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Mental Health Response to Disasters: Is There a Role for a Primary Care-Based Clinician?

Published online by Cambridge University Press:  08 September 2022

David Crompton Open the ORCID record for David Crompton [Opens in a new window] ,
Jane Shakespeare-Finch ,
Gerard FitzGerald ,
Peter Kohleis  and
Ross Young
David Crompton*
Affiliation:
Queensland University of Technology, Brisbane, Queensland, Australia Griffith University, Queensland, Australia
Jane Shakespeare-Finch
Affiliation:
Queensland University of Technology, Brisbane, Queensland, Australia
Gerard FitzGerald
Affiliation:
Queensland University of Technology, Brisbane, Queensland, Australia
Peter Kohleis
Affiliation:
Metro South Hospital and Health Service, Woolloongabba, Queensland, Australia
Ross Young
Affiliation:
Queensland University of Technology, Brisbane, Queensland, Australia Griffith University, Queensland, Australia University Sunshine Coast, Maroochydore DC, Queensland, Australia
*
Correspondence: David Crompton, OAM, MBBS, Grad Dip Soc Sci (Psych), FRANZCP, FAChAM Faculty Adult Psychiatry and Faculty Addiction Psychiatry Queensland University of Technology - Psychology and Counselling Kelvin Grove, Brisbane, Queensland 4001 Australia Griffith University – Psychology Mt Gravatt, Nathan, Queensland4111Australia E-mail: [email protected]
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Abstract

Introduction:

Following natural disasters, rural general practitioners (GPs) are expected to undertake several roles, including identifying those experiencing psychological distress and providing evidence-informed mental health care. This paper reports on a collaborative mental health program developed to support a rural GP practice (population <1,500) and a disaster response service.

Methods:

The program provided specialized disaster mental health care via the placement of a clinician in the GP facility. In collaboration with the GP practice, the program offered opportunistic screening using the Primary Care Posttraumatic Stress Disorder (PTSD) Scale (PC-PTSD) for probable PTSD as the primary measure and the Kessler 6 (K6) as a secondary measure. Those scoring higher than two on the PC-PTSD scale were referred to the mental health clinician (MHC) for further assessment and treatment.

Results:

Sixty screening assessments were completed. Fourteen patients (male = 3; female = 11) scored higher than two on the PC-PTSD. The referred group PC-PTSD mean score was 3.14 and K6 mean score of 19. Those not referred had a PC-PTSD mean score = 0.72 and K6 mean score = 7.30. The treatment and non-treatment groups differed significantly (PC-PTSD: P <.00001 and K6: P <.00001). A prior history of trauma exposure was notable in the intervention group. Eight reported a history of domestic violence, seven histories of sexual abuse, five childhood sexual abuse, and eight intimate partner violence (IPV).

Conclusion:

A post-disaster integrated GP and mental health program in a rural community can assist in identifying individuals experiencing post-disaster psychological distress using opportunistic psychological screening. The findings indicate that collaborative mental health programs may effectively support rural communities post-disaster.

Keywords

communityhealthmentalresponserural
Type
Field Report
Information
Prehospital and Disaster Medicine , Volume 37 , Issue 5 , October 2022 , pp. 706 - 711
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Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
© The Author(s), 2022. Published by Cambridge University Press on behalf of the World Association for Disaster and Emergency Medicine

Specific Event Identifiers:

  1. a. Event: Evaluated psychological response to flood events.

  2. b. Onset Date: Flood occurred on February 2, 2012.

  3. c. Location of the Event: Southwest Queensland.

  4. d. Geographic Coordinates: Latitude: -26.4830, Longitude: 147.9660, Elevation: 336.3 m (1,103 ft), Area: 676.4 km2 (261.2 sq mi).

  5. e. Dates of Observations Reported: Program commenced week of March 26, 2012. Program ceased week of June 4, 2012.Program commenced week of March 26, 2012. Program ceased week of June 4, 2012.

  6. f. Response Type: Program provided psychological assessment and intervention for those affected by the flood.

  7. Addendum: Note as the town has a small population, disclosure of the town’s name risks identification of people who live or lived in the region.

