Hostname: page-component-586b7cd67f-2brh9 Total loading time: 0 Render date: 2024-11-20T15:25:40.495Z Has data issue: false hasContentIssue false

Wellbeing and mental health outcomes amongst hospital healthcare workers during COVID-19

Published online by Cambridge University Press:  14 February 2023

D. Lowry*
Affiliation:
Department of Psychology, Mater Misericordiae University Hospital, Dublin 7, Ireland
D. Hevey
Affiliation:
School of Psychology, Trinity College Dublin, Dublin 2, Ireland
C. Wilson
Affiliation:
School of Psychology, Trinity College Dublin, Dublin 2, Ireland
V. O’ Doherty
Affiliation:
Department of Psychology, Tallaght University Hospital, Dublin 24, Ireland
S. O’ Sullivan
Affiliation:
Department of Psychological Medicine, St James’s Hospital, Dublin 8, Ireland
C. Finnerty
Affiliation:
Department of Psychology, Mater Misericordiae University Hospital, Dublin 7, Ireland School of Psychology, Trinity College Dublin, Dublin 2, Ireland
N. Pender
Affiliation:
Department of Psychology, Beaumont University Hospital, Dublin 3, Ireland
P. D’Alton
Affiliation:
Department of Psychology, St Vincent’s University Hospital, Dublin 4, Ireland
S. Mulhern
Affiliation:
Department of Psychology, Mater Misericordiae University Hospital, Dublin 7, Ireland
*
Address for correspondence: Dr D. Lowry, Senior Counselling Psychologist, Mater Misericordiae University Hospital, 55 Eccles Street, Dublin 7, Ireland. (Email: [email protected])
Rights & Permissions [Opens in a new window]

Abstract

Background:

Global healthcare systems have been particularly impacted by the COVID-19 pandemic. Healthcare workers (HCWs) are widely reported to have experienced increased levels of baseline psychological distress relative to the general population, and the COVID-19 pandemic may have had an additive effect. However, previous studies are typically restricted to physicians and nurses with limited data available on hospital HCWs. We aimed to conduct a cross-sectional, psychological evaluation of Irish HCWs during COVID-19.

Methods:

HCWs across five adult acute level-4 Dublin-based hospitals completed an online survey of wellbeing and COVID-19 experience.

Results:

There were 1898 HCWs who commenced the survey representing 10% of the total employee base. The sample comprised nurses (33%), doctors (21%), Health and Social Care Professionals (HSCPs) (24%) and ‘Other’ disciplines (22%), and 81% identified as female. Clinical levels of depression, anxiety and PTSD symptoms were endorsed by 31%, 34% and 28% of respondents, respectively. Professional grouping effects included: nurses reporting significantly greater levels of COVID-19 exposure, infection, COVID-fear, moral injury, and post-traumatic distress; HSCPs were significantly less likely to report mood dysfunction. In terms of gender, males were significantly less likely to report negative pandemic experiences, low resilience, and significantly more likely to endorse ‘minimal’ depression, anxiety, and traumatic distress. Logistic regression modelling revealed mental health outcomes (depression, anxiety and PTSD symptoms) were associated with increased frontline exposure, fewer career years’ experience, elevated pre-pandemic stress, and female gender.

Discussion:

To our knowledge, this is the largest evaluation of psychological wellbeing amongst HCWs in acute hospitals in the Dublin region. Our findings have implications for healthcare workforce wellbeing and future service delivery.

Type
Original Research
Copyright
© The Author(s), 2023. Published by Cambridge University Press on behalf of The College of Psychiatrists of Ireland

Introduction

COVID-19 was first identified in November 2019, in the Chinese city of Wuhan; COVID-19 spread rapidly across the globe, leading the World Health Organisation (WHO) to declare a ‘public health emergency of international concern’ in January 2020 (WHO, 2020a). This was revised to pandemic status on March 11th, 2020, triggering significant preventative public health measures across several continents in an effort to control the outbreak (WHO, 2020b).

Over the course of the pandemic, these measures have included unprecedented societal lockdowns, the forced closure of educational facilities and businesses, mandatory wearing of facemasks, social distancing, and in some instances, mandatory quarantining upon entering select jurisdictions. All of these public health measures are designed to control the spread of this highly transmissible virus. Age and medical comorbidity have proven to be the greatest risk factors for morbidity and mortality risk (Verity et al. Reference Verity, Okell, Dorigatti, Winskill, Whittaker and Imai2020; O’Driscoll et al. Reference O’Driscoll, Ribeiro Dos Santos, Wang, Cummings, Azman, Paireau, Fontanet, Cauchemez and Salje2021), but infection risk poses universal concern. Early waves of the pandemic led to burgeoning case numbers, hospitalisations and deaths, with considerable additional pressure being placed on health systems. This was most evident in the early days of the pandemic from Wuhan province, China, and subsequently Bergamo Italy, followed swiftly by subsequent waves across Europe and America through 2020 and 2021.

Healthcare workers (HCWs) represent one of the groups most affected by COVID-19, particularly those with increased front line exposure to the virus (Nguyen et al. Reference Nguyen, Drew, Graham, Joshi, Guo and Ma2020; Mutambudzi et al. Reference Mutambudzi, Niedzwiedz, Macdonald, Leyland, Mair and Anderson2020). Clinically significant levels of depressed mood, anxiety and insomnia have been identified as the main problems experienced, particularly by frontline HCWs, with a systematic review and meta-analysis by Pappa et al. (Reference Pappa, Ntella, Giannakas, Giannakoulis, Papoutsi and Katsaounou2020) estimating prevalence rates at 23%, 23% and 39%, respectively. Other studies have also identified PTSD symptoms as being frequently experienced by HCWs (Lai et al. Reference Lai, Ma, Wang, Cai, Hu, Wei, Wu, Du, Chen, Li, Tan, Kang, Yao, Huang, Wang, Wang, Liu and Hu2020; Bell & Wade, Reference Bell and Wade2021; Brady et al. Reference Brady, Fenton, Loughran, Hayes, Hennessy, Higgins and McLoughlin2022). The main risk factors for experiencing significant psychological distress in HCW samples include frontline exposure, female gender, working as a nurse, being earlier in one’s career, and those with a positive history of mental health difficulties (Pappa et al. Reference Pappa, Ntella, Giannakas, Giannakoulis, Papoutsi and Katsaounou2020; Lai et al. Reference Lai, Ma, Wang, Cai, Hu, Wei, Wu, Du, Chen, Li, Tan, Kang, Yao, Huang, Wang, Wang, Liu and Hu2020; Bell & Wade, Reference Bell and Wade2021). Moreover, a survey of UK doctors by the British Medical Association (Torjesen, Reference Torjesen2020) found that 29% of the 7821 respondents reported a worsening of their mental health during the COVID-19 pandemic. Another study of Italian healthcare workers (N = 595) suggested exposure to COVID-19 patients was a risk factor for elevated psychological distress (Babore et al. Reference Babore, Lombardi, Viceconti, Pignataro, Marino, Crudele, Candelori, Bramanti and Trumello2020). A similar survey in Spain, by Ruiz-Fernández et al. (Reference Ruiz-Fernández, Ramos-Pichardo, Ibáñez-Masero, Cabrera-Troya, Carmona-Rega and Ortega-Galán2020), of 506 healthcare workers, during the highest incidence of cases and COVID-19 related mortality, revealed medium-to-high levels of compassion fatigue and ‘burnout’ amongst respondents, which despite being slightly different psychological constructs, still signal a psychological burden being borne by HCWs in the context of COVID-19.

