related aggression. Exp. Clin. Psychopharmacol. 2000, 8, 576–597. [Google Scholar] [CrossRef] [PubMed]
  58. Heinz, A.; Mann, K.; Weinberger, D.R.; Goldman, D. Serotonergic dysfunction, negative mood states, and response to alcohol. Alcohol. Clin. Exp. Res. 2001, 25, 487–495. [Google Scholar] [CrossRef]
  59. Hart, P.L.; Brannan, J.D.; De Chesnay, M. Resilience in nurses: An integrative review. J. Nurs. Manag. 2014, 22, 720–734. [Google Scholar] [CrossRef] [Green Version]
  60. Lara-Cabrera, M.L.; Betancort, M.; Muñoz-Rubilar, C.A.; Rodríguez Novo, N.; De Las Cuevas, C. The Mediating Role of Resilience in the Relationship between Perceived Stress and Mental Health. Int. J. Environ. Res. Public Health 2021, 18, 9762. [Google Scholar] [CrossRef]
  61. Foster, K.; Roche, M.; Giandinoto, J.; Furness, T. Workplace stressors, psychological well- being, resilience, and caring behaviours of mental health nurses: A descriptive correlational study. Int. J. Ment. Health Nurs. 2020, 29, 56–68. [Google Scholar] [CrossRef]
  62. Labrague, L.J. Psychological resilience, coping behaviours and social support among health care workers during the COVID-19 pandemic: A systematic review of quantitative studies. J. Nurs. Manag. 2021, 29, 1893–1905. [Google Scholar] [CrossRef]
  63. Lisi, L.; Ciaffi, J.; Bruni, A.; Mancarella, L.; Brusi, V.; Gramegna, P.; Ripamonti, C.; Quaranta, E.; Borlandelli, E.; Gallo, G.; et al. Levels and Factors Associated with Resilience in Italian Healthcare Professionals during the COVID-19 Pandemic: A Web-Based Survey. Behav. Sci. 2020, 10, 183. [Google Scholar] [CrossRef] [PubMed]
  64. Doyle, J.N.; Campbell, M.A.; Gryshchuk, L. Occupational Stress and Anger: Mediating Effects of Resiliency in First Responders. J. Police Crim. Psychol. 2021, 36, 463–472. [Google Scholar] [CrossRef] [PubMed]
  65. Wilson, S.A.; Tinker, R.H.; Becker, L.A.; Logan, C.R. Stress management with law enforcement personnel: A controlled outcome study of EMDR versus a traditional stress management program. Int. J. Stress. Manag. 2001, 8, 179–200. [Google Scholar] [CrossRef]
  66. Wang, W.; Chen, X.; Ning, G.; Wang, Y.; Song, S. The relationship between anger and learning from failure: The moderating effect of resilience and project commitment. Curr. Psychol. 2022, 3, 1–12. [Google Scholar] [CrossRef]
  67. Yıldırım, M.; Arslan, G.; Özaslan, A. Perceived Risk and Mental Health Problems among Healthcare Professionals during COVID-19 Pandemic: Exploring the Mediating Effects of Resilience and Coronavirus Fear. Int. J. Ment. Health Addict. 2022, 20, 1035–1045. [Google Scholar] [CrossRef]
  68. Xiao, X.; Xiao, J.; Yao, J.; Chen, Y.; Saligan, L.; Reynolds, N.R.; Wang, H. The Role of Resilience and Gender in Relation to Infectious-Disease-Specific Health Literacy and Anxiety during the COVID-19 Pandemic. Neuropsychiatr. Dis. Treat. 2020, 16, 3011–3021. [Google Scholar] [CrossRef]
  69. Ju, G.; Lee, J.; Ahn, M.H.; Lee, J.; Kim, E.J.; Suh, S.; Chung, S. Effects of Depression and Resilience of Public Workers on Work-related Stress and Anxiety in Response to the COVID-19 Pandemic. J. Korean Med. Sci. 2021, 36, e262. [Google Scholar] [CrossRef]
  70. Turan, N. An investigation of the effects of an anger management psychoeducation programme on psychological resilience and affect of intensive care nurses. Intensive Crit. Care Nurs. 2021, 62, 102915. [Google Scholar] [CrossRef]
  71. DeWall, C.N.; Finkel, E.J.; Denson, T.F. Self-control inhibits aggression. Soc. Personal. Psychol. Compass 2011, 5, 458–472. [Google Scholar] [CrossRef]
  72. Harati, H.; Mohsenipouya, H.; Mousavinasab, N.; Sangani, A.; Alam, M.K.; Mamun, M.A. The relationship between spirituality and aggression in the workplace during the COVID-19 pandemic: A cross-sectional study among Iranian nurses. PLoS ONE 2022, 17, e0279247. [Google Scholar] [CrossRef]
  73. Dębski, P.; Florek, S.; Piegza, M.; Pudlo, R.; Gorczyca, P. Is it good to be resilient during the COVID-19 period? The role of ego-resiliency in the intensity of symptoms of anxiety, alcohol use and aggression among Polish people. Int. J. Occup. Med. Environ. Health 2021, 34, 289–300. [Google Scholar] [CrossRef] [PubMed]
  74. Hopkins, M.; Morrison, P.; Fetherston, C. Enhancing Nursing Students’ Resilience to Aggressive and Violent Events. Presented at the Fifth International Conference on Violence in the Health Sector, Dublin, Ireland, 26–28 October 2016. [Google Scholar]
  75. Lissoni, B.; Del Negro, S.; Brioschi, P.; Casella, G.; Fontana, I.; Bruni, C.; Lamiani, G. Promoting resilience in the acute phase of the COVID-19 pandemic: Psychological interventions for intensive care unit (ICU) clinicians and family members. Psychol. Trauma Theory Res. Pract. Policy 2020, 12 (Suppl. S1), S105–S107. [Google Scholar] [CrossRef] [PubMed]
