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Psychological distress during the acceleration phase of the COVID-19 pandemic: a survey of doctors practising in emergency medicine, anaesthesia and intensive care medicine in the UK and Ireland
  1. Tom Roberts1,2,
  2. Jo Daniels3,
  3. William Hulme4,
  4. Robert Hirst5,
  5. Daniel Horner1,6,
  6. Mark D Lyttle2,7,
  7. Katie Samuel8,
  8. Blair Graham9,10,
  9. Charlie Reynard11,
  10. Michael Barrett12,13,
  11. James Foley14,
  12. John Cronin15,16,
  13. Etimbuk Umana17,
  14. Joao Vinagre18,
  15. Edward Carlton19,20
  16. on Behalf of the collaborators of TERN, RAFT, PERUKI, ITERN, TRIC, and SATARN
    1. 1TERN, Royal College of Emergency Medicine, London, UK
    2. 2Emergency Department, Bristol Royal Hospital for Children, Bristol, UK
    3. 3Department of Psychology, University of Bath, Bath, Somerset, UK
    4. 4Statistical Consultant, Oxford, UK
    5. 5Department of Anaesthesia, North Bristol NHS Trust, Bristol, UK
    6. 6Department of Intensive Care and Emergency Department, Salford Royal NHS Foundation Trust, Salford, UK
    7. 7UWE Faculty of Health and Applied Sciences, Bristol, UK
    8. 8Department of Anaesthesia, North Bristol NHS Trust, Westbury on Trym, Bristol, UK
    9. 9Faculty of Health and Human Sciences, University of Plymouth Faculty of Health and Human Sciences, Plymouth, UK
    10. 10Emergency Department, Derriford Hospital, Plymouth, UK
    11. 11Division of Cardiovascular Sciences, University of Manchester, Manchester, UK
    12. 12Department of Emergency Medicine, Our Lady's Children's Hospital, Dublin, Ireland
    13. 13Department of Women’s and Children’s Health, University College Dublin, Dublin, Ireland
    14. 14Department of Emergency Medicine, University Hospital Waterford, Waterford, Ireland
    15. 15Department of Emergency Medicine, St Vincents University Hospital, Dublin, Ireland
    16. 16Department of Women's and Children's Health, University College Dublin School of Medicine, Dublin, Ireland
    17. 17Emergency Department, Connolly Hospital Blanchardstown, Blanchardstown, Dublin, Ireland
    18. 18College of Anaesthesiologists of Ireland, Dublin, Ireland
    19. 19Emergency Department, North Bristol NHS Trust, Westbury on Trym, UK
    20. 20School of Health and Social Care, University of the West of England Bristol, Bristol, UK
    1. Correspondence to Dr Tom Roberts, Royal College of Emergency Medicine, London, UK; tomkieranroberts{at}gmail.com

    Abstract

    Objective To quantify psychological distress experienced by emergency, anaesthetic and intensive care doctors during the acceleration phase of COVID-19 in the UK and Ireland.

    Methods Initial cross-sectional electronic survey distributed during acceleration phase of the first pandemic wave of COVID-19 in the UK and Ireland (UK: 18 March 2020–26 March 2020 and Ireland: 25 March 2020–2 April 2020). Surveys were distributed via established specialty research networks, within a three-part longitudinal study. Participants were doctors working in emergency, anaesthetic and intensive medicine during the first pandemic wave of COVID-19 in acute hospitals across the UK and Ireland. Primary outcome measures were the General Health Questionnaire-12 (GHQ-12). Additional questions examined personal and professional characteristics, experiences of COVID-19 to date, risk to self and others and self-reported perceptions of health and well-being.

    Results 5440 responses were obtained, 54.3% (n=2955) from emergency medicine and 36.9% (n=2005) from anaesthetics. All levels of doctor seniority were represented. For the primary outcome of GHQ-12 score, 44.2% (n=2405) of respondents scored >3, meeting the criteria for psychological distress. 57.3% (n=3045) had never previously provided clinical care during an infectious disease outbreak but over half of respondents felt somewhat prepared (48.6%, n=2653) or very prepared (7.6%, n=416) to provide clinical care to patients with COVID-19. However, 81.1% (n=4414) either agreed (31.1%, n=2709) or strongly agreed (31.1%, n=1705) that their personal health was at risk due to their clinical role.