Some caution is required, however, when interpreting these study outcomes as it is not possible to fully attribute the findings entirely to the current pandemic. It is well established that HCWs have elevated baseline levels of psychological distress, which precede epidemic and pandemic events (Bell & Wade, Reference Bell and Wade2021). Bell & Wade’s (Reference Bell and Wade2021) meta-analysis of 77 full-text studies examining the mental health burden of clinical staff working in high risk epidemic and pandemic health emergencies, including COVID-19 (n = 14), concluded that pandemic response work, including frontline exposure to infection risk, only appears to add a small additional mental health burden on clinical staff. The authors emphasise that existing high levels of poor mental health are common in acute clinical staff, irrespective of pandemic scenarios.

Whilst there is growing literature on the psychological functioning of HCWs, it’s predominantly focused on medical physicians and nurses, which omits a diverse number of disciplines working in healthcare who are experiencing similar pressures. There is also a limited but growing amount of research within the Irish context, seeking to evaluate psychological wellbeing across different HCW groups, with approximately five studies appearing in the published literature to date. These include a Northern Ireland (NI) research group who surveyed staff wellbeing amongst staff across five health and social care trusts in NI (Jordan et al. Reference Jordan, Shannon, Brown, Carroll, Maguire, Kerrigan, Hannan, McCarthy, Tully, Mulholland and Dyer2021). Another group of researchers in the South-East of the country evaluated psychological functioning in HCWs across two local acute hospital settings (Ali et al. Reference Ali, Maguire, Marks, Doyle and Sheehy2020). Foley et al. (Reference Foley, O’Loughlin and Creedon2020) conducted a series of two back-to-back online survey of Irish radiographers, in the early stages of COVID-19, capturing the responses of an estimated 16% of all nationally registered radiographers. Another study by McLoughlin et al. (Reference Mcloughlin, Abdalla, O’Callaghan, Casey and Barrett2022) has evaluated burnout, psychological wellbeing, and work satisfaction in psychiatry trainees, nationally. More recently, a Brady et al. (Reference Brady, Fenton, Loughran, Hayes, Hennessy, Higgins and McLoughlin2022) evaluated the mental health of Dublin-based hospital doctors, nurses, radiographers and healthcare assistants (HCAs) across three adult hospitals, via an online, cross-sectional survey, finding high levels of psychological distress amongst their respondents. All of these studies demonstrated that surveyed Irish HCWs reported significant levels of psychological distress, thereby providing helpful estimates of psychological dysfunction amongst HCWs on the island of Ireland. Despite many similarities across these studies to our project, particularly Conan et al, this study is, to our knowledge, the first and largest study to evaluate psychological wellbeing across all HCW disciplines working in acute, adult, hospital settings in the metropolitan region of Dublin.

Our study sought to evaluate the psychological functioning amongst HCWs employed across five, Dublin-based, adult, acute, level-4 hospitals. At the time this survey was live, these five hospitals were managing 50% of all COVID-associated hospitalisations nationally (HSE, 2020). The survey window described below coincided temporally with the rise of a second COVID-19 wave in Ireland.

Methods

Study design

All healthcare workers registered to work at the Mater Misericordiae University Hospital, Tallaght University Hospital, St. Vincent’s University Hospital, St. James’ Hospital or Beaumont’s University Hospital, during the month of September 2020, were invited to complete an online survey. An electronic link directed interested candidates to a webpage, which required individuals to confirm they met eligibility criteria, satisfied themselves with participant information material, and upon clicking a consent tab, they were directed to the survey page. The survey contained four sections: demographic questions; COVID-19 related questions; four psychological questionnaires measuring anxiety, depressed mood, post-traumatic stress disorder (PTSD) symptoms, and resilience; and questions about coping behaviours.

Measures

The Patient Health Questionnaire (PHQ-9) is a clinically validated, nine-item instrument for assessing symptoms of depression (Kroenke et al. Reference Kroenke, Spitzer and Williams2001). Scores range from 0 to 27 and scores ≥10 had a sensitivity of 88% and a specificity of 88% for major depression. Similar to other studies using the PHQ-9, scores were interpreted in the following way: normal (0–4), mild (5–9), moderate (10–14), and severe (15–21) depression (Lai et al. Reference Lai, Ma, Wang, Cai, Hu, Wei, Wu, Du, Chen, Li, Tan, Kang, Yao, Huang, Wang, Wang, Liu and Hu2020; Zhang et al. Reference Zhang, Liang, Chen, Zhang, Zhang and Weng2013; Marvaldi et al. Reference Marvaldi, Mallet, Dubertret, Moro and Guessoum2021).

The Generalised Anxiety Disorder Questionnaire (GAD-7) is a screening instrument comprising seven questions (Spitzer et al. Reference Spitzer, Kroenke, Williams and Löwe2006). Scores range from 0 to 21, with scores ≥10 achieving a sensitivity of 89% and a specificity of 82% for generalised anxiety. Similar to other studies using the GAD-7, scores were interpreted in the following way: normal (0–4), mild (5–9), moderate (10–14), and severe (15–21) anxiety (Lai et al. Reference Lai, Ma, Wang, Cai, Hu, Wei, Wu, Du, Chen, Li, Tan, Kang, Yao, Huang, Wang, Wang, Liu and Hu2020; Jordan et al. Reference Jordan, Shannon, Brown, Carroll, Maguire, Kerrigan, Hannan, McCarthy, Tully, Mulholland and Dyer2021). Recent systematic reviews and meta-analyses show that the PHQ-9 and GAD-7 are the most frequently used questionnaires on studies evaluating HCW wellbeing (Bell & Wade Reference Bell and Wade2021; Marvaldi et al. Reference Marvaldi, Mallet, Dubertret, Moro and Guessoum2021).

The Impact of Event Scale-Revised (IES-R) is a 22-item self-report measure that assesses subjective distress caused by traumatic events (Weiss & Marmar, Reference Weiss, Marmar and Wilson1996). It is frequently used to evaluate PTSD symptoms in HCW samples (Bell & Wade, Reference Bell and Wade2021; Marvaldi et al. Reference Marvaldi, Mallet, Dubertret, Moro and Guessoum2021). Items correspond directly to 14 of the 17 DSM-IV symptom criteria of PTSD. Research has found that that a total score of >33 on the IES-R yielded diagnostic sensitivity of 0.91 and specificity of 0.82 (Creamer et al. Reference Creamer, Bell and Failla2003). Respondents are asked to name a specific traumatic event with subsequent answers reflecting how distressed or bothered they’ve felt by each item listed, over the previous 7 days. The instrument yields a score ranging from 0 to 88 along with subscale scores that relate to Intrusive phenomena, Avoidance, and Hyperarousal. A cut-off score of ≥34 has been suggested as a threshold for ‘probable PTSD’, as it has evidence of sensitivity (86–89%) and specificity (80–81%) in two samples of survivors of war (Morina et al. Reference Morina, Ehring and Priebe2013), though it’s important to clarify that the IES-R is not a diagnostic instrument. This cut-off is also consistent with the scoring instructions of the IES-R and is based on a past paper examining its psychometric properties (Creamer et al. Reference Creamer, Bell and Failla2003). For these reasons it is the chosen cut-off for this study’s sample, to screen for clinically elevated PTSD symptoms, though other research groups evaluating HCW wellbeing using the IES-R use lower thresholds to capture moderate (as opposed to severe) PTSD symptomatology (Lai et al. Reference Lai, Ma, Wang, Cai, Hu, Wei, Wu, Du, Chen, Li, Tan, Kang, Yao, Huang, Wang, Wang, Liu and Hu2020; Jordan et al. Reference Jordan, Shannon, Brown, Carroll, Maguire, Kerrigan, Hannan, McCarthy, Tully, Mulholland and Dyer2021; Ali et al. Reference Ali, Maguire, Marks, Doyle and Sheehy2020; Brady et al. Reference Brady, Fenton, Loughran, Hayes, Hennessy, Higgins and McLoughlin2022).