  76. Waters, L.; Algoe, S.B.; Dutton, J.; Emmons, R.; Fredrickson, B.L.; Heaphy, E.; Moskowitz, J.T.; Neff, K.; Niemiec, R.; Pury, C. Positive psychology in a pandemic: Buffering, bolstering, and building mental health. J. Posit. Psychol. 2022, 17, 303–323. [Google Scholar] [CrossRef]
  77. Cybulska, A.M.; Weymann, A.; Rachubińska, K.; Grochans, S.; Wójcik, G.; Grochans, E. Factors Associated with Insomnia and Aggression among Healthcare Workers during COVID-19 Pandemic. Int. J. Environ. Res. Public Health 2023, 20, 1433. [Google Scholar] [CrossRef] [PubMed]
  78. Bozdağ, F.; Ergün, N. Psychological Resilience of Healthcare Professionals during COVID-19 Pandemic. Psychol. Rep. 2021, 124, 2567–2586. [Google Scholar] [CrossRef] [PubMed]
  79. Johnson, N.; Dinsmore, J.A.; Hof, D.D. The relationship between college students’ resilience level and type of alcohol use. Int. J. Psychol. A Biopsychosoc. Approach 2011, 8, 67–82. [Google Scholar]
  80. Wang, Y.; Chen, W. Stress and alcohol use in rural Chinese residents: A moderated mediation model examining the roles of resilience and negative emotions. Drug Alcohol. Depend. 2015, 155, 76–82. [Google Scholar] [CrossRef] [Green Version]
  81. Kashdan, T.B.; Ferssizidis, P.; Collins, R.L.; Muraven, M. Emotion differentiation as resilience against excessive alcohol use: An ecological momentary assessment in underage social drinkers. Psychol. Sci. 2010, 21, 1341–1347. [Google Scholar] [CrossRef]
  82. Lyvers, M.; Holloway, N.; Needham, K.; Thorberg, F.A. Resilience, alexithymia, and university stress in relation to anxiety and problematic alcohol use among female university students. Aust. J. Psychol. 2020, 72, 59–67. [Google Scholar] [CrossRef]
  83. Sanchez, A.; Gainza Perez, M.; Field, C.A. The role of resilience in alcohol use, drinking motives, and alcohol-related consequences among Hispanic college students. Am. J. Drug Alcohol. Abus. 2022, 48, 100–109. [Google Scholar] [CrossRef]
  84. Sallie, S.N.; Ritou, V.; Bowden-Jones, H.; Voon, V. Assessing international alcohol consumption patterns during isolation from the COVID-19 pandemic using an online survey: Highlighting negative emotionality mechanisms. BMJ Open 2020, 10, e044276. [Google Scholar] [CrossRef] [PubMed]
  85. Terpstra, C.; Verster, J.C.; Scholey, A.; Benson, S. Associations between Mental Resilience, Mood, Coping, Personality, and Hangover Severity. J. Clin. Med. 2022, 11, 2240. [Google Scholar] [CrossRef] [PubMed]
  86. Tselebis, A.; Bratis, D.; Roubi, A.; Anagnostopoulou, M.; Giotakis, K.; Pachi, A. Anger management during the COVID-19 lockdown: The role of resilience and family support. Encephalos 2022, 59, 1–10. [Google Scholar]
  87. Faul, F.; Erdfelder, E.; Lang, A.-G.; Buchner, A. Statistical power analyses using G*Power 3.1: Tests for correlation and regression analyses. Behav. Res. Methods 2009, 41, 1149. [Google Scholar] [CrossRef] [Green Version]
  88. Schoemann, A.M.; Boulton, A.J.; Short, S.D. Determining Power and Sample Size for Simple and Complex Mediation Models. Soc. Psychol. Personal. Sci. 2017, 8, 379–386. [Google Scholar] [CrossRef]
  89. Forbes, D.; Alkemade, N.; Mitchell, D.; Elhai, J.D.; McHugh, T.; Bates, G.; Novaco, R.W.; Bryant, R.; Lewis, V. Utility of the Dimensions of Anger Reactions-5 (DAR-5) scale as a brief anger measure. Depress. Anxiety 2014, 31, 166–173. [Google Scholar] [CrossRef]
  90. Kim, H.J.; Lee, D.H.; Kim, J.H.; Kang, S.E. Validation of the Dimensions of Anger Reactions Scale (the DAR-5) in non-clinical South Korean adults. BMC Psychol. 2023, 11, 74. [Google Scholar] [CrossRef] [PubMed]
  91. Pachi, A.; Anagnostopoulou, M.; Antoniou, A.; Papageorgiou, S.M.; Tsomaka, E.; Sikaras, C.; Ilias, I.; Tselebis, A. Family support, anger and aggression in health workers during the first wave of the pandemic. AIMS Public Health 2023, 10, 524–537. [Google Scholar] [CrossRef]
  92. Webster, G.D.; Dewall, C.N.; Pond, R.S., Jr.; Deckman, T.; Jonason, P.K.; Le, B.M.; Nichols, A.L.; Schember, T.O.; Crysel, L.C.; Crosier, B.S.; et al. The brief aggression questionnaire: Psychometric and behavioral evidence for an efficient measure of trait aggression. Aggress. Behav. 2014, 40, 120–139. [Google Scholar] [CrossRef] [PubMed]
  93. Webster, G.D.; DeWall, C.N.; Pond, R.S., Jr.; Deckman, T.; Jonason, P.K.; Le, B.M.; Nichols, A.L.; Schember, T.O.; Crysel, L.C.; Crosier, B.S.; et al. The Brief Aggression Questionnaire: Structure, Validity, Reliability, and Generalizability. J. Pers. Assess. 2015, 97, 638–649. [Google Scholar] [CrossRef]