Introduction

In 2021, Eastern and Central Australia experienced the heaviest recorded rainfall since 1900. The rain event resulted in extensive flooding across large areas of Queensland and New South Wales (NSW). 1 Persistence of a La Niña event through the 2020-2021 summer produced further heavy rainfall and flooding. Some regions of southeast Queensland and NSW subsequently experienced multiple separate flood events. 2 Disaster declarations were made for three events in Queensland to initiate joint State and Commonwealth Disaster Recovery Funding Arrangements (DRFA). Similar storm and flood disaster declarations were made for various locations within NSW from July 2021 through March 2022. 3 The flooding was linked to the death of 23 people during the summer events of 2021-2022. Housing, business, and infrastructure damage was estimated to cost $2.5 billion. 4

In addition to the grief and the adverse immediate and long-term psychological consequences of the floods, many experienced personal losses such as housing and possessions. There was wide-spread damage to education facilities, transport, and public utility infrastructure and increased demands on clinical and public health services in affected regional and rural centers.

From a psychosocial perspective, community supports that include the non-government sector, primary health care, and specialized mental health services are key elements of the psychosocial response to natural disasters. While recognized as a vital aspect of the disaster response, general practitioners (GPs) remain under-utilized and under-recognized in disaster preparedness and recovery systems. While actively involved in monitoring their patient’s pre-existing illnesses, GPs are also engaged in the long-term monitoring of patients post-disaster. They also have an important role in early intervention programs that identify the emergence of new physical and mental health illnesses. Reference Burns, Aitken and Raphael5 Successful early intervention strategies require the integration of GPs into the broader disaster health response structure. This integrated approach can enhance the health system’s resilience and maximize its response capacity through communication and early intervention. Reference Burns, Douglas and Hu6Reference Burns, FitzGerald, Hu, Aitken and Douglas8

Strategies to increase integration of the health system and GPs continue to be challenged by the nature and magnitude of disasters, the geography of affected regions, resource availability pre- and post-disaster, and pre-existing barriers between public health providers, including mental health services and GPs. Reference Schoenbaum, Butler and Kataoka9Reference Suzuki, Fukasawa, Nakajima, Narisawa and Kim13

Responding to a disaster will also require an understanding that the psychosocial impacts vary according to age, gender, and the regional environment. Evidence indicates the education system offers an appropriate point of access to identify at-risk children and families and provide evidence-based interventions for the child/adolescent and the family post-disaster. Reference McDermott and Cobham14,Reference McDermott15 The most likely points of service access for older adults are GPs or emergency departments. “Help-seeking behavior” for those aged 18 through 65 is influenced by factors such as the community and work environment and the need to support their family. Consequently, they may delay or avoid contact with health providers Reference Bell, Choi, Langa and Iwashyna16Reference Sasaki, Aida and Tsuji20 with the likelihood of under-utilization of available treatment resources. Reference Ghuman, Brackbill, Stellman, Farfel and Cone21Reference Welch, Caramanica, Maslow, Brackbill, Stellman and Farfel27

The flooding across Queensland and NSW in 2021-2022 highlights the tests governments at all levels experience during natural disasters. The repeated damage to public and private infrastructure, multiple episodes of injury and loss of life, and the expanding demands for psychosocial services in affected communities challenged all involved in the disaster response. This paper reports on a strategy that sought to address the psychosocial needs of a region affected by three major flood events that caused significant property damage and evacuations. The floods occurred from March 2010 through February 2012.

A mental health clinician (MHC) funded through the Queensland Mental Health Natural Disaster Recovery Plan 2011-2013 (QMHNDRP) Reference Crompton, Young, Shakespeare-Finch and Raphael28,29 was placed within the region’s rural primary care service. Through opportunistic screening of patients attending the GP practice, the program aimed to identify those with unmet mental health needs and to facilitate their access to local mental health care. The program added to the already established 24-hour state-wide access line, psychological first aid program, NGO community-based supports, and specialist mental health programs/SMHPs established following the 2010-2011 natural disasters. Reference Crompton, Young, Shakespeare-Finch and Raphael28,Reference Norris and Rosen30,Reference Abramson, Grattan and Mayer31 The GP-referred service commenced following feedback from clinicians and in discussion with the local GP and public health team. The MHC placement was two days per week for ten weeks, beginning eight weeks after the flood.