The 6-item Brief Resilience Scale (BRS) assesses the perceived ability of a person to ‘bounce back’ or recover from stress (Smith et al. Reference Smith, Epstein, Oritz, Christopher, Tooley, Prince-Embury and Saklofske2013). It derives from the work of Carver (Reference Carver1998), who studied the concepts of resilience and thriving, and the potential connections between these characteristics and a person’s ability to cope with adverse or traumatic events. Items require the respondent to describe their behaviour and actions on a 5-point Likert-type scale, ranging from ‘1’ = does not describe me at all to ‘5’ = describes me very well. Its inclusion in this study’s psychometric test battery was to further explore its potential inverse relationship to mental health outcomes, though most studies in this area of the literature are primarily if not exclusively focused on mental health sequelae (depression, anxiety, PTSD symptomatology, insomnia) and not protective factors such as resilience. BRS validation studies have mostly included general population studies across (Coelho et al. Reference Coelho, Hanel, Cavalcanti, Rezende and Gouveia2016; Kunzler et al. Reference Kunzler, Chmitorz, Bagusat, Kaluza, Hoffmann, Schäfer, Quiring, Rigotti, Kalisch, Tüscher, Franke, van Dick and Lieb2018; Chmitorz et al. Reference Chmitorz, Wenzel, Stieglitz, Kunzler, Bagusat, Helmreich, Gerlicher, Kampa, Kubiak, Kalisch, Lieb, Tüscher and Tran2018; Fung, Reference Fung2020; Soer et al. Reference Soer, Dijkstra, Bieleman, Stewart, Reneman, Oosterveld and Schreurs2019), University students (Hidalgo-Rasmussen & Gonzalez-Betanzos, Reference Hidalgo-Rasmussen and Gonzalez-Betanzos2019), and those with varying medical conditions (Dixon et al. Reference Dixon, Corridoni and Smith2015; Tansey et al. Reference Tansey, Kaya, Moser, Eagle, Dutta and Chan2016; Rodriguez-Rey et al. Reference Rodriguez-Rey, Alonso-Tapia and Hernansaiz-Garrido2016), however there is a limited but growing number of studies using the BRS to examine the role of resilience on healthcare worker wellbeing (Colville et al. Reference Colville, Smith, Brierley, Citron, Nguru, Shaunak, Tam and Perkins-Porras2017; Awano et al. Reference Awano, Oyama, Akiyama, Inomata, Kuse, Tone, Takada, Muto, Fujimoto, Akagi, Mawatari, Ueda, Kawakami, Komatsu and Izumo2020; Son et al. Reference Son, Kim, Cho, Lee, Choi, Kil, Kim, Hong, Ahn and Chung2022; Croghan et al. Reference Croghan, Chesak, Adusumalli, Fischer, Beck, Patel, Ghosh, Schroeder and Bhagra2021). In the original BRS validation study the unidimensional factor of BRS explained 55–67% of the variance over the four samples tested with principal component’s analysis. Internal consistency reliability was good, with Cronbach’s alpha ranging from .80–.91 (Smith et al. Reference Smith, Dalen, Wiggins, Tooley, Christopher and Bernard2008). According to the authors of the BRS (Smith et al. Reference Smith, Epstein, Oritz, Christopher, Tooley, Prince-Embury and Saklofske2013), the following score ranges represent ‘low’ (1–2.99), ‘normal’ (3–4.3), and ‘high’ (4.31–5) resilience, respectively.

Analysis

The analyses were conducted in three linked phases. The first phase included descriptive prevalences of depression, anxiety, PTSD symptoms and Resilience, differentiated by categorical cut-off scores. Secondly, group differences on continuous variables were examined using ANOVA, bivariate relationships between continuous variables were analysed using Pearson Correlations, and categorical variables were analysed using chi-square (see Table 1). Thirdly. All predictor variables were entered simultaneously into multivariate binary logistic regression models to examine the relation the relationship between the categorical outcomes for the psychological variables and the explanatory variables that had significant bivariate relationships with the outcomes, and the associations were reported as ORs (see Table 2). The logistic regression predicted the category of being in the clinical range for each of the psychological variables. Statistical significance was set at p < .05 for all analyses. As this was an exploratory research project, we did not apply the Bonferroni correction to control for multiple comparisons.

Table 1. Severity categories of depression, anxiety, traumatic distress and resilience measurements in total cohort and subgroups

PHQ-9, 9-item Patient Health Questionnaire; GAD-7, 7-item Generalised Anxiety Disorder; IES-R, 22-item Impact of Event Scale-Revised (probable PTSD based on higher cut-off score of 34 or above); BRS, 6-item Brief Resilience Scale. Numbers and percentages are based on available data.

a Statistically more likely to occupy this category.

b Statistically less likely to occupy this category.

Table 2. Variables associated with mental health outcomes

PHQ-9, 9-item Patient Health Questionnaire; GAD-7, 7-item Generalised Anxiety Disorder; IES-R, 22-item Impact of Event Scale-Revised; BRS, 6-item Brief Resilience Scale. a & b symbols denote negative and positive correlations, respectively, between the identified variable and relevant clinical symptoms.

Results

Participants

A total of 1898 individuals commenced the survey and 1496 individuals completed all survey items, representing a completion-retention rate of 79%. In total, about 10% of the entire workforce across these hospitals participated in the survey, though descriptive data (described further below) of our sample suggests they’re representative of the wider workforce. Participation was slightly varied across the five hospital sites, with 582 being from site A, 566 from site B, 263 from site C, 226 from site D and 194 from site E, representing participation rates of 13%, 15%, 8%, 7% and 5% of those hospitals, respectively. Sixty-seven individuals declined to identify their site. Whilst ethics approval had been granted centrally, additional local administration clearance was required in two of the sites (sites D and E) delaying the launch of the survey in those sites by 2–3 weeks, accounting for their lower participation levels. It has also since transpired that competing surveys on a similar topic were taking place in three of the five sites evaluated in this study thereby adversely affecting participation.

Of the 1898 respondents to the survey, 1528 (81%) identified as female and the mean age of participants was 39 years (Range 18–68; SD = 10.29), which is in line with the wider health service trend. Of the 1693 for whom data is available on their hospital discipline, 566 (33%) are nurses, 350 (21%) are physicians, 408 (24%) are health and social care professionals (HSCPs), and 369 (22%) are from a range of ‘other’ professions including pharmacy, administration, catering, cleaning and porter services (see Table 3). Most respondents (n = 1648; 87%) reported working full-time. Respondents reported an average of 15 years (range = 0–46; SD = 10.12) hospital career experience.

Table 3. Demographic and occupational characteristics of responders

Numbers in each category may vary based on those who chose not to respond to particular items and general attrition over the survey.