  94. Pachi, A.; Tselebis, A.; Ilias, I.; Tsomaka, E.; Papageorgiou, S.M.; Baras, S.; Kavouria, E.; Giotakis, K. Aggression, Alexithymia and Sense of Coherence in a Sample of Schizophrenic Outpatients. Healthcare 2022, 10, 1078. [Google Scholar] [CrossRef]
  95. Smith, B.W.; Dalen, J.; Wiggins, K.; Tooley, E.; Christopher, P.; Bernard, J. The brief resilience scale: Assessing the ability to bounce back. Int. J. Behav. Med. 2008, 15, 194–200. [Google Scholar] [CrossRef] [PubMed]
  96. Kyriazos, T.A.; Stalikas, A.; Prassa, K.; Galanakis, M.; Yotsidi, V.; Lakioti, A. Psychometric Evidence of the Brief Resilience Scale (BRS) and Modeling Distinctiveness of Resilience from Depression and Stress. Psychology 2018, 9, 1828–1857. [Google Scholar] [CrossRef] [Green Version]
  97. Ewing, J.A. Detecting alcoholism: The CAGE Questionnaire. JAMA 1984, 252, 1905–1907. [Google Scholar] [CrossRef] [PubMed]
  98. Williams, N. The CAGE questionnaire. Occup. Med. 2014, 64, 473–474. [Google Scholar] [CrossRef] [Green Version]
  99. Dhalla, S.; Kopec, J.A. The CAGE questionnaire for alcohol misuse: A review of reliability and validity studies. Clin. Investig. Med. 2007, 30, 33–41. [Google Scholar] [CrossRef] [Green Version]
  100. Hayes, A.F. PROCESS: A Versatile Computational Tool for Observed Variable Mediation, Moderation, and Conditional Process Modeling 1. 2012. Available online: http://www.afhayes.com/public/process2012.pdf (accessed on 25 March 2023).
  101. Naseem, S.; Munaf, S. Understanding resilience and aggression in middle adulthood. J. Soc. Sci. Humanit. 2019, 58, 1–15. [Google Scholar] [CrossRef]
  102. Mojrian, F.; Homayouni, A.; Rahmedani, Z.; Alizadeh, M. Correlation Between Resilience with Aggression and Hostility in University Students. Eur. Psychiatry 2017, 41 (Suppl. S1), S611. [Google Scholar] [CrossRef]
  103. Hoaken, P.N.; Giancola, P.R.; Pihl, R.O. Executive cognitive functions as mediators of alcohol-related aggression. Alcohol Alcohol. 1998, 33, 47–54. [Google Scholar] [CrossRef]
  104. Heinz, A.J.; Beck, A.; Meyer-Lindenberg, A.; Sterzer, P.; Heinz, A. Cognitive and neurobiological mechanisms of alcohol-related aggression. Nat. Rev. Neurosci. 2011, 12, 400–413. [Google Scholar] [CrossRef]
  105. Dixon, M.L.; Thiruchselvam, R.; Todd, R.; Christoff, K. Emotion and the prefrontal cortex: An integrative review. Psychol. Bull. 2017, 143, 1033–1081. [Google Scholar] [CrossRef] [PubMed]
  106. Leng, M.; Xiu, H.; Yu, P.; Feng, J.; Wei, Y.; Cui, Y.; Zhang, M.; Zhou, Y.; Wei, H. Current State and Influencing Factors of Nurse Resilience and Perceived Job-Related Stressors. J. Contin. Educ. Nurs. 2020, 51, 132–137. [Google Scholar] [CrossRef]
  107. Gillespie, M.B.; Chaboyer, W.; Wallis, M. The influence of personal characteristics on the resilience of operating room nurse: A predictor study. Int. J. Nurs. Stud. 2009, 46, 968–976. [Google Scholar] [CrossRef] [PubMed]
  108. Butts, M.M.; Vandenberg, R.J.; DeJoy, D.M.; Schaffer, B.S.; Wilson, M.G. Individual reactions to high involvement work processes: Investigating the role of empowerment and perceived organizational support. J. Occup. Health Psychol. 2009, 14, 122–136. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  109. Mealer, M.; Jones, J.; Meek, P. Factors Affecting Resilience and Development of Posttraumatic Stress Disorder in Critical Care Nurses. Am. J. Crit. Care 2017, 26, 184–192. [Google Scholar] [CrossRef] [Green Version]
  110. Quattrin, R.; Zanini, A.; Nascig, E.; Annunziata, M.A.; Calligaris, L.; Brusaferro, S. Level of burnout among nurses working in oncology in an Italian region. Oncol. Nurs. Forum 2006, 33, 815–820. [Google Scholar] [CrossRef] [Green Version]
  111. Manomenidis, G.; Panagopoulou, E.; Montgomery, A. Resilience in nursing: The role of internal and external factors. J. Nurs. Manag. 2019, 27, 172–178. [Google Scholar] [CrossRef] [Green Version]
  112. Gillespie, B.M.; Chaboyer, W.; Wallis, M.; Grimbeek, P. Resilience in the operating room: Developing and testing of a resilience model. J. Adv. Nurs. 2007, 59, 427–438. [Google Scholar] [CrossRef]
  113. Ren, Y.; Zhou, Y.; Wang, S.; Luo, T.; Huang, M.; Zeng, Y. Exploratory study on resilience and its influencing factors among hospital nurses in Guangzhou, China. Int. J. Nurs. Sci. 2017, 5, 57–62. [Google Scholar] [CrossRef]
  114. Yu, F.; Raphael, D.; Mackay, L.; Smith, M.; King, A. Personal and work-related factors associated with nurse resilience: A systematic review. Int. J. Nurs. Stud. 2019, 93, 129–140. [Google Scholar] [CrossRef]
  115. Ghareeb, N.S.; El-Shafei, D.A.; Eladl, A.M. Workplace violence among healthcare workers during COVID-19 pandemic in a Jordanian governmental hospital: The tip of the iceberg. Environ. Sci. Pollut. Res. Int. 2021, 28, 61441–61449. [Google Scholar] [CrossRef]