    Conclusions Findings indicate that during the acceleration phase of the COVID-19 pandemic, almost half of frontline doctors working in acute care reported psychological distress as measured by the GHQ-12. Findings from this study should inform strategies to optimise preparedness and explore modifiable factors associated with increased psychological distress in the short and long term.

    Trial registration number ISRCTN10666798.

    • psychology
    • psychology
    • staff support
    • intensive care
    • anaesthesia
    • emergency departments

    Data availability statement

    Data may be obtained from a third party and are not publicly available. Data are available on request to chief investigator. All reasonable requests will be considered and provided as deidentified data.

    This article is made freely available for use in accordance with BMJ’s website terms and conditions for the duration of the covid-19 pandemic or until otherwise determined by BMJ. You may use, download and print the article for any lawful, non-commercial purpose (including text and data mining) provided that all copyright notices and trade marks are retained.

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    Key messages

    What is already known on this subject

    • The COVID-19 outbreak has already placed exceptional demand on healthcare systems globally and is likely to continue to do so for the foreseeable future.

    • Emergency and critical care doctors are responsible for the management of severely unwell patients with COVID-19. These doctors may be vulnerable to suffering recognised negative psychological effects associated with infectious disease outbreaks, including absenteeism, impaired occupational performance and long-term health conditions.

    What this study adds

    • This paper presents key findings from the first phase of a cross-sectional longitudinal survey of practising emergency, anaesthetic and intensive care doctors in UK and Ireland during the acceleration phase of the first wave of the COVID-19 pandemic.

    • The findings report a rate of psychological distress in responders of 44.2%. This work clarifies the extent and severity of cross specialty psychological impact during the early phase of a pandemic.

    • These results could be used as a comparison for other studies analysing the psychological impact of infectious disease outbreaks at different timepoints or different regions.

    Introduction

    On 30 January 2020, the WHO declared COVID-19 a Public Health Emergency of International Concern. Following subsequent acknowledgement of disease severity, COVID-19 was declared a global pandemic on 11 March 2020.1 Clinical studies have consistently demonstrated high acuity among hospitalised patients, with approximately 17% requiring intensive care.2 In addition, high infection rates have been registered in frontline clinicians, with over 106 fatalities reported in UK NHS healthcare workers by 12 April 20203 and over 550 000 global deaths reported by July 2020.4

    The rapidity, scale and severity of the pandemic has placed exceptional demands on acute care globally, and this workforce has faced unprecedented burden in workload intensity and personal health risk. Such demands are likely to impact on psychological well-being, including an increased risk of traumatic stress in both the acute phase and at long-term follow-up.5–8 Elevated psychological distress has significant consequences for health workers; increased sickness rates, absenteeism, impaired performance at work and the development of physical health problems are common examples.9–11 However, studies to date that have focused on the disaster or infectious disease setting have been conducted during peak or following the occurrence of infectious outbreaks, making meaningful comparison with prepeak incidence very difficult. In the wider literature, the reported prevalence of distress during pre-COVID-19 times has been reported as 28.5% in intensive care unit (ICU) doctors (n=627) and 44.4% emergency medicine (EM) consultants (n=350).12 13

    Establishing the prevalence of psychological distress, and the associated personal and professional factors, is essential to ensure adequate provision of support and mitigation of adverse effects. Several factors may be associated with poorer psychological outcomes, but these need to be established as relevant in the context of the COVID-19 pandemic.5 14–17 Prospective longitudinal studies are needed to more fully assess the definitive impact of this major outbreak on psychological well-being.18

    The COVID-19 Emergency Response Assessment (CERA) study is a three-part longitudinal study, designed to enhance our understanding of the impact of such events on the workforce and underpin the development of policy and interventions to meet the needs of those affected.19 The primary aim of this CERA phase 1 study is to quantify the degree of psychological distress in EM, anaesthesia and intensive care medicine (ICM) doctors in the acceleration phase of the first wave of the COVID-19 pandemic in the UK and Ireland. The secondary aim is to provide a descriptive synthesis of baseline personal and professional characteristics commonly associated with poorer outcomes related to psychological distress and trauma.