COVID characteristics

When asked ‘what percentage of your work has direct COVID-19 contact’, the mean rating from 1869 responses was ‘39%’, ranging from 0–100% (SD 31.5). ANOVA revealed significant between group differences on reported levels of frontline exposure to COVID, with nurses reporting significantly higher exposure compared to all three other groups [F(3, 1665) = 26.60, p < .001]. The average work-time exposure reported by nurses was 50%, compared to 34%, 35% and 36% of HSCP, medical and ‘other’ discipline groups, respectively. Similarly, there were significantly greater levels of ‘current fear of COVID’, [F(3, 1646) = 28.14, p < .001], and moral injury endorsement [F(3, 1211) = 22.98, p < .001] amongst nurses, relative to their professional peers. Fear of COVID, and ‘Moral injury’ were all measured using a self-report Likert scale ranging from ‘0’ (‘minimal’) to ‘100’ (‘extreme’). In the case of Moral injury, this was only for individuals who endorsed ‘yes’ to having experienced Moral Injury after being given a brief description of it. This description read as follows: ‘"Moral injury" is a term sometimes given to distress caused by having to make difficult decisions in the course of your work that go against your beliefs or morals. Do you feel you’ve been caused any ‘moral injury’ because of COVID-19?’

Chi-Square analyses also revealed nursing profession being associated with significantly higher incidence of confirmed positive COVID test χ2 (1, n = 1669) = 68.32, p < .001, phi = 0.20, knowing colleagues to have tested positive χ2 (1, n = 1693) = 72.87, p < .001, phi = 0.21, and being less likely to report positive experiences during COVID pandemic χ2 (1, n = 1693) = 35.14, p < .001, phi = 0.14, relative to other disciplines. Nurses were also significantly differentiated from the their peers regarding reported pre-COVID stress levels [F(3, 1589) = 3.74, p = .01]. Similar to current feat of COVID and Moral Injury, Pre-COVID stress was measured using a self-report Likert scale ranging from ‘0’ (‘minimal’) to ‘100’ (‘extreme’). Female respondents reported significantly higher levels of ‘current fear of COVID’ compared to their male counterparts, (M = 39.9, SD = 23.6 Vs M = 31, SD = 23.3; t(1819) = 6.23, p < .001, two-tailed) and a gender effect was also seen in relation to reported negative experiences during COVID, with significantly fewer males endorsing ‘yes’ to the question of whether they had negative COVID experiences χ2 (1, n = 1752) = 21.7, p = .01, phi = 0.11. Respondents had the option to elaborate qualitatively on their negative and/or positive experiences, which will be the subject of a separate qualitative paper, but in brief there were five ‘negative’ themes (emotional toll, infection control concerns, challenges in supporting patients and their families, challenging workplace changes, a perceived lack of support or guidance) and four ‘positive’ themes (improved teamwork, flexible working, feeling appreciated, successful patient outcomes).

Psychological outcomes

Overall, considerable numbers of our survey respondents endorsed symptoms of depression (59%), anxiety (63%) and PTSD symptom levels (28%), with 26% of our sample reporting low levels of psychological resilience (See Table 1 for more details). Nurses were significantly more likely than their professional peers to endorse ‘probable PTSD’ (based on IES-R score of ≥34) on the IES-R χ2 (1, n = 1380) = 26.90, p < .001, phi = 0.14. In contrast, HSCPs were significantly less likely than other HCW groups to report probable PTSD, severe depression χ2 (1, n = 1509) = 12.54, p = .006, phi = 0.09 or anxiety χ2 (1, n = 1536) = 9.10, p = .027, phi = 0.08.

Gender effects were also observed. Male respondents were significantly more likely to endorse ‘minimal’ levels of depression χ2 (1, n = 1670) = 28.70, p = .004, phi = 13, minimal anxiety scores χ2 (1, n = 1699) = 29.47, p = .001, phi = 0.13, sub-clinical trauma symptoms scores χ2 (1, n = 1513) = 8.64, p = .034, phi = 0.08, and significantly less likely to endorse low levels of resilience χ2 (1, n = 1542) = 18.59, p = .005, phi = 0.11, compared to their female counterparts.

Factors predicting mental health outcomes

Variables that had independent statistically significant bivariate relationships with the mental health outcomes were entered into a logistic regression model. The outcomes were categorised into clinical levels of (1) depressed mood (PHQ score of ≥10), (2) anxiety (GAD score of ≥10), (3) PTSD symptom distress (IES-R score of ≥34), or (4) low resilience (BRS score of ≥3) using the cut-offs proposed by the scales’ developers. Clinical elevations of depressed mood were associated with increased frontline exposure (OR, 1.01: 95% CI, 1.00–1.02; p = .002), higher pre-pandemic stress (OR, 1.02: 95% CI, 1.01–1.03; p < .001), and fewer years of professional experience (OR, 0.97: 95% CI, 0.95–0.99; p = .048). Clinical anxiety was associated with those identifying female gender (OR, 1.54: 95% CI, 1.12–2.14; p < .001), higher pre-pandemic stress (OR, 1.01: 95% CI, 1.00–1.02; p < .001), increased frontline exposure (OR, 1.01: 95% CI, 1.00–1.02; p = .008), and fewer years of professional experience (OR, 0.97: 95% CI, 0.95–0.99; p = .034). PTSD symptom distress was associated with increased levels of frontline exposure (OR, 1.01: 95% CI, 1.00–1.02; p < .001) and higher pre-pandemic stress (OR, 1.01: 95% CI, 1.00–1.03; p < .001). Lower levels of resilience were associated with female gender (OR, 0.66: 95% CI, 0.46–0.92; p = 0.02) and higher reported pre-pandemic stress (OR, 0.98: 95% CI, 0.97–0.99; p < .001). Pre-pandemic stress was measured by asking respondents the question ‘how would you rate your stress levels before the COVID-19 pandemic’ using a Likert scale from ‘0’ (minimal) to ‘100’ (extreme). Whilst other studies have reported BRS measured resilience mediate the relationship between psychological symptomatology and wellbeing (Awano et al. Reference Awano, Oyama, Akiyama, Inomata, Kuse, Tone, Takada, Muto, Fujimoto, Akagi, Mawatari, Ueda, Kawakami, Komatsu and Izumo2020; Son et al. Reference Son, Kim, Cho, Lee, Choi, Kil, Kim, Hong, Ahn and Chung2022), our study did not replicate these findings.

Coping behaviours

Whilst a fine grained qualitative analysis of coping styles is beyond the scope of this paper, a brief overview of reported coping behaviours is described here. There were two main coping related questions, one directed at personal coping and the other asked about organisational level supports. In response to the first, ‘How have you coped with stress? (Open question)’, respondents provided myriad answers. Exercise was cited as the most popular (n = 692), followed by friendships (n = 356), family support (n = 276), mindfulness/meditation (n = 174) and reading (n = 114). The next most popular coping methods included distraction (n = 78), music (n = 71), yoga (n = 71), gardening (n = 41) and cooking/baking (n = 41). Twenty-seven individuals acknowledged attending counselling for support. In response to the question ‘which workplace resources have you accessed to cope with stress?’ ‘Peers’ was the most endorsed option (n = 1102), followed by manager support (n = 198), occupational health (n = 107), accessing the employee assistance programme (n = 95), receiving psychology led resilience training (n = 94) or online resources provided by their organisation (n = 74). Over 279 respondents acknowledged receiving ‘other’ non-specified forms of organisational support.