Method

The GP’s receptionist used a standardized script when patients attended the practice. Each person was asked, “Were you personally affected by the floods?” If they answered “Yes,” the receptionist advised, “the Doctor is interested in knowing how things are for you since the floods; would you mind answering a few questions and handing your answers to the doctor when you see him?” The receptionist provided the individual with the questionnaires (Primary Care Posttraumatic Stress Disorder [PTSD] Scale [PC-PTSD] Reference Prins, Ouimette and Kimerling32 and Kessler 6 [K6] Reference Kessler, Barker and Colpe33,Reference Furukawa, Kessler, Slade and Andrews34 ), and when completed, these were handed to the doctor.

The GP scored the patient’s answers using a template and interpretation sheet. Should the individual’s PC-PTSD score fall within a designated clinical range (higher than two), the GP suggested the individual meet with the MHC, who was described as a disaster trauma specialist. Individuals who scored two or below were provided information about coping with a natural disaster.

Measures

Probable PTSD was measured using the PC-PTSD. The measure was developed as a screening tool for the US Department of Veterans Affairs (Washington, DC USA). Subsequent studies in the primary care setting indicate solid psychometric properties, similar to more extensive screening measures. An optimal cut-off score of higher than two classifies 83% of patients correctly, with sensitivity and specificity values of 85% and 82%, respectively. Reference Prins, Ouimette and Kimerling32,Reference Cowlishaw, Metcalf and Stone35

The K6 is a subset of the K10, using Items 2, 4, 5, 8, 9, and 10, with total scores ranging from six to thirty. Studies indicate the K6 is only marginally less sensitive and specific when compared to the K10, with one study finding no statistically significant difference between the two measures when screening for a mental disorder. Cut-off scores in different studies have varied between 13 and 14. Reference Kessler, Barker and Colpe33,Reference Cornelius, Groothoff, van der Klink and Brouwer36

Patients participating in the program were advised of the outcome of the assessments and that the evaluations and clinical notes would be entered into their GP record. Clinical content was also entered into the state-wide electronic mental health record. Patient data were deidentified and collected as part of the program evaluation and independently analyzed. No data were collected from those who did not seek treatment.

Ethics Approval

HREC/14/QPAH/472 (Metro South Health Ethics Committee; Queensland, Australia) – A retrospective evaluation of the outcomes of state-wide disaster mental health programs established and delivered following the Cyclones and Floods of 2010-2011.

Results and Data Analysis

Due to the small number who participated in the study, a descriptive analysis was, in the main, utilized. The number who declined the assessment was not recorded. Sixty screening assessments were completed. Fourteen patients scored higher than two on the PC-PTSD and were referred to the MHC by the GP. All the screened patients completed the K6 as a secondary screening measure. Those not scoring higher than two on the PC-PTSD scale were not referred for further assessment. As per protocol, those who did not exceed the PC-PTSD cut-off score received from the GP information on coping after a natural disaster, the availability of support services, and advice on how to contact the GP.

The average age of the 14 patients referred for further assessment was 53 (34-71) years. The referred group PC-PTSD mean score was 3.14 and K6 mean score was 19 (13-26). In contrast, those not referred to the MHC had a PC-PTSD mean score of 0.72 and K6 mean = 7.30. As would be expected due to the selection process, the treatment and non-treatment groups differed significantly (PC-PTSD: t12.60758; P <.00001 and K6: t15.18068; P <.00001). The majority were female (n = 11; Table 1). All those in the treatment group experienced property damage that required relocation to other accommodation (Table 2). Of the 14 patients, eleven owned their homes, four were employed, and ten described previous exposure to natural disasters.

Table 1. Data PC-PTSD and K6, Age and Gender

Abbreviations: PC-PTSD, Primary Care Posttraumatic Stress Disorder [PTSD] Scale; K6, Kessler 6.