  116. ALBashtawy, M. Workplace violence against nurses in emergency departments in Jordan. Int. Nurs. Rev. 2013, 60, 550–555. [Google Scholar] [CrossRef] [PubMed]
  117. Hodgson, M.J.; Reed, R.; Craig, T.; Murphy, F.; Lehmann, L.; Belton, L.; Warren, N. Violence in healthcare facilities: Lessons from the Veterans Health Administration. J. Occup. Environ. Med. 2004, 46, 1158–1165. [Google Scholar] [CrossRef] [PubMed]
  118. Alessandri, G.; Eisenberg, N.; Vecchione, M.; Caprara, G.V.; Milioni, M. Ego-resiliency development from late adolescence to emerging adulthood: A ten-year longitudinal study. J. Adolesc. 2016, 50, 91–102. [Google Scholar] [CrossRef] [PubMed]
  119. Gooding, P.A.; Hurst, A.; Johnson, J.; Tarrier, N. Psychological resilience in young and older adults. Int. J. Geriatr. Psychiatry 2012, 27, 262–270. [Google Scholar] [CrossRef] [PubMed]
  120. Ayşe, G.Ö.K.; Koğar, E.Y. A Meta-Analysis Study on Gender Differences in Psychological Resilience Levels. Cyprus Turk. J. Psychiatry Psychol. 2021, 3, 132–143. [Google Scholar]
  121. Boardman, J.D.; Blalock, C.L.; Button, T.M. Sex differences in the heritability of resilience. Twin Res. Hum. Genet. 2008, 11, 12–27. [Google Scholar] [CrossRef] [Green Version]
  122. Hirani, S.; Lasiuk, G.; Hegadoren, K. The intersection of gender and resilience. J. Psychiatr. Ment. Health Nurs. 2016, 23, 455–467. [Google Scholar] [CrossRef]
  123. Liegat, M.C.; Hensel, D.; Vogel, D.; Vogel, R. Aggressions and associations: How workplace violence affects what public employees think of citizens. Public Adm. 2022, 1–27. [Google Scholar] [CrossRef]
  124. Allan, D.; ALBashtawy, M.; Al Omari, O.; ALBashtawy, B.; Alkhawaldeh, A.; ALBashtawy, S.; Suliman, M.; Fawares, F.; Abdalrahim, A.; ALBashtawy, Z. Workplace Violence among Healthcare Workers: A Review of Causes and Effects. EC Emerg. Med. Crit. Care 2021, 5, 1–6. [Google Scholar]
  125. Vrablik, M.C.; Chipman, A.K.; Rosenman, E.D.; Simcox, N.J.; Huynh, L.; Moore, M.; Fernandez, R. Identification of processes that mediate the impact of workplace violence on emergency department healthcare workers in the USA: Results from a qualitative study. BMJ Open 2019, 9, e031781. [Google Scholar] [CrossRef] [Green Version]
  126. Silczuk, A. Threatening increase in alcohol consumption in physicians quarantined due to coronavirus outbreak in Poland: The ALCOVID survey. J. Public Health 2020, 42, 461–465. [Google Scholar] [CrossRef] [PubMed]
  127. Gomes, C.M.; Favorito, L.A.; Henriques, J.V.T.; Canalini, A.F.; Anzolch, K.M.J.; de Carvalho Fernandes, R.; Bellucci, C.H.S.; Silva, C.S.; Wroclawski, M.L.; Pompeo, A.C.L.; et al. Impact of COVID-19 on clinical practice, income, health and lifestyle behavior of Brazilian urologists. Int. Braz. J. Urol. 2020, 46, 1042–1071. [Google Scholar] [CrossRef] [PubMed]
  128. Wilson, J.; Tanuseputro, P.; Myran, D.T.; Dhaliwal, S.; Hussain, J.; Tang, P.; Noor, S.; Roberts, R.L.; Solmi, M.; Sood, M.M. Characterization of Problematic Alcohol Use among Physicians: A Systematic Review. JAMA Netw. Open 2022, 5, e2244679. [Google Scholar] [CrossRef] [PubMed]
  129. Madoz-Gúrpide, A.; Leira-Sanmartín, M.; Ibañez, Á.; Ochoa-Mangado, E. Self-reported increase in alcohol and drugs intake as a coping strategy in hospital workers during COVID-19 outbreak: A cross-sectional study. Adicciones 2021, 35, 143–150, (In English, In Spanish). [Google Scholar] [CrossRef]
  130. Searby, A.; Burr, D.; Redley, B. The impact of COVID-19 on nurse alcohol consumption: A qualitative exploration. J. Clin. Nurs. 2022, 1–13. [Google Scholar] [CrossRef]
  131. Baskin, R.G.; Bartlett, R. Healthcare worker resilience during the COVID-19 pandemic: An integrative review. J. Nurs. Manag. 2021, 29, 2329–2342. [Google Scholar] [CrossRef]
  132. Ching, S.M.; Ng, K.Y.; Lee, K.W.; Yee, A.; Lim, P.Y.; Ranita, H.; Devaraj, N.K.; Ooi, P.B.; Cheong, A.T. Psychological distress among healthcare providers during COVID-19 in Asia: Systematic review and meta-analysis. PLoS ONE 2021, 16, e0257983. [Google Scholar] [CrossRef]
  133. Liu, J.J.W.; Ein, N.; Gervasio, J.; Battaion, M.; Reed, M.; Vickers, K. Comprehensive meta-analysis of resilience interventions. Clin. Psychol. Rev. 2020, 82, 101919. [Google Scholar] [CrossRef]
  134. Angelopoulou, P.; Panagopoulou, E. Resilience interventions in physicians: A systematic review and meta-analysis. Appl. Psychol. Health Well Being 2022, 14, 3–25. [Google Scholar] [CrossRef]
  135. Kim, J.; Seok, J.H.; Choi, K.; Jon, D.I.; Hong, H.J.; Hong, N.; Lee, E. The Protective Role of Resilience in Attenuating Emotional Distress and Aggression Associated with Early-life Stress in Young Enlisted Military Service Candidates. J. Korean Med. Sci. 2015, 30, 1667–1674. [Google Scholar] [CrossRef] [Green Version]