Discussion

To our knowledge, this is the first study to evaluate the psychological wellbeing of all healthcare workers in a network of acute, adult, hospitals in the Dublin region, where approximately one-quarter of the population reside. These hospitals have managed varying levels of COVID-19 related hospitalisations throughout the pandemic, ranging from 50% at the time of this survey to over 26% of admissions in late 2021. Our study revealed relatively high rates of psychological distress amongst respondents, with 31% falling into the moderate-to-severe range for depression on the PHQ-9, 34% reporting moderate-to-severe anxiety on the GAD-7, and 28% endorsing probable PTSD on the IES-R, using the higher cut-off. This suggests that approximately one-in-three healthcare workers are reporting clinical levels of depression, anxiety and/or PTSD symptomatology. This appears to be differentiated from general population mental health estimates during COVID-19, across both Irish and UK jurisdictions, at least in terms of anxiety and depressed mood. Hyland et al. (Reference Hyland, Shevlin, McBride, Murphy, Karatzias, Bentall, Martinez and Vallières2020) found prevalence rates of clinical anxiety and depression to be 20% and 22.8%, respectively, using the same cut-offs as our study, amongst a sample of 1041 general population members in the Republic of Ireland. Similarly, Shevlin et al. (Reference Shevlin, McBride, Murphy, Miller, Hartman, Levita, Mason, Martinez, McKay, Stocks, Bennett, Hyland, Karatzias and Bentall2020) found prevalence rates of 21.6% and 22.1%%, for anxiety and depression respectively, in a UK adult sample (N = 2025). Whilst they also reported a lower incidence of ‘traumatic stress’ in their sample (16.8%), they used a different psychometric questionnaire to evaluate this called the International Trauma Questionnaire, which is based on ICD-11 PTSD symptom criteria (Cloitre et al. Reference Cloitre, Shevlin, Brewin, Bisson, Roberts, Maercker, Karatzias and Hyland2018). It is also noteworthy that one in five of our sample (21%) scored in the low range for resilience, as measured by the BRS, which has been found to mediate mental health outcomes in other studies, though not in our sample.

Whilst these estimates broadly mirror other studies evaluating mental health outcomes in HCWs, internationally, they appear at the upper end of the existing literature for depressed mood and anxiety. It’s unclear why this might be, although a response bias effect might form part of the explanation. By way of comparison, Lai et al. (Reference Lai, Ma, Wang, Cai, Hu, Wei, Wu, Du, Chen, Li, Tan, Kang, Yao, Huang, Wang, Wang, Liu and Hu2020) reported 15%, 12% and 35% prevalence rates for depressed mood, anxiety and PTSD type symptoms, using the same psychometric measures amongst Chinese doctors and nurses in December 2019. It is likely that their lower anxiety and depression scores is partly due to a higher participation rate (64.7%), thus limiting a response bias, though their higher estimate of PTSD symptom distress is due to their lower cut-off score threshold on the IES-R (cut-off score of 26 versus 34). Another UK research group studying many healthcare disciplines across three London based NHS trusts during spring 2020 (Lamb et al. Reference Lamb, Gnanapragasam, Greenberg, Bhundia, Carr and Hotopf2021), found 27%, 23% and 30% of their respondents endorsing clinically significant depression, anxiety and PTSD symptomatology, respectively. This UK survey had a 12% response rate, which is relatively similar to our study. The authors measured PTSD symptomatology differently by way of a shorter, screening questionnaire often used in primary care settings (Lang & Stein, Reference Lang and Stein2005), though found comparable levels of PTSD type endorsements. Similarly, a Northern Irish research group found comparative rates of depressed mood, anxiety and PTSD symptoms amongst their survey respondents, which they ran across two different time-points, with a 4-month interval between surveys (Jordan et al. Reference Jordan, Shannon, Brown, Carroll, Maguire, Kerrigan, Hannan, McCarthy, Tully, Mulholland and Dyer2021). In November 2020 (time-1), 30%, 26% and 30% of their respondents (n = 3834) endorsed clinically significant levels of depression, anxiety and ‘post-traumatic stress’, respectively. By February 2021, 36%, 27% and 32% of their 2898 respondents endorsed clinically significant depression, anxiety and post-traumatic stress. The response rates to each survey were 4.9% at Time-1 and 3.7% at Time-2, which also appears suggestive of an elevated symptom profile being associated with a risk of response bias. Whilst the Northern Irish study used the same measures as this study for depression, anxiety and PTSD symptomatology, the lower cut-off score of ‘26’ was used on the IES-R, which appears to have resulted in higher estimates of PTSD symptom levels.

Our data also reveals additional professional grouping and gender effects. Those in the nursing profession appear most at risk of mental health difficulties, endorsing significantly greater levels of PTSD symptoms than their HCW colleagues. Similarly, they report significantly greater levels of ‘current’ COVID-fear, moral injury, frontline exposure, incidence of infection, and rather interestingly, pre-COVID stress, and significantly fewer positive experiences during the pandemic. As mentioned previously, a separate qualitative analysis of these answers identified four main, positive, pandemic-experience themes: improved teamwork, flexible working, feeling appreciated, and successful patient outcomes. The cross-sectional nature of this study precludes us from making causal inferences but these factors are likely to be relevant and central to any ameliorative measures that might help to address these issues in HCW samples. To this end, however, our logistic regression models identified factors that predict clinical mental health reports across our overall sample. Reported frontline exposure and higher levels of pre-pandemic stress were common factors across depression, anxiety and trauma domains, with fewer years of professional experience also predicting depression and anxiety. Female gender also predicted elevated anxiety and lower resilience.

It is also noteworthy that HSCPs appear the most ‘protected’ professional grouping, comparatively speaking, though they comprise an amalgam of 26 different professions, several of which are not exposed to the clinical coalface, which might account for some of these findings. A detailed breakdown of HSCP professions is beyond the scope of this paper’s focus but would likely shed light on differences across individual disciplines. In terms of gender, male respondents were significantly less likely to report negative COVID experiences or to endorse low levels of resilience. Males were also significantly more likely to exhibit healthy scores on measures of depression, anxiety and PTSD symptoms. It’s unclear why this is though it’s possible that there is a collinearity effect with the nursing profession, which is predominantly female. Recent research has found that Irish females were significantly more likely to screen positive for depression and anxiety during the COVID-19 pandemic, which the authors attribute to multiple psychosocial factors including higher trait neuroticism in females, higher levels of loneliness, increased prevalence of somatic problems, increased child caring pressures, lower sleep quality, and lower trait conscientiousness (Vallières et al. Reference Vallières, Murphy, McBride, Shevlin, Gilmore, Travers, Nolan, Butter, Karatzias, Bentall and Hyland2022). Some of these issues were quite relevant for healthcare workers during early stages of the pandemic, particularly child care pressures and not having the option to work from home. Similar factors are likely to account for some of our sex differentiated findings.

Our study cohort appears healthily representative of the true health service workforce. The study sample is 81% female, which is broadly in line with an October 2021 HSE National Workforce Personnel and Census Report (2021) describing 79% of the workforce being female. Our response rate was also 10% which compares favourably with similar studies from the NI and England (Jordan et al. Reference Jordan, Shannon, Brown, Carroll, Maguire, Kerrigan, Hannan, McCarthy, Tully, Mulholland and Dyer2021; Lamb et al. Reference Lamb, Gnanapragasam, Greenberg, Bhundia, Carr and Hotopf2021), who had participation rates of <5% and 12%, respectively, and indeed other studies in these jurisdictions, though there is likely to be an element of response bias. Our findings also appear consistent with the literature, thus providing further support to the validity of our findings, though continued research efforts to capture larger HCW samples is merited.