Table 2. Personal History/Demographics

Abbreviation: Hx, history.

A history of previous trauma exposure was notable in the intervention group. Eight reported a developmental history of exposure to domestic violence, with seven describing a history of sexual abuse and five childhood sexual abuse. Eight of the 11 women reported a history of intimate partner violence (IPV); Figure 1.

Figure 1. Trauma Experience of the Referred Group.

Abbreviations: IPV, intimate partner violence; Hx, history; FamilyDV, family domestic violence.

One person reported a previous history of mental illness. Ten patients described a family history of drug use and/or excess alcohol consumption, and four had a family history of mental illness. Seven of the referred group recounted an abnormal bereavement reaction, with one describing a history of a suicide attempt (Figure 2).

Figure 2. Pre-Disaster Personal and Family History.

Abbreviations: Hx, history; PrevMHDx, previous mental health diagnosis; FamilyAOD, family history of alcohol and/or drug disorder; FamilyMH, family history mental illness.

Trauma-Focused Cognitive Behavior Therapy (TF-CBT) was provided to five patients. The mean number of treatment sessions was 5.86; the remaining nine declined TF-CBT. Psychoeducation, self-help programs (eg, stress management), or cognitive and behavioral interventions were provided to those who declined TF-CBT.

One individual was identified as suicidal and referred to an MHC trained in suicide prevention.

Discussion

This paper presents a case study of one practice in one rural community. The importance of collaboration, engagement, and screening is reflected in the role of the GP’s administration staff and the number of patients who agreed to participate (n = 60). Almost 20% were identified as at-risk for PTSD (PC-PTSD higher than two). Notable was the number with a history of previous trauma exposure either due to a natural disaster or the experience of family trauma (Figure 1). Exposure to traumatic events is a common occurrence, with studies indicating seven out of ten people world-wide describe exposure to one or more events in their lifetime. For most people, the outcome is a return to their pre-event level of function. Studies also reported post-traumatic growth following military and civilian trauma. Reference Fink and Galea37Reference Tedeschi, Shakespeare-Finch, Taku and Calhoun39

A traumatic experience is a sine qua non for developing PTSD and comorbid psychopathology. However, there is apparent heterogeneity concerning the outcome of trauma exposure with gender, the nature of the event, age of trauma occurrence, past mental health history, and previous trauma exposure influencing the psychosocial outcomes. A Norwegian study found females, compared to males, are more likely to be exposed to sexual abuse (P = .011), rape (P <.001), and IPV (P <.017); physical violence (P <.001); or observe traumatic events (P = .014). One potential outcome is PTSD, with males more likely to attempt self-medication using alcohol, while for others, the outcome is reflected in altered interpersonal relationships. The findings reflect previous studies that have identified a link between the effect of trauma exposure and multiple risk factors such as developmental history and social and economic factors. Reference Howard, Agllias, Bevis and Blakemore40,Reference Lassemo, Sandanger, Nygård and Sørgaard41

The data derived from this small cohort group mirror the findings of more extensive studies; females more likely to seek assistance, the influence of socio-economic factors (over 75% receiving social security), and for many, the likelihood of non-disclosure of a personal history of trauma exposure. The treatment group, in comparison to the findings of an Australian epidemiological survey, were more likely to have been exposed to natural disasters (70.0% versus 19.9% [males] and 12.7% [females]), and similarly, many experienced interpersonal trauma such as IPV or sexual abuse. Reference Cowlishaw, Metcalf and Stone35,Reference Creamer, Burgess and McFarlane42,Reference Spoont, Williams, Kehle-Forbes, Nieuwsma, Mann-Wrobel and Gross43 One-third reported childhood sexual abuse (Figure 2). Similar to other studies, engagement in treatment was challenging Reference Cowlishaw, Metcalf and Stone35,Reference Spoont, Williams, Kehle-Forbes, Nieuwsma, Mann-Wrobel and Gross43 with only one-third participating in the TF-CBT and none attending for ten sessions.