    Materials and methods

    A quantitative online cross-sectional survey of acute care doctors practising EM, anaesthesia or ICM in the UK and Ireland. This was the first part of a longitudinal survey to be distributed at preplanned phases aligned to the Centers for Disease Control and Prevention pandemic model: (1) the acceleration phase, (2) the pandemic peak and (3) the deceleration/recovery phase of the initial COVID-19 pandemic wave in the UK and Ireland.20 Data were gathered in the acceleration phase between 18 and 28 March 2020 in the UK, and 25 March–4 April 2020 in Ireland. Results are presented in accordance with the Checklist for Reporting Results of Internet E-Surveys (CHERRIES).21 The protocol for the full three phase longitudinal study is published and available from http://dx.doi.org/10.1136/bmjopen-2020-039851.22 The study was prospectively registered on an open access platform (https://doi.org/10.1186/ISRCTN10666798).

    Participants and procedure

    Doctors of all grades working in EM, anaesthesia or ICM were invited to participate in the study. Responses excluded from analysis included those from other healthcare professional groups and doctors working outside of EM, anaesthesia and ICM, and doctors working in hospitals based outside of the UK or Ireland. Participants were invited through a multispecialty collaboration of established UK and Irish acute care research networks, led by the Trainee Emergency Research Network (TERN). These include Research and Audit Federation of Trainees (RAFT), Paediatric Emergency Research in the UK and Ireland, Trainee Research in Intensive Care, Irish Trainee Emergency Research Network and Irish Specialist Anaesthesiology Trainee Audit & Research Network. The survey participation link was not shared on wider social media platforms in order to mitigate against duplicate completion and completion by respondents not meeting prespecified inclusion criteria. Access to the survey link was distributed directly to individual participants in each department or hospital by members of the above research networks working within the same department or hospital. This was achieved using established communication links within departments and hospital. To supplement this strategy, RAFT emailed members directly. All participants provided informed electronic consent prior to beginning the survey.

    The survey was administered via the Research Electronic Data Capture (REDCap) online platform.23 24 REDCap is fully compliant with Good Clinical Practice, GDPR and 20 ISO 27001. Data were held securely on secure online server hosted by the University Hospitals Bristol and Weston NHS Foundation Trust, UK. Participants were identifiable through their email address, but these data were only available to the chief investigator (TR), and data extracted for analysis were anonymised. Participants could exit the survey at any time if they no longer wished to participate. In this event, data from questions already completed were included for analysis, in line with consent. The recruitment process is detailed further in the protocol.22

    Measures

    The General Health Questionnaire-12 (GHQ-12) is a brief, 12 item self-report measure devised to screen for psychological distress in the general population.25 It has high specificity and sensitivity, with reliability demonstrated across a range of cultures and populations26 27 and has been used in similar studies measuring psychological impact of infectious outbreaks. The GHQ-12 was chosen due to its brevity and suitability for time-poor medical staff.5 14 The measure assesses current state (rather than long-standing attributes) and asks participants to compare with their own baseline.

    Data were also collected on personal and professional factors commonly associated with psychological distress in medical or disaster settings,5 14–17 derived from a literature review and iterative discussion within the study steering group. Items were included where relevance has previously been established and replicated (eg, factors commonly associated with psychological distress) or where relevance was justified in the context of the current pandemic. Final inclusion was by consensus, underpinned by a requirement for the survey to be sufficiently brief to encourage full and repeated completion (see online supplemental material for a full report of included items, minus the GHQ-12, which has been removed for copyright reasons).

    Ethical and regulatory approvals

    Regulatory approval was provided by the UK Health Research Authority (ref 218944).