Implications

The implications of our findings are stratified across different levels. Our data reveal a concerning profile of psychological distress across our acute hospital workforce. These individuals deserve, and are likely to benefit from, a suite of measures that are designed to support them individually, and address broader managerial, systemic and/or organisational level issues that are probable factors in accounting for some of our findings. Whilst the focus of this study has been psychological wellbeing in the context of COVID-19, there are clear indications that this is not entirely attributable to COVID-19 related stressors. The ongoing systematic review and meta-analysis of Bell & Wade (Reference Bell and Wade2021) also demonstrates that baseline rates of poor mental health are already high amongst HCWs across different jurisdictions, spanning many epidemic and pandemic events, which they conclude are only marginally additive in terms of psychological harm. There is ample evidence that problematic levels of psychological distress preceded the COVID-19 pandemic and will indeed persist afterwards. On this basis, a longer term strategy of HCW wellbeing is required and it is a stated organisational priority for the HSE (2018). Engaging health staff and boosting staff morale is central to improving quality service delivery across the health service sector. Meaningful staff engagement policies has been shown to be associated with improved clinical outcomes for patients, more positive patient experiences, better health and safety records and higher levels of retention and innovative work practices (HSE, 2018). Given our findings, there might be merit in having a tailored response to our nursing colleagues, who appear at increased risk of psychological distress compared to other professional disciplines. Emerging evidence suggests there are myriad protective measures to improve HCW wellbeing across four main strands: improved, more-efficient, team-based, work-flow interventions; technological innovation designed to reduce administration burden on clinicians; enhanced clinical supports such as embedded organisational measures; and supported, funded, clinical training opportunities, particularly those that support HCWs in managing change, systems improvement, leadership, and building strong organisational cultures (Rotenstein et al. Reference Rotenstein, Melnick and Sinsky2022; Daniels et al. Reference Daniels, Ingram, Pease, Wainwright, Beckett, Iyadurai, Harris, Donnelly, Roberts and Carlton2021). These interventions will relate to varying degrees across HCW disciplines.

Limitations

There are several limitations of this study. It’s cross-sectional nature precludes causality from being determined. However, it is consistent with other literature and, indeed, emerging longitudinal data from NI, highlighting elevated baseline levels of distress and heightened risk from frontline exposure. Furthermore, given our online survey methodology, there is also the potential for self-selection bias, which risks inflating the problems that actually exist in real world terms. Our sample constituted 10% of the overall workforce and it is possible that those who elected to participate were motivated by a willingness to report on their mental health experiences. However this limitation may be partially offset by the following observations: a 10% response rate compares relatively favourably with other studies on this topic (Jordan et al. Reference Jordan, Shannon, Brown, Carroll, Maguire, Kerrigan, Hannan, McCarthy, Tully, Mulholland and Dyer2021; Hyland et al. Reference Hyland, Shevlin, McBride, Murphy, Karatzias, Bentall, Martinez and Vallières2020); our outcomes appear consistent with the related literature from neighbouring and distant jurisdictions (Lai et al. Reference Lai, Ma, Wang, Cai, Hu, Wei, Wu, Du, Chen, Li, Tan, Kang, Yao, Huang, Wang, Wang, Liu and Hu2020; Jordan et al. Reference Jordan, Shannon, Brown, Carroll, Maguire, Kerrigan, Hannan, McCarthy, Tully, Mulholland and Dyer2021; Hyland et al. Reference Hyland, Shevlin, McBride, Murphy, Karatzias, Bentall, Martinez and Vallières2020); and our sample’s gender ratio appears broadly in line with that of the overall health service. Nonetheless it would remain prudent to interpret this study’s findings with caution.

Conclusions

Similar to other jurisdictions, Irish HCWs appear to also endorse relatively high levels of mental health symptomatology during the COVID-19 pandemic. This study’s findings are comparable to other surveys on HCWs in Ireland, the UK and elsewhere, with approximately one-in-three survey respondents endorsing clinically significant levels of depressed mood, anxiety and/or PTSD symptoms. Risk factors for these mental health outcomes include increased frontline exposure, fewer career years’ experience, elevated pre-pandemic stress, female gender, and working in the nursing profession. This study joins many others in the related literature signalling a need for health services to address these issues to protect it’s staff, optimise health service delivery and ensure quality patient care.

Supplementary material

To view supplementary material for this article, please visit https://doi.org/10.1017/ipm.2023.1

Acknowledgements

The authors wish to acknowledge all of the healthcare staff across these five hospital sites, whether they participated in this survey or not, for all of their hard work, commitment and care provision during the additionally challenging times precipitated by the COVID-19 pandemic.

Financial support

This research received no specific grant from any funding agency, commercial or not-for-profit sectors.

Conflict of interest

None.

Ethical standards

The authors assert that all procedures contributing to this work comply with the ethical standards of the relevant national and institutional committee on human experimentation with the Helsinki Declaration of 1975, as revised in 2008. The study was approved by the National Research Ethic Committee (20-NREC-COV-085) in August 2020.