  136. Alvord, M.K.; Grados, J.J. Enhancing Resilience in Children: A Proactive Approach. Prof. Psychol. Res. Pract. 2005, 36, 238–245. [Google Scholar] [CrossRef] [Green Version]
  137. Kennedy, B.; Chen, R.; Fang, F.; Valdimarsdottir, U.; Montgomery, S.; Larsson, H.; Fall, K. Low stress resilience in late adolescence and risk of smoking, high alcohol consumption and drug use later in life. J. Epidemiol. Community Health 2019, 73, 496–501. [Google Scholar] [CrossRef]
  138. Wong, M.C.S.; Huang, J.; Wang, H.H.X.; Yuan, J.; Xu, W.; Zheng, Z.-J.; Xue, H.; Zhang, L.; Jiang, J.Y.; Huang, J.L.W.; et al. Resilience level and its association with maladaptive coping behaviours in the COVID-19 pandemic: A global survey of the general populations. Glob. Health 2023, 19, 1. [Google Scholar] [CrossRef]
  139. Kumar, S.; Srivastava, M.; Srivastava, M.; Prakash, S.; Prasad, A. Resilience among Alcohol Abusing Subjects: A Case Control Study. J. Inst. Med. Sci. 2018, 1, 23–27. [Google Scholar]
  140. Tudehope, L.; Lee, P.; Wiseman, N.; Dwirahmadi, F.; Sofija, E. The effect of resilience on the relationship between perceived stress and change in alcohol consumption during the COVID-19 pandemic in Queensland, Australia. J. Health Psychol. 2022, 27, 2696–2713. [Google Scholar] [CrossRef] [PubMed]
  141. Sharma, M.K.; Marimuthu, P. Prevalence and psychosocial factors of aggression among youth. Indian J. Psychol. Med. 2014, 36, 48–53. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  142. Kay, S. Emotion Regulation and Resilience: Overlooked Connections. Ind. Organ. Psychol. 2016, 9, 411–415. [Google Scholar] [CrossRef]
  143. Troy, A.S.; Willroth, E.C.; Shallcross, A.J.; Giuliani, N.R.; Gross, J.J.; Mauss, I.B. Psychological Resilience: An Affect-Regulation Framework. Annu. Rev. Psychol. 2023, 74, 547–576. [Google Scholar] [CrossRef]
  144. Antonini Philippe, R.; Schwab, L.; Biasutti, M. Effects of Physical Activity and Mindfulness on Resilience and Depression during the First Wave of COVID-19 Pandemic. Front. Psychol. 2021, 12, 700742. [Google Scholar] [CrossRef]
  145. Zaman, A.; Khan, M.; Khan, A. Psychological Capital Intrusion Towards Employee Performance and Counter Productive Behaviour. J. Bus. Tour. 2021, 3, 73–87. [Google Scholar] [CrossRef]
  146. Wesemann, U.; Hadjamu, N.; Wakili, R.; Willmund, G.; Vogel, J.; Rassaf, T.; Siebermair, J. Gender differences in anger among hospital medical staff exposed to patients with COVID-19. Health Equity 2021, 5, 181–184. [Google Scholar] [CrossRef]
  147. Deschênes, S.S.; Dugas, M.J.; Fracalanza, K.; Koerner, N. The role of anger in generalized anxiety disorder. Cogn. Behav. Ther. 2012, 41, 261–271. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  148. Thompson, J.S.; Schmidt, N.B. The role of anxiety sensitivity in anger symptomatology: Results from a randomized controlled trial. J. Anxiety Disord. 2021, 83, 102462. [Google Scholar] [CrossRef] [PubMed]
  149. Williamson, V.; Stevelink, S.A.M.; Greenberg, N. Occupational moral injury and mental health: Systematic review and meta-analysis. Br. J. Psychiatry 2018, 212, 339–346. [Google Scholar] [CrossRef] [Green Version]
  150. Williamson, V.; Murphy, D.; Greenberg, N. COVID-19 and experiences of moral injury in front-line key workers. Occup. Med. 2020, 70, 317–319. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  151. Wesemann, U.; Vogel, J.; Willmund, G.D.; Kupusovic, J.; Pesch, E.; Hadjamu, N.; Holzner, C.; Wakili, R.; Rassaf, T.; Siebermair, J. Proximity to COVID-19 on Mental Health Symptoms among Hospital Medical Staff. Psychiatr. Danub. 2021, 33 (Suppl. S10), 132–136. [Google Scholar] [PubMed]
  152. Wesemann, U.; Zimmermann, P.L.; Bühler, A.; Willmund, G.D. Gender Differences in Hostility and Aggression among Military Healthcare Personnel After Deployment. J. Womens Health 2017, 26, 1138. [Google Scholar] [CrossRef]
  153. Archer, J.; Coyne, S.M. An integrated review of indirect, relational and social aggression. Pers. Soc. Psychol. Rev. 2005, 9, 212–230. [Google Scholar] [CrossRef]
  154. Björkqvist, K. Gender differences in aggression. Curr. Opin. Psychol. 2018, 19, 39–42. [Google Scholar] [CrossRef]
  155. Campbell, A.; Muncer, S. Intent to harm or injure? Gender and the expression of anger. Aggress. Behav. 2008, 34, 282–293. [Google Scholar] [CrossRef]
  156. Driscoll, H.; Zinkivskay, A.; Evans, K.; Campbell, A. Gender differences in social representations of aggression: The phenomenological experience of differences in inhibitory control? Br. J. Psychol. 2006, 97 Pt 2, 139–153. [Google Scholar] [CrossRef]
  157. Giancola, P.R. Alcohol-related aggression in men and women: The influence of dispositional aggressivity. J. Stud. Alcohol 2002, 63, 696–708. [Google Scholar] [CrossRef]