    Analysis

    Individual study records were checked and validated by the study chief investigator (TR) and statistician (WH) at survey completion; data were excluded in the event of duplicate entry (by email address), absence of consent or non-completion of a predetermined minimum required dataset for analysis (completion of GHQ-12, grade, department and hospital). Descriptive statistics relating to personal and professional characteristics are presented overall and by department and geographic region.

    GHQ-12 scores will be presented using two validated methods.26 The first (bimodal) method is used to identify a clinical cut-off for psychological distress; the second method (Likert-type) is more sensitive to change in psychological distress over time and is most suitable for comparison between different time points. In the bimodal method, item responses are assigned to the values 0, 0, 1 and 1 (from the most positive to the most negative sentiment) and summed to form an aggregate score from zero (least distressed) to 12 (most distressed). A score of more than 3 is indicative of psychological distress.26 The Likert-type 0-1-2-3 method is also presented. This forms an aggregate score from 0 (least distressed) to 36 (most distressed). This method is more sensitive to changes within individuals over time and was included for consistency with subsequent longitudinal analyses using survey data from phases 2 and 3. Distribution of GHQ-12 aggregate scores were described using quartiles, and comparisons between different personal and professional characteristics were made. A descriptive synthesis was used to summarise key findings in relation to the personal and professional characteristics.

    All analyses and statistical outputs were produced using the statistical programming language R V.3.6.3.28 Analysis scripts for this study are available on a GitHub repository: https://github.com/wjchulme/TERN-CERA-study.

    Patient and public involvement

    The research team is primarily made up of frontline doctors from all represented specialties who undertook clinical work throughout the first wave of the COVID-19 pandemic on the frontline.

    Results

    Enrolment is summarised in figure 1. The online survey link was accessed 8111 times, of which 5440 (67%) were suitable for analysis. This represents 15.9% of an estimated 34 188 doctors working across EM (11 843), anaesthetics (20 556) and ICU (1789) in the UK and Ireland (data as per a freedom of information request to the General Medical Council UK and declared numbers by Ireland site leads). The GHQ-12 completion rate was 95.9% (n=5218/5440) of participants eligible for analysis. Online supplemental material outlines the adherence to the CHERRIES checklist.

    Figure 1

    CERA analysis flow chart. CERA, COVID-19 Emergency Response Assessment.

    Sample characteristics

    Demographics of the study population are summarised in table 1 and were similar across all specialties. The median age was 31–35 years, 50.4% (n=2648) were male and 37.4% (n=2033) identified as a junior doctor grade.

    Table 1

    Demographic characteristics

    Prevalence of psychological distress

    Analysis of GHQ-12 data indicated that 44.2% (n=2405) of respondents reached study threshold for psychological distress (>3 using 0-0-1-1 method) (figure 2). This was higher in both anaesthetics (52.5%, n=1006) and ICM (50.3%, n=444) when compared with EM (41.5%, n=1178). The median aggregate GHQ-12 score (using the 0-1-2-3 method) was 13 (Q1–Q3: 10–17) (figure 3). Collated results to the individual GHQ-12 questions items are displayed in figure 4. From this visual representation, the domains of concentration, sleep, being under strain and day-to-day enjoyment of activities were negatively affected. The highest median GHQ-12 score by grade and department was 15 (Q1–Q3: 11–18) in ‘other senior doctors’ working in anaesthetics, compared with the lowest median score of 13 (Q1–Q3: 10–16) found in all four grade cohorts working in EM (figure 5). The GHQ-12 was found to have good internal consistency in this population (Cronbach’s alpha=0.846 (95% CI 0.838 to 0.853). GHQ-12 bar charts are available for all items in online supplemental material.

    Figure 2

    GHQ-12 score (0-0-1-1) distribution. GHQ12, General Health Questionnaire-12.

    Figure 3

    GHQ-12 score (0-1-2-3) distribution. GHQ-12, General Health Questionnaire-12

    Figure 4

    Responses to each individual item of the GHQ-12 (n=5177). GHQ-12, General Health Questionnaire-12.

    Figure 5

    Distribution of GHQ-12 score by seniority and department. GHQ-12, General Health Questionnaire-12.