The descriptive data from this study reinforce and emphasize the need for GP skills in screening and identifying risk factors to address their patients’ unmet mental health needs and the increased risk of adverse psychosocial outcomes following a traumatic experience. Reference Willson, Fitzgerald and Lim44,Reference Pintea and Dahl Grove45 Interestingly, the patient group did not report a history of mental illness diagnosed by a clinician. A family history of substance use was reported by 70% of the group, and 50% described symptoms consistent with a history of a complicated bereavement reaction. Anecdotally, many referred to the MHC had neither reported nor discussed their trauma history with their GP. Similarly, the patient with a history of a suicide attempt and now experiencing suicidal ideation only identified this aspect to the MHC after entering the program.

Although it could be argued that this group of patients may not reflect the broader community, recognition of mental illness symptoms and avoidance or accessing mental health care is not uncommon in rural communities. Reference Ferris-Day, Hoare, Wilson, Minton and Donaldson46Reference Handley, Lewin, Perkins and Kelly48 Factors influencing mental health care access in rural communities include stigma and stoicism with the idea it is a person’s task to find a way through the problem. Other issues impacting “help-seeking” for mental health care compared to physical health care include the availability of trained health professionals, concerns regarding confidentiality, and gender bias with men less likely to seek assistance than women. Reference Fennell, Hull, Jones and Dollman49Reference Barraclough, Longman and Barclay52

When considering patient engagement with the program, there is a need to reflect on the many influences on patient decision making concerning treatment participation. In the case of rural people, there are potential issues of trust related to the MHC that is seen as external to the community, or the program messaging does not connect with the people. A systematic review by Ferris-Day, et al also identified the need for strategies that support help-seeking, such as gender-specific strategies, mental health literacy programs, and the development of support networks to enhance all health outcomes. Reference Ferris-Day, Hoare, Wilson, Minton and Donaldson46 Barraclough, et al highlighted the importance of integrating mental health services with primary care and not-for-profit organizations in rural communities. Reference Barraclough, Longman and Barclay52

Limitations

The study is limited by several factors, including the number screened and the small size of the treatment group, the absence of Gold Standard assessment instruments, such as the Clinician-Administered PTSD Scale (CAPS-5), the Structured Clinical Interview for the DSM (SCID-5), assessments of substance use and global function, for example, the GAF, or WHOQOL. The study does not include post-therapy evaluations, and the non-treatment group has not been evaluated in terms of past history, employment, and health status.

Conclusion

A post-disaster integrated GP and mental health program in a rural community demonstrated that individuals suffering from the effects of a natural disaster could be identified using well-recognized screening instruments. The findings suggest that individuals at-risk may present at a GP clinic for other health reasons, and in the absence of a screening program, their underlying concerns may go unaddressed.

The GP, MHC, and patients expressed support for the program and perceived the process implemented in the primary care setting as a valuable adjunct to the services provided by the clinic.

Although limited in sample size, the results suggest a screening program is a promising primary care option following a natural disaster. The screening and intervention program augmented clinical services offered by the GP and importantly identified at-risk individuals who had not previously discussed their prejudicial developmental and current psychosocial experiences.

The elucidation of an inclusive history requires time and skill, and unless asked or screened for, psychological symptoms may remain undisclosed and unaddressed. While likely to present to a primary care setting for problems other than psychological distress, at-risk individuals can present with symptoms that mask the underlying distress, risking a delay in treatment. The lost intervention opportunity may be associated with adverse psychological outcomes and impact employment and relationships.

Conflicts of interest

There are no conflicts of interest.