References

Ali, S, Maguire, S, Marks, E, Doyle, M, Sheehy, C (2020). Psychological impact of the COVID-19 pandemic on healthcare workers at acute hospital settings in the South-East of Ireland: an observational cohort multicentre study. BMJ Open 10, e042930.CrossRefGoogle ScholarPubMed
Awano, N, Oyama, N, Akiyama, K, Inomata, M, Kuse, N, Tone, M, Takada, K, Muto, Y, Fujimoto, K, Akagi, Y, Mawatari, M, Ueda, A, Kawakami, J, Komatsu, J, Izumo, T (2020). Anxiety, depression, and resilience of healthcare workers in Japan during the coronavirus disease 2019 outbreak. Internal Medicine 59, 26932699. DOI 10.2169/internalmedicine.5694-20.CrossRefGoogle ScholarPubMed
Babore, A, Lombardi, L, Viceconti, ML, Pignataro, S, Marino, V, Crudele, M, Candelori, C, Bramanti, SM, Trumello, C (2020). Psychological effects of the COVID-2019 pandemic: perceived stress and coping strategies among healthcare professionals. Psychiatry Research 293, 113366. DOI 10.1016/j.psychres.2020.113366.CrossRefGoogle ScholarPubMed
Bell, V, Wade, D (2021). Mental health of clinical staff working in high-risk epidemic and pandemic health emergencies a rapid review of the evidence and living meta-analysis. Social Psychiatry and Psychiatric Epidemiology 56, 111. DOI 10.1007/s00127-020-01990-x.CrossRefGoogle ScholarPubMed
Brady, C, Fenton, C, Loughran, O, Hayes, B, Hennessy, M, Higgins, A, McLoughlin, DM (2022). Dublin hospital workers’ mental health during the peak of Ireland’s COVID-19 pandemic. Irish Journal of Medical Science, 110. DOI 10.1007/s11845-022-03056-0.Google ScholarPubMed
Carver, CS (1998). Resilience and thriving: issues, models, and linkages. Journal of Social Issues 54, 245266. DOI 10.1111/j.1540-4560.1998.tb01217.x.CrossRefGoogle Scholar
Chmitorz, A, Wenzel, M, Stieglitz, RD, Kunzler, A, Bagusat, C, Helmreich, I, Gerlicher, A, Kampa, M, Kubiak, T, Kalisch, R, Lieb, K, Tüscher, O, Tran, US (2018). Population-based validation of a German version of the Brief Resilience Scale. PLoS ONE 13, e0192761. DOI 10.1371/journal.pone.0192761.CrossRefGoogle Scholar
Cloitre, M, Shevlin, M, Brewin, CR, Bisson, JI, Roberts, NP, Maercker, A, Karatzias, T, Hyland, P (2018). The International Trauma Questionnaire: development of a self-report measure of ICD-11 PTSD and complex PTSD. Acta Psychiatrica Scandinavica 138, 536546.CrossRefGoogle ScholarPubMed
Coelho, GLD, Hanel, PHP, Cavalcanti, TM, Rezende, AT, Gouveia, VV (2016). Brief Resilience Scale: testing its factorial structure and invariance in Brazil. Universitas Psychologica 15, 12.Google Scholar
Colville, GA, Smith, JG, Brierley, J, Citron, K, Nguru, NM, Shaunak, PD, Tam, O, Perkins-Porras, L (2017). Coping with staff burnout and work-related posttraumatic stress in intensive care. Pediatric Critical Care Medicine 18, e267e273. DOI 10.1097/PCC.0000000000001179.CrossRefGoogle ScholarPubMed
Creamer, M, Bell, R, Failla, S (2003). Psychometric properties of the Impact of Event Scale - revised. Behaviour Research and Therapy 41, 14891496. DOI 10.1016/j.brat.2003.07.010.CrossRefGoogle ScholarPubMed
Croghan, IT, Chesak, SS, Adusumalli, J, Fischer, KM, Beck, EW, Patel, SR, Ghosh, K, Schroeder, DR, Bhagra, A (2021). Stress, resilience, and coping of healthcare workers during the COVID-19 pandemic. Journal of Primary Care & Community Health 12, 21501327211008448. DOI 10.1177/21501327211008448.CrossRefGoogle ScholarPubMed
Daniels, J, Ingram, J, Pease, A, Wainwright, E, Beckett, K, Iyadurai, L, Harris, S, Donnelly, O, Roberts, T, Carlton, E (2021). The covid-19 clinician cohort (Cocco) study: empirically grounded recommendations for forward-facing psychological care of frontline doctors. International Journal of Environmental Research and Public Health 18, 9675. DOI 10.3390/ijerph18189675.CrossRefGoogle ScholarPubMed
Dixon, BG, Corridoni, G, Smith, BW (2015). Examination of construct validity of the brief resilience scale in a mixed cancer group. Psycho-Oncology 24, 100.Google Scholar
Foley, SJ, O’Loughlin, A, Creedon, J (2020). Early experiences of radiographers in Ireland during the COVID-19 crisis. Insights Imaging 11, 104. DOI 10.1186/s13244-020-00910-6.CrossRefGoogle ScholarPubMed
Fung, SF (2020). Validity of the Brief Resilience Scale and Brief Resilient Coping Scale in a Chinese sample. International Journal of Environmental Research and Public Health 17, 1265. DOI 10.3390/ijerph17041265.CrossRefGoogle Scholar
Health Service Executive (HSE) Engaging Health Staff. An Action Plan 2019-2021: In Response to the Staff Survey 2018 (https://www.hse.ie/eng/staff/staff-engagement/resources/engaging-health-staff-an-action-plan-2019-2021.pdf). Accessed December 2021.Google Scholar
Health Service Executive (HSE) National Reports. Workforce Reports. Health Service Personnel Census Oct 2021 (https://www.hse.ie/eng/staff/resources/our-workforce/workforce-reporting/health-service-personnel-census-oct-2021.pdf). Accessed December 2021.Google Scholar
Health Service Executive COVID-19 Daily Operations Update Acute Hospitals. Performance Management and Improvement Unit (https://www.hse.ie/eng/services/news/newsfeatures/covid19-updates/covid19-daily-operations-update-2000-30-september-2020.pdf). Accessed 12 December 2021.Google Scholar
Hidalgo-Rasmussen, CA, Gonzalez-Betanzos, F (2019). The treatment of acquiescence and the factorial structure of the Brief Resilience Scale (BRS) in Mexican and Chilean university students. Anales De Psicologia 35, 2632. DOI 10.6018/analesps.35.1.297781.CrossRefGoogle Scholar
Hyland, P, Shevlin, M, McBride, O, Murphy, J, Karatzias, T, Bentall, R, Martinez, A, Vallières, F (2020). Anxiety and depression in the Republic of Ireland during the COVID-19 pandemic. Acta Psychiatrica Scandinavica 142, 249256 DOI 10.1111/acps.13219.CrossRefGoogle ScholarPubMed
Jordan, JA, Shannon, C, Brown, D, Carroll, E, Maguire, J, Kerrigan, K, Hannan, S, McCarthy, T, Tully, MA, Mulholland, C, Dyer, KFW (2021). COVID-19 Staff Wellbeing Survey: longitudinal survey of psychological well-being among health and social care staff in Northern Ireland during the COVID-19 pandemic. BJPsych Open 7, 16. DOI 10.1192/bjo.2021.988.CrossRefGoogle ScholarPubMed
Kroenke, K, Spitzer, RL, Williams, JBW (2001). Validity of a brief depression severity measure. Journal of General Internal Medicine 16, 606613.CrossRefGoogle ScholarPubMed
Kunzler, AM, Chmitorz, A, Bagusat, C, Kaluza, AJ, Hoffmann, I, Schäfer, M, Quiring, O, Rigotti, T, Kalisch, R, Tüscher, O, Franke, AG, van Dick, R, Lieb, K (2018). Construct validity and population-based norms of the German Brief Resilience Scale (BRS). European Journal of Health Psychology 25, 107117. DOI 10.1027/2512-8442/a000016.CrossRefGoogle ScholarPubMed
Lai, J, Ma, S, Wang, Y, Cai, Z, Hu, J, Wei, N, Wu, J, Du, H, Chen, T, Li, R, Tan, H, Kang, L, Yao, L, Huang, M, Wang, H, Wang, G, Liu, Z, Hu, S (2020). Factors associated with mental health outcomes among health care workers exposed to coronavirus disease 2019. JAMA Netw Open 3, e203976. DOI 10.1001/jamanetworkopen.2020.3976.CrossRefGoogle ScholarPubMed
Lamb, D, Gnanapragasam, S, Greenberg, N, Bhundia, R, Carr, E, Hotopf, M, et al. (2021). Psychosocial impact of the COVID-19 pandemic on 4378 UK healthcare workers and ancillary staff: initial baseline data from a cohort study collected during the first wave of the pandemic. Occupational and Environmental Medicine 78, 801808. DOI 10.1136/oemed-2020-107276.CrossRefGoogle ScholarPubMed