  158. Denson, T.F.; O’Dean, S.M.; Blake, K.R.; Beames, J.R. Aggression in Women: Behavior, Brain and Hormones. Front. Behav. Neurosci. 2018, 12, 81. [Google Scholar] [CrossRef] [Green Version]
  159. Hoppenbrouwers, S.S.; Hofman, D.; Schutter, D.J. Alcohol breaks down interhemispheric inhibition in females but not in males: Alcohol and frontal connectivity. Psychopharmacology 2010, 208, 469–474. [Google Scholar] [CrossRef] [Green Version]
  160. Denson, T.F.; Pedersen, W.C.; Friese, M.; Hahm, A.; Roberts, L. Understanding impulsive aggression: Angry rumination and reduced self-control capacity are mechanisms underlying the provocation-aggression relationship. Pers. Soc. Psychol. Bull. 2011, 37, 850–862. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  161. Denson, T.F.; DeWall, C.N.; Finkel, E.J. Self-Control and Aggression. Curr. Dir. Psychol. Sci. 2012, 21, 20–25. [Google Scholar] [CrossRef] [Green Version]
  162. Yang, R. Trait Hostility and Aggression: The Mediating Effect of Anger Rumination. Adv. Soc. Sci. 2020, 9, 312–318. [Google Scholar]
  163. Quan, F.; Wang, L.; Gong, X.; Lei, X.; Liang, B.; Zhang, S. Hostile Attribution Bias and Anger Rumination Sequentially Mediate the Association between Trait Anger and Reactive Aggression. Front. Psychol. 2022, 12, 778695. [Google Scholar] [CrossRef] [PubMed]
  164. Borders, A.; Earleywine, M.; Jajodia, A. Could mindfulness decrease anger, hostility, and aggression by decreasing rumination? Aggress Behav. 2010, 36, 28–44. [Google Scholar] [CrossRef]
  165. Chida, Y.; Steptoe, A. The association of anger and hostility with future coronary heart disease: A meta-analytic review of prospective evidence. J. Am. Coll. Cardiol. 2009, 53, 936–946. [Google Scholar] [CrossRef] [PubMed]
  166. Stewart, J.C.; Fitzgerald, G.J.; Kamarck, T.W. Hostility now, depression later? Longitudinal associations among emotional risk factors for coronary artery disease. Ann. Behav. Med. 2010, 39, 258–266. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  167. Curtiss, J.E.; Levine, D.S.; Ander, I.; Baker, A.W. Cognitive-Behavioral Treatments for Anxiety and Stress-Related Disorders. Focus 2021, 19, 184–189. [Google Scholar] [CrossRef]
  168. Emery, N.N.; Simons, J.S.; Clarke, C.J.; Gaher, R.M. Emotion differentiation and alcohol-related problems: The mediating role of urgency. Addict. Behav. 2014, 39, 1459–1463. [Google Scholar] [CrossRef] [Green Version]
  169. Alim, T.N.; Lawson, W.B.; Feder, A.; Iacoviello, B.M.; Saxena, S.; Bailey, C.R.; Greene, A.M.; Neumeister, A. Resilience to meet the challenge of addiction: Psychobiology and clinical considerations. Alcohol Res. 2012, 34, 506–515. [Google Scholar] [PubMed]
  170. Taylor, R. Contemporary issues: Resilience training alone is an incomplete intervention. Nurse Educ. Today 2019, 78, 10–13. [Google Scholar] [CrossRef] [PubMed]
  171. Heath, C.; Sommerfield, A.; von Ungern-Sternberg, B.S. Resilience strategies to manage psychological distress among healthcare workers during the COVID-19 pandemic: A narrative review. Anaesthesia 2020, 75, 1364–1371. [Google Scholar] [CrossRef]
  172. Morse, J.M.; Kent-Marvick, J.; Barry, L.A.; Harvey, J.; Okang, E.N.; Rudd, E.A.; Wang, C.Y.; Williams, M.R. Developing the Resilience Framework for Nursing and Healthcare. Glob. Qual. Nurs. Res. 2021, 8, 23333936211005475. [Google Scholar] [CrossRef]
  173. Dean, L.; Cooper, J.; Wurie, H.; Kollie, K.; Raven, J.; Tolhurst, R.; MacGregor, H.; Hawkins, K.; Theobald, S.; Mansaray, B. Psychological resilience, fragility and the health workforce: Lessons on pandemic preparedness from Liberia and Sierra Leone. BMJ Glob Health 2020, 5, e002873. [Google Scholar] [CrossRef]
  174. Díaz, A.; Utzet, M.; Mirabent, J.; Diaz, P.; Ramada, J.M.; Serra, C.; Benavides, F.G. Workplace aggression against healthcare workers in a Spanish healthcare institution between 2019 and 2021: The impact of the COVID-19 pandemic. Front. Public Health 2023, 11, 1070171. [Google Scholar] [CrossRef]
  175. Kazaleh, A.; Bashtawy, M.; ALBashtawy, M. Therapeutic Communication Skills in Nursing Education and Practice. EC Psychol. Psychiatry 2019, 8, 1–4. [Google Scholar]
  176. Salame, H.; ALBashtawy, M. Managing Workplace Stress among Health Care Providers. EC Psychol. Psychiatry 2019, 8, 792–794. [Google Scholar]
  177. Arnetz, J.E.; Hamblin, L.; Ager, J.; Luborsky, M.; Upfal, M.J.; Russell, J.; Essenmacher, L. Underreporting of workplace violence: Comparison of self-report and actual documentation of hospital incidents. Workplace Health Saf. 2015, 63, 200–210. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  178. García-Pérez, M.D.; Rivera-Sequeiros, A.; Sánchez-Elías, T.M.; Lima-Serrano, M. Workplace violence on healthcare professionals and underreporting: Characterization and knowledge gaps for prevention. Enfermería Clínica 2021, 31, 390–395. [Google Scholar] [CrossRef]