    Professional characteristics

    Professional characteristics are summarised in table 2, with data on all items provided in the online supplementary material. Over half (57.3%, n=3045) reported no prior experience of providing care during infectious disease outbreaks. Although 39.5% (n=2073) reported having no education regarding the clinical care of patients with suspected COVID-19, 48.6% (n=2643) felt ‘somewhat prepared’ to do so. A total of 56.2% (n=3058) of respondents reported zero (21%) or low (1–5 cases; 35.2%) direct clinical contact with suspected COVID-19 cases. Only 9.3% (n=506) of participants were redeployed to other clinical areas, 73.7% (n=373) of those redeployed were from anaesthetics and the majority of all those redeployed (70.9% (n=359)) were redeployed to ICM. For those doctors redeployed to another clinical area, the median GHQ-12 was 14 (Q1–Q3: 11–18) compared with 13 (Q1–Q3: 10–17) in those not redeployed (figure 6). The location of redeployment did not make a substantial difference to median GHQ-12 scores (online supplemental material).

    Table 2

    Professional factors

    Figure 6

    GHQ-12 and redeployed. GHQ-12, General Health Questionnaire-12.

    Provision of training for the use of personal and protective equipment (PPE) was variable (table 3). A per centage of 8.2 (n=433) did not receive training in donning and doffing, 17.1% (n=903) had not received formal fit testing for masks and 22.1% (n=1163) had not received PPE training for aerosol generating procedure. The modality of training was variable, with local departmental guidance the most common form of training. In relation to confidence in infection control, 30.4% reported feeling somewhat not confident (21.9%. n=1193) or not confident at all (8.5%, n=461) in their infection control training.

    Table 3

    PPE training

    Participants reported highly variable use of information sources for COVID-19 related policy and clinical updates (figure 7). Government and institutional guidelines were the medium most frequently checked on a daily basis (online supplementary material). Social media was checked hourly by 16.3% (n=885) of respondents, while 12.8% (n=699) did not access this at all; no other source was characterised by interaction of this frequency. Online blogs and podcasts were checked less frequently; 17.7% (n=962) checked these daily, and 21.8% (n=1186) never used these sources.

    Figure 7

    Frequency of accessing information source for clinical updates.

    Personal factors

    Personal characteristics are summarised in table 4, with data on all items provided in the online supplementary material. Of respondents who reported a physical health condition (42.0%, n=2284), 59.4% (n=1357) thought that COVID-19 could worsen their pre-existing condition. Of those with a pre-existing mental health condition (37% n=2028), 49.0% (n=994) felt the pandemic would exacerbate their symptoms. In the full cohort, 81.1% (n=4414) agreed or strongly agreed that their personal health was at risk during the pandemic due to their clinical role (49.8% and 31.3%, respectively). However, the greatest concern was the potential risk to families or loved ones due to their clinical role, with 35.3% (n=1921) ‘extremely worried’ and 43.4% (n=2363) ‘generally worried’.

    Table 4

    Personal factors

    Personal experience of COVID-19

    A percentage of 15.3 (n=833) needed to self-isolate by the time of this first survey, the most common reasons being personal symptoms (55.4%, n=460) and symptomatic household contacts (35.8%, n=279). Only 5.2% (n=43) of those who had to self-isolate missed more than 10 clinical shifts.

    Discussion

    In this survey of frontline doctors across the UK and Ireland, over 40% met the criteria for psychological distress, measured by the GHQ-12, during the acceleration phase. These findings are higher than normative data in ICM Doctors and similar to rates found in EM Consultants.12 13 However, comparison with previous research is limited by sample size, cohort differences and the historical nature of these studies.29 30 Figures are from early in the pandemic when clinical exposure and case fatality were low; by the end of the study period, there had been 2825 reported COVID-19 cases and 436 reported COVID-19 deaths in the UK31 and 4014 cases and 131 deaths in Ireland.32 The data collection period fell during a period of unprecedented and escalating government restrictions, culminating in a full UK lockdown on 231 and 27 March 2020 in Ireland, the effect of which cannot be fully accounted for in this work.