Lang, AJ, Stein, MB (2005). An abbreviated PTSD checklist for use as a screening instrument in primary care. Behaviour Research and Therapy 43, 585594. DOI 10.1016/j.brat.2004.04.005.CrossRefGoogle ScholarPubMed
Marvaldi, M, Mallet, J, Dubertret, C, Moro, MR, Guessoum, SB (2021). Anxiety, depression, trauma-related, and sleep disorders among healthcare workers during the COVID-19 pandemic: a systematic review and meta-analysis. Neuroscience & Biobehavioral Reviews 126, 252264. DOI 10.1016/j.neubiorev.2021.03.024.CrossRefGoogle ScholarPubMed
Mcloughlin, C, Abdalla, A, O’Callaghan, AK, Casey, S, Barrett, E (2022). The impact of COVID-19 on burnout, psychological well-being, and work satisfaction in psychiatry trainees in Ireland. Acad Psychiatry 19, 19. DOI 10.1007/s40596-022-01633-0.Google Scholar
Morina, N, Ehring, T, Priebe, S (2013). Diagnostic utility of the impact of event scale-revised in two samples of survivors of war. PLoS One 8, e83916. DOI 10.1371/journal.pone.0083916.CrossRefGoogle ScholarPubMed
Mutambudzi, M, Niedzwiedz, C, Macdonald, EB, Leyland, A, Mair, F, Anderson, J, et al. (2020). Occupation and risk of severe COVID-19: prospective cohort study of 120 075 UK Biobank participants. Occupational and Environmental Medicine 78, 307314. DOI 10.1136/oemed-2020-106731.CrossRefGoogle ScholarPubMed
Nguyen, LH, Drew, DA, Graham, MS, Joshi, AD, Guo, CG, Ma, W, et al. (2020). Risk of COVID-19 among front-line health-care workers and the general community: a prospective cohort study. The Lancet Public Health 5, e475e483.CrossRefGoogle ScholarPubMed
O’Driscoll, M, Ribeiro Dos Santos, G, Wang, L, Cummings, DAT, Azman, S, Paireau, J, Fontanet, A, Cauchemez, S, Salje, H (2021). Age-specific mortality and immunity patterns of SARS-CoV-2. Nature 590, 140145. DOI 10.1038/s41586-020-2918-0.CrossRefGoogle ScholarPubMed
Pappa, S, Ntella, V, Giannakas, T, Giannakoulis, VG, Papoutsi, E, Katsaounou, P (2020). Prevalence of depression, anxiety, and insomnia among healthcare workers during the COVID-19 pandemic: a systematic review and meta-analysis. Brain, Behavior, and Immunity 88, 901907. DOI 10.1016/j.bbi.2020.05.026. Erratum in: Brain, Behavior, and Immunity 2021;92:247.CrossRefGoogle ScholarPubMed
Rodriguez-Rey, R, Alonso-Tapia, J, Hernansaiz-Garrido, H (2016). Reliability and validity of the Brief Resilience Scale (BRS) Spanish version. Psychological Assessment 28, E101E110. DOI 10.1037/pas0000191.CrossRefGoogle ScholarPubMed
Rotenstein, LS, Melnick, ER, Sinsky, CA (2022). A learning health system agenda for organizational approaches to enhancing occupational well-being among clinicians. JAMA 327, 20792080. DOI 10.1001/jama.2022.7461.CrossRefGoogle ScholarPubMed
Ruiz-Fernández, MD, Ramos-Pichardo, JD, Ibáñez-Masero, O, Cabrera-Troya, J, Carmona-Rega, MI, Ortega-Galán, Á.M (2020). Compassion fatigue, burnout, compassion satisfaction and perceived stress in healthcare professionals during the COVID-19 health crisis in Spain. Journal of Clinical Nursing 29, 43214330. DOI 10.1111/jocn.15469.CrossRefGoogle ScholarPubMed
Shevlin, M, McBride, O, Murphy, J, Miller, JG, Hartman, TK, Levita, L, Mason, L, Martinez, AP, McKay, R, Stocks, TVA, Bennett, KM, Hyland, P, Karatzias, T, Bentall, RP (2020). Anxiety, depression, traumatic stress and COVID-19-related anxiety in the UK general population during the COVID-19 pandemic. BJPsych Open 6, e125. DOI 10.1192/bjo.2020.109.CrossRefGoogle ScholarPubMed
Smith, BW, Dalen, J, Wiggins, K, Tooley, E, Christopher, P, Bernard, J (2008). The brief resilience scale: assessing the ability to bounce back. International Journal of Behavioral Medicine 15, 194200. DOI 10.1080/10705500802222972.CrossRefGoogle ScholarPubMed
Smith, BW, Epstein, EE, Oritz, JA, Christopher, PK, Tooley, EM (2013). The Foundations of Resilience: What are the critical resources for bouncing back from stress? In Resilience in children, adolescents, and adults: Translating research into practice, The Springer series on human exceptionality (eds. Prince-Embury, S and Saklofske, DH), pp. 167187. Springer: New York, NY.CrossRefGoogle Scholar
Soer, R, Dijkstra, M, Bieleman, H, Stewart, RE, Reneman, MF, Oosterveld, FGJ, Schreurs, KMG (2019). Measurement properties and implications of the Brief Resilience Scale in healthy workers. Journal of Occupational Health 61, 242250. DOI 10.1002/1348-9585.12041.CrossRefGoogle ScholarPubMed
Son, HS, Kim, K, Cho, I-K, Lee, J, Choi, JM, Kil, KH, Kim, J, Hong, Y, Ahn, MH, Chung, S (2022). Healthcare workers’ resilience mediates the influence of organizational commitment and anxiety response to viral epidemic on their quality of life in the COVID-19 pandemic. Frontiers in Psychiatry 12, 735016. DOI 10.3389/fpsyt.2021.735016.CrossRefGoogle ScholarPubMed
Spitzer, RL, Kroenke, K, Williams, JBW, Löwe, B (2006). A brief measure for assessing generalised anxiety disorder: the GAD-7. Archives of Internal Medicine 166, 10921097.CrossRefGoogle ScholarPubMed
Tansey, TN, Kaya, C, Moser, E, Eagle, D, Dutta, A, Chan, F (2016). Psychometric validation of the Brief Resilience Scale in a sample of vocational rehabilitation consumers. Rehabilitation Counseling Bulletin 59, 108111. DOI 10.1177/0034355215573539.CrossRefGoogle Scholar
Torjesen, I (2020). Covid-19: doctors need proper mental health support, says BMA. BMJ 369, m2192. DOI 10.1136/bmj.m2192.CrossRefGoogle ScholarPubMed
Vallières, F, Murphy, J, McBride, O, Shevlin, M, Gilmore, B, Travers, Á, Nolan, A, Butter, S, Karatzias, T, Bentall, R, Hyland, P (2022). The role of psychosocial factors in explaining sex differences in major depression and generalized anxiety during the COVID-19 pandemic. BMC Public Health 22, 1563. DOI 10.1186/s12889-022-13954-8.CrossRefGoogle ScholarPubMed
Verity, R, Okell, LC, Dorigatti, I, Winskill, P, Whittaker, C, Imai, N, et al. (2020). Estimates of the severity of coronavirus disease 2019: a model-based analysis. Lancet Infectious Diseases 20, 669677. DOI 10.1016/S1473-3099(20)30243-7.CrossRefGoogle ScholarPubMed
Weiss, DS, Marmar, CR (1996). The impact of event scale - revised. In Assessing Psychological Trauma and PTSD (ed. Wilson, JKT), pp. 399411. The Guilford Press: New York.Google Scholar
World Health Organization (2020a). Novel Coronavirus (2019-nCoV): situation report, 11. World Health Organization (https://apps.who.int/iris/handle/10665/330776). Accessed April 2021.Google Scholar
World Health Organization (2020b). Coronavirus disease 2019 (COVID-19): situation report, 51. World Health Organization (https://apps.who.int/iris/handle/10665/331475). Accessed April 2021.Google Scholar
Zhang, YL, Liang, W, Chen, ZM, Zhang, HM, Zhang, JH, Weng, XQ, et al. (2013). Validity and reliability of Patient Health Questionnaire-9 and Patient Health Questionnaire-2 to screen for depression among college students in China. Asia-Pacific Psychiatry 5, 268275. DOI 10.1111/appy.12103.CrossRefGoogle ScholarPubMed
Figure 0

Table 1. Severity categories of depression, anxiety, traumatic distress and resilience measurements in total cohort and subgroups

Figure 1

Table 2. Variables associated with mental health outcomes

Figure 2

Table 3. Demographic and occupational characteristics of responders

Supplementary material: File

Lowry et al. supplementary material

Lowry et al. supplementary material

Download Lowry et al. supplementary material(File)
File 1.6 MB