  179. Almost, J.; Wolff, A.; Mildon, B.; Price, S.; Godfrey, C.; Robinson, S.; Ross-White, A.; Mercado-Mallari, S. Positive and negative behaviours in workplace relationships: A scoping review protocol. BMJ Open 2015, 5, e007685. [Google Scholar] [CrossRef]
  180. Hallett, N.; Wagstaff, C.; Barlow, T. Nursing students’ experiences of violence and aggression: A mixed-methods study. Nurse Educ. Today 2021, 105, 105024. [Google Scholar] [CrossRef]
  181. Beattie, J.; Griffiths, D.; Innes, K.; Morphet, J. Workplace violence perpetrated by clients of health care: A need for safety and trauma-informed care. J. Clin. Nurs. 2019, 28, 116–124. [Google Scholar] [CrossRef] [PubMed] [Green Version]
  182. Zhang, J.; Zheng, J.; Cai, Y.; Zheng, K.; Liu, X. Nurses’ experiences and support needs following workplace violence: A qualitative systematic review. J. Clin. Nurs. 2021, 30, 28–43. [Google Scholar] [CrossRef]
  183. Ramacciati, N.; Giusti, G.D. Workplace violence in emergency departments: The health professionals and security personnel alliance. Emerg. Med. Australas. 2020, 32, 1074–1076. [Google Scholar] [CrossRef]
  184. Kumari, A.; Sarkar, S.; Ranjan, P.; Chopra, S.; Kaur, T.; Baitha, U.; Chakrawarty, A.; Klanidhi, K.B. Interventions for workplace violence against health-care professionals: A systematic review. Work 2022, 73, 415–427. [Google Scholar] [CrossRef]
  185. Gómez-Durán, E.L.; Martin-Fumadó, C.; Forero, C.G. Psychological impact of quarantine on healthcare workers. Occup. Environ. Med. 2020, 77, 666–674. [Google Scholar] [CrossRef]
  186. Ames, G.M.; Bennett, J.B. Prevention interventions of alcohol problems in the workplace: A review and guiding framework. Alcohol Res. Health 2011, 34, 175–187. [Google Scholar] [PubMed]
  187. Braquehais, M.D.; Vargas-Cáceres, S. Psychiatric Issues among Health Professionals. Med. Clin. 2023, 107, 131–142. [Google Scholar] [CrossRef] [PubMed]
  188. Alkan, Ö.; Abar, H.; Gençer, Ö. Analysis of factors affecting alcohol and tobacco concurrent use by bivariate probit model in Turkey. Environ. Sci. Pollut. Res. 2021, 28, 30168–30175. [Google Scholar] [CrossRef]
  189. Alkan, Ö.; Güney, E. Investigation of factors that affect the frequency of alcohol use of employees in Turkey. J. Subst. Use 2021, 26, 468–474. [Google Scholar] [CrossRef]
  190. Sebastian, S. Occupational Stress; Challenges and Remedial Measures. Int. J. Adv. Res. 2018, 6, 111–115. [Google Scholar] [CrossRef] [Green Version]
  191. Muller, A.E.; Hafstad, E.V.; Himmels, J.P.W.; Smedslund, G.; Flottorp, S.; Stensland, S.Ø.; Stroobants, S.; Van de Velde, S.; Vist, G.E. The mental health impact of the covid-19 pandemic on healthcare workers, and interventions to help them: A rapid systematic review. Psychiatry Res. 2020, 293, 113441. [Google Scholar] [CrossRef] [PubMed]
  192. Pollock, A.; Campbell, P.; Cheyne, J.; Cowie, J.; Davis, B.; McCallum, J.; McGill, K.; Elders, A.; Hagen, S.; McClurg, D.; et al. Interventions to support the resilience and mental health of frontline health and social care professionals during and after a disease outbreak, epidemic or pandemic: A mixed methods systematic review. Cochrane Database Syst. Rev. 2020, 11, CD013779. [Google Scholar]
  193. Søvold, L.E.; Naslund, J.A.; Kousoulis, A.A.; Saxena, S.; Qoronfleh, M.W.; Grobler, C.; Münter, L. Prioritizing the Mental Health and Well-Being of Healthcare Workers: An Urgent Global Public Health Priority. Front. Public Health 2021, 9, 679397. [Google Scholar] [CrossRef]
Healthcare 11 02031 g001 550
Figure 1. Line plot of alcohol abuse and levels of resilience for aggression.
Figure 1. Line plot of alcohol abuse and levels of resilience for aggression.
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Healthcare 11 02031 g002 550
Figure 2. Line plot of gender and levels of resilience for aggression.
Figure 2. Line plot of gender and levels of resilience for aggression.
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Healthcare 11 02031 g003 550
Figure 3. Mediation analysis of BRS on the DAR-5 and BAQ relationship with alcohol abuse and work experience (W.E.) as covariates.
Figure 3. Mediation analysis of BRS on the DAR-5 and BAQ relationship with alcohol abuse and work experience (W.E.) as covariates.
Healthcare 11 02031 g003
Table
Table 1. General characteristics of participants and DAR-5, BRS, CAGE, BAQ, and subscales scores as to gender.
Table 1. General characteristics of participants and DAR-5, BRS, CAGE, BAQ, and subscales scores as to gender.