    Despite efforts to ensure methodological rigour, typical limitations in keeping with survey studies will apply to this study such as response bias and social desirability bias. While data have broadly been captured during the acceleration phase, substantial regional variation in COVID-19 activity was experienced during the survey period, meaning that participants’ clinical experience is likely to vary by region. Future phases will attempt to account for this regional variation.

    As data have been collected during the acceleration phase of the pandemic, these data cannot be considered a true baseline. However, our data do provide findings from an early timepoint in an infection pandemic, which will inform longitudinal studies assessing the significance of psychological impact during peak and deceleration phases. These findings broadly support the role of several previously identified key (and potentially modifiable) stressors during pandemic medicine, including lack of preparedness and training with PPE; elevated concern in relation to risk to self and others, from provision of clinical care to patients with suspected infectious illness; the potential of moral injury through perceptions of worse care provision to other disease states; and access to information and communication.5 14–17

    This study highlights a large increase in rates of distress within the ICM cohort when compared with previous work.12 Whereas in EM, the rates of distress are similar to a cohort of consultants previously studied.13 The comparisons with this research, conducted in 2002, may be limited by the significant changes of service design, delivery and pressures in the intervening years. However, with such a stark difference between the groups, the reasons underlying this should be a priority for further research.

    Findings are consistent with existing research in the field of infectious diseases and COVID-19.33–37 Despite fairly low rates of exposure and self-isolation due to physical symptoms, between half and two-thirds of respondents expressed concern that exposure to COVID-19 would worsen their pre-existing physical and mental health conditions. This is unsurprising, given the prominently reported death rates of those with existing medical conditions.38 Concern regarding infection of family and loved ones was highly prevalent and reported by over 80% of respondents, mirroring findings from a recent interview study examining the content of concerns in frontline healthcare workers.39 Further research has also indicated that having a family member with COVID-19 may be a predisposing factor to psychological distress for healthcare workers themselves.5 While concern for others and exposure to COVID-19 is unavoidable in frontline clinicians, the distress associated with it is not; psychological well-being warrants careful monitoring and intervention, in line with recommendations by the British Medical Association and British Psychological Society.40 41

    During this survey, doctors expressed concern that the care of patients without COVID-19 would be negatively impacted. Such concerns have been realised in the literature, with reported increases in out-of-hospital cardiac arrest rates and anecdotal publications on reduced and increasingly late presentations of reversible disease.42–44 This has also been observed in previous disease outbreaks, such as Ebola.45 46 The emotional impact of this is likely to result in feelings such as guilt, shame and moral injury,47 factors commonly associated with poorer psychological outcomes in the context of trauma15 and worthy of further research in this context.

    Availability of PPE to frontline clinicians during the COVID-19 outbreak has been a prominent concern internationally.48 49 However, even where PPE is available, a key driver for related psychological impact is the training, confidence and preparedness in its use. The majority of respondents received some form of training with regards to PPE at an early stage of the pandemic, but this was highly variable and sometimes entirely documentary rather than practical. Given previous literature suggests poorer psychological outcomes with limited preparedness and confidence,5 it is of note that the percentage of those respondents receiving no training for different PPE procedures, ranged from less than 10% to 22.1%.

    Previous research has indicated that accessing social media as a primary source of information can be problematic and associated with acute and post-traumatic stress, particularly when information is conflicting.35 50 While it was beyond the scope of this analysis to evaluate any such causal impact, further research should seek to assess the relative impact of social media usage in this context. Findings from any research of this nature would be of potential benefit in informing guidance on content and delivery, and end-user insight, to benefit the psychological well-being of clinicians using this source of information.

    Current research in the general population reflects our findings of increased distress in doctors. A UK study of 17 452 adults in April 2020 found the prevalence of significant distress (defined by a GHQ-12 of >4) to be 27.3% (95% CI 26.4% to 28.2%).51 This had increased from 18.8% (95% CI 17.8% to 20.0%) in the 2018–2019 cohort. While comparison with our data is limited by the higher threshold for distress, the trends identified by Pierce et al51 place our results in the context of increased distress in the general population.