ParticipantsMen
N = 53		Women
N = 190		Total
N = 243
Descriptive StatisticsMeanSDMeanSDMeanSD
Age42.119.8941.499.3841.639.48
Working experience
(in years)		13.2311.0415.5410.5815.0310.7
Dimensions of Anger Reactions-5 (DAR-5)9.38 *2.5210.37 *3.4910.163.33
Brief Resilience Scale (BRS)3.790.723.560.813.610.8
CAGE questionnaire0.360.680.410.830.40.798
Brief Aggression Questionnaire (BAQ)24.345.5623.337.2623.556.93
Physical Aggression (PA)5.45 **2.474.11 **1.874.42.09
Verbal Aggression (VA)7.042.446.542.626.652.6
Hostility (H)5.72 **2.146.72 **2.616.52.54
Anger (A)6.132.225.962.566.02.49
NOTE: * p < 0.05; ** p < 0.01.
Table
Table 2. General characteristics of participants and DAR-5, BRS, BAQ, and subscales scores as to alcohol abuse.
Table 2. General characteristics of participants and DAR-5, BRS, BAQ, and subscales scores as to alcohol abuse.
ParticipantsCAGE < 2
N = 219		CAGE ≥ 2
N = 24
Descriptive StatisticsMeanSDMeanSD
Age41.69.541.889.53
Working experience
(in years)		13.8810.716.3810.95
Dimensions of Anger Reactions-5 (DAR-5)10.093.3710.752.95
Brief Resilience Scale (BRS)3.630.773.441.008
Brief Aggression Questionnaire (BAQ)23.11 *6.727.5 *7.95
Physical Aggression (PA)4.24 **1.955.83 **2.745
Verbal Aggression (VA)6.552.547.52.87
Hostility (H)6.422.547.212.52
Anger (A)5.892.386.963.237
NOTE: * p < 0.05; ** p < 0.01.
Table
Table 3. Correlations among age, work experience, BAQ, DAR-5, BRS, and CAGE.
Table 3. Correlations among age, work experience, BAQ, DAR-5, BRS, and CAGE.
Pearson Correlation
Participants = 243		AGEW.E.CAGEBAQDAR-5
Working
Experience (W.E.)		r0.861 **
p0.000
CAGEr0.0370.058
p0.5610.374
Brief Aggression Questionnaire (BAQ)r−0.144 *−0.144 *0.186 **
p0.0250.0250.004
Dimensions of Anger Reactions-5 (DAR-5)r−0.0020.0580.0750.403 **
p0.9810.3670.2470.000
Brief Resilience Scale (BRS)r0.207 **0.213 **−0.073−0.333 **−0.251 **
p0.0010.0010.2600.0000.000
NOTE: * p < 0.05; ** p < 0.01.
Table
Table 4. Stepwise multiple regression (only statistically significant variables are included).
Table 4. Stepwise multiple regression (only statistically significant variables are included).
Dependent Variable:
Brief Aggression Questionnaire		BR SquareR Square ChangeBetatpVIFDurbi-Watson
(Constant)27.238 9.1270.000 ** 2.291
Dimensions of Anger Reactions-5 0.7430.1640.1640.3596.1720.000 **1.092
Brief Resilience Scale −1.9390.2230.059−0.225−3.7780.000 **1.150
CAGE1.3390.2440.0210.1552.7670.006 **1.013
Gender−2.0030.2610.017−0.120−2.1230.035 *1.036
Working
Experience		−0.0740.2730.012−0.115−1.9930.047 *1.080
Notes: B = unstandardized coefficients; Beta = standardized regression coefficient; correlations are statistically significant at the * p < 0.05 or ** p < 0.01 level.
Table
Table 5. Mediation Analysis of BRS on the DAR-5 and BAQ relationship with Alcohol Abuse and Work Experience (W.E.) as Covariates.
Table 5. Mediation Analysis of BRS on the DAR-5 and BAQ relationship with Alcohol Abuse and Work Experience (W.E.) as Covariates.
VariablebSEtp95% Confidence Interval
LLCIULCI
DAR-5 -> BRS−0.06230.0147−4.22480.00003.68114.3446
DAR-5 -> BAQ0.83400.11936.99130.00000.59901.0691
DAR-5 -> BRS -> BAQ−1.81440.5135−3.53320.00050.48310.9591
Covariates
CAGE-> BAQ1.45500.4980−2.92180.00380.47402.4361
W.E. -> BRS0.01740.00463.79020.00840.17760.0265
W.E. -> BAQ−0.11450.0372−3.08070.0023−0.1878−0.0413
Effects
Direct0.72110.12085.96840.00000.48310.9591
Indirect *0.11300.04862.4145 0.03820.2213
Total0.83400.11936.99130.00000.59901.0691
* Based on 5000 bootstrap samples. Abbreviations: W.E., working experience (in years).
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Pachi, A.; Kavourgia, E.; Bratis, D.; Fytsilis, K.; Papageorgiou, S.M.; Lekka, D.; Sikaras, C.; Tselebis, A. Anger and Aggression in Relation to Psychological Resilience and Alcohol Abuse among Health Professionals during the First Pandemic Wave. Healthcare 2023, 11, 2031. https://doi.org/10.3390/healthcare11142031

AMA Style

Pachi A, Kavourgia E, Bratis D, Fytsilis K, Papageorgiou SM, Lekka D, Sikaras C, Tselebis A. Anger and Aggression in Relation to Psychological Resilience and Alcohol Abuse among Health Professionals during the First Pandemic Wave. Healthcare. 2023; 11(14):2031. https://doi.org/10.3390/healthcare11142031

Chicago/Turabian Style

Pachi, Argyro, Evgenia Kavourgia, Dionisios Bratis, Konstantinos Fytsilis, Styliani Maria Papageorgiou, Dimitra Lekka, Christos Sikaras, and Athanasios Tselebis. 2023. "Anger and Aggression in Relation to Psychological Resilience and Alcohol Abuse among Health Professionals during the First Pandemic Wave" Healthcare 11, no. 14: 2031. https://doi.org/10.3390/healthcare11142031

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