    While our findings reflect that many doctors struggled with sleep, concentration and feeling strained, many also reported feeling more useful than usual. General confidence, decision making and sense of worth were reported by respondents to be either better or the same for the vast majority of respondents during the pandemic acceleration phase. Research examining resilience and post-traumatic growth in disaster settings have reported similar findings, particularly a sense of accomplishment and enhanced self-esteem.14 Despite unprecedented restrictions on individual liberty and freedom of movement, most respondents reported feeling as happy as usual or more so, all things considered. It is a positive indicator to see this early on in the pandemic. Taken together, the findings reflect what may be reasonably expected at an early point in any developing crisis; elevated psychological distress with a degree of impact on functioning.However, protective factors such as increased feelings of worth and usefulness may mitigate against the full impact of the pandemic on mental health. The extent to which a high level of support from the general public towards healthcare professionals influenced feelings of positivity of resilience is unclear and warrants further investigation.

    Conclusions

    High levels of psychological distress were present among UK and Ireland frontline EM, anaesthesia and intensive care doctors during the acceleration phase of the initial wave of the COVID-19 pandemic. These frontline staff experienced stress and strain, yet faced this with reasonable levels of confidence in preparedness, mobilisation of skills and increased self-worth. Future work will assess the degree and nature of the relationship between personal and professional factors and psychological distress within a longitudinal framework and consider implications for policy and practice.

    Data availability statement

    Data may be obtained from a third party and are not publicly available. Data are available on request to chief investigator. All reasonable requests will be considered and provided as deidentified data.

    Ethics statements

    Ethics approval

    Ethical approval was provided by the University of Bath UK - Number 4421 Children's Health at Ireland at Crumlin - REC Reference GEN/806/20.

    Acknowledgments

    The authors would like to acknowledge Mai Baquedano, at the University of Bristol, for her support with Research Electronic Data Capture and GL Assessment for providing the licence for the General Health Questionnaire-12 (GHQ-12) free of charge.

    References

    Supplementary materials

    Footnotes

    • Handling editor Katie Walker

    • Twitter @ternfellow, @hirstposition, @rcemprof, @mdlyttle, @katie_samuel_, @timecritical, @PEMDUBLIN, @timburg, @eddcarlton

    • Collaborators Trainee Emergency Research Network Collaborators: L Kane, A Hormis, L Mackenzie, R Hannah, S Sharma Hajela, A Corfield, J Phizacklea, J Maney, K Malik, D Metcalfe, N Mathai, S Timmis, A Sattout, C Williams, S Messahel, R Newport, E Fadden, D Bawden, R McQuillan, A Tabner, B O'Hare, H Malik, S Lewis, C Roe, D Bewick, D McConnell, R Taylor, F Taylor, I Hancock Manthalapo, R Ellis, D Ramesh Babu, S Morgan, S Hartshorn, L Barnicott, M Williams, S Foster, A Charlton, J Browning, L Somerset, L McCrae, C Munday, E Godden, A Turner, A Saunders, R Sainsbury, A Lawrence-Ball, E Williams, R House, S Patil, J Muller, R Stewart, I Skene, M Winstanley, M Lim, N Tambe, H Millar, C Magee, A Rai, D Raffo, K Challen, D Mawhinney, S Currie, B Taylor, M Elkanzi, T Hussan, T Perry, G Pells, W Kan, F Barham, L Brown, F Wood, M Cheema, C Szekeres, A Clarey, R Greenhalgh, A Gulati, S Marimuthu, K Webster, R Macfarlane, A Howson, M Alex, R Doonan, B Shrestha, C Magee, L Stanley, A Trimble, J Gumley, C O’Connell, K Thomas, R Wright, M Anderson, E Colley, C Weegenaar, C Rimmer, J Lockwood, S Pintus, T Mohamed, H Jarman, S Ramraj, V Worsnop, M Mackenzie, S Collins, A Robertson, M Colmar, W Niven, N Masood, M Patel, R McLatchie, S Subramaniam, A Peasley, C Holmes, S Rahman, S Bongale, N Mullen, U Bait, L Armstrong, S Nagendran, A Hay, S Rao, R Mills, F Mendes, J Lowe, P Singh, H Raybould, S Subramaniam, A Ali, T Baron, P Cuthbert, C Ponmani, A McKinney, M Depante, S Taylor, R Sneep, V Talwar, A Brookes, Z Al-Janabi, S Williams, C Leech, A Rainey, J Turner, J Brown, L McKechnie, N Marriage, B Mallon, S Manou, J McLaren, S Hart, Y Moulds, M Elsheikh, L Dunlop, L Cocker, F M Burton, M H Elwan, S Keers, K L Vincent, L Robertson, C Nunn, D Craver, N Sarja, N Moultrie, M Viegas, O Williams, S Graham, S Purvis, E Wooffinden, M Clark, C Reynard, C Davies, N Cherian, S Foreman, A Da-Costa, C Ngua, S Duckitt, J Morgan, J Bailey, N Hoskins, L How, J Fryer, T Hine, R Wright, F Ihsan, L Frost, H Abdullah, P Ellis, K Bader, A Mackay, S Pradhan, K Gray, M Manoharan, M Jacobs Musliam, L Kehler, I Veettil Asif, R Muswell, P Amiri, M Bonsano, S Shrivastava, J Evans, F Raza, E Christmas, S Wilson, K Knight, M Riyat, L O'Rourke, H Knott, K Adeboye, M Ramazany, K Iftikhar, S Langston, R Evans, N Abela, R Darke, L Robinson, R Freeman, D Maasdorp, E Grocholski, H Murphy, K Kaur, H Edmundson, H Cooper, R Das, M Mohammad, C Orjioke, L Harwood, D Worley, K Lines, W Collier, C Thomas, J Everson, D Ranasinghe, N Maleki, S Hall, A Stafford, J Wright, S Gokani, S Hall, M Charalambos, N Ali, A Olajide,J Hunt, C Bi, H Ahmad, J Ng, C Ward, S Naeem, M Khan, A Hill,K Holzman, C Boulind, J Ritchie and A Patton. Ireland Trainee Emergency Research Network Collaborators: M Jee Poh Hock, J Lynch, R O'Sullivan, S Gilmartin, S Uí Bhroin, P Fitzpatrick, A Patton, S Kukaswadia, C Prendergast, A Ahmed, C Dalla Vecchia, M Grummell, I Grossi and B MacManus. Research and Audit Federation of Trainees, Trainee Research in Intensive Care and Specialist Anaesthesia Trainee led Audit and Research Network Collaborators: K Samuel, A Boyle, A Waite, B Johnston, J Vinagre, P Turton, D George, C Battle and J Anandarajah.

    • Contributors TR conceived the idea for the study. TR, EC, JD, MDL and BG were responsible for the initial study design, which was refined with the help of KS, CR, RH, MB and WH. Expert advice on psychological assessment scores was provided by JD. WH provided the statistical plan. TR led the dissemination of the study in UK Adult Emergency Departments, MDL led the dissemination of the study in UK and Ireland paediatric EDs, KS led the dissemination of the study in UK anaesthetic and intensive care unit (ICU) Departments, MB led the dissemination of the study in Ireland EDs, along with JC, JF and EU. JV led the dissemination in Ireland ICUs and anaesthetic departments. TR coordinated study set-up, finalisation of the study surveys and finalisations of study protocols. All authors contributed to the final study design and protocol development, critically revised successive drafts of the manuscript and approved the final version. The study management group is responsible for the conduct of the study.

    • Funding The chief investigator is directly funded as a research fellow by the Royal College of Emergency Medicine. The GHQ-12 is being used under licence from GL assessment; the fee for use of this instrument within all three surveys has been waived. EC is a National Institute for Health Research Advanced Fellow. The study has direct funding from RCEM. Grant code: G/2020/1.

    • Competing interests None declared.

    • Provenance and peer review Not commissioned; externally peer reviewed.

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