References

Bureau of Meteorology. Annual climate statement 2021. http://www.bom.gov.au/climate/current/annual/aus/. Accessed May 1, 2022.Google Scholar
Bureau of Meteorology. Australia in summer 2021-2022. http://www.bom.gov.au/climate/current/season/aus/summary.shtml. Accessed May 1, 2022.Google Scholar
NSW Government. Natural disaster declarations. 2022. https://www.nsw.gov.au/disaster-recovery/natural-disaster-declarations. Accessed May 1, 2022.Google Scholar
Disaster Philanthropy. 2022 Australian Flooding. 2022. https://disasterphilanthropy.org/disasters/2022-australian-flooding/. Accessed May 1, 2022.Google Scholar
Burns, PL, Aitken, PJ, Raphael, B. Where are general practitioners when disaster strikes? Med J Aust. 2015;202(7):356358.CrossRefGoogle ScholarPubMed
Burns, PL, Douglas, KA, Hu, W. Primary care in disasters: opportunity to address a hidden burden of health care. Med J Aust. 2019;210(7):297299.CrossRefGoogle ScholarPubMed
Reay, L, Burns, P. The role of primary health networks and general practitioners in disasters: Nepean Blue Mountains Primary Health Network’s preparedness guide. Prehosp Disaster Med. 2019;34(s1):s67.CrossRefGoogle Scholar
Burns, PL, FitzGerald, GJ, Hu, WC, Aitken, P, Douglas, KA. General practitioners’ roles in disaster health management: perspectives of disaster managers. Prehosp Disaster Med. 2022;37(1):124131.CrossRefGoogle ScholarPubMed
Schoenbaum, M, Butler, B, Kataoka, S, et al. Promoting mental health recovery after hurricanes Katrina and Rita: what can be done at what cost. Arch Gen Psychiatry. 2009;66(8):906914.CrossRefGoogle ScholarPubMed
McGuire, A, Gauthier, J, Anderson, L, et al. Social support moderates effects of natural disaster exposure on depression and posttraumatic stress disorder symptoms: effects for displaced and nondisplaced residents: social support moderates natural disaster effects. J Trauma Stress. 2018;31(2):223233.CrossRefGoogle Scholar
Witteveen, AB, Bisson, JI, Ajdukovic, D, et al. Post-disaster psychosocial services across Europe: the TENTS project. Soc Sci Med. 2012;75(9):17081714.CrossRefGoogle ScholarPubMed
Augusterfer, E, Mollica, R, Lavelle, J. Leveraging technology in post-disaster settings: the role of digital health/telemental health. Curr Psychiatry Rep. 2018;20(10):18.CrossRefGoogle ScholarPubMed
Suzuki, Y, Fukasawa, M, Nakajima, S, Narisawa, T, Kim, Y. Development of disaster mental health guidelines through the Delphi process in Japan. Int J Mental Health Systems. 2012;6(1):7.CrossRefGoogle ScholarPubMed
McDermott, B, Cobham, V. A stepped-care model of post-disaster child and adolescent mental health service provision. Eur J Psychotraumatol. 2014;5.Google ScholarPubMed
McDermott, B. Disasters, children and families: have we arrived at a comprehensive model of emotional health care? Australian J Emerg Manag. 2014;29(1):1011.Google Scholar
Bell, S, Choi, H, Langa, K, Iwashyna, T. Health risk behaviors after natural disaster exposure among older adults. Innovation in Aging. 2018;2(suppl_1):263.CrossRefGoogle Scholar
Bell, S, Abir, M, Hea, Choi. All-cause hospital admissions among older adults after a natural disaster. Ann Emerg Med. 2018;71(6):746754.CrossRefGoogle ScholarPubMed
Labra, O, Maltais, D, Gingras-Lacroix, G. Medium-term health of seniors following exposure to a natural disaster. INQUIRY. 2018;55:46958018766667.Google ScholarPubMed
Malik, S, Lee, DC, Doran, KM, et al. Vulnerability of older adults in disasters: emergency department utilization by geriatric patients after Hurricane Sandy. Disaster Med Public Health Prep. 2018;12(2):184193.CrossRefGoogle ScholarPubMed
Sasaki, Y, Aida, J, Tsuji, T, et al. Does type of residential housing matter for depressive symptoms in the aftermath of a disaster? Insights from the Great East Japan earthquake and tsunami. Am J Epidemiol. 2018;187(3):455464.Google ScholarPubMed
Ghuman, SJ, Brackbill, RM, Stellman, SD, Farfel, MR, Cone, JE. Unmet mental health care need 10-11 years after the 9/11 terrorist attacks: 2011-2012 results from the World Trade Center Health Registry. BMC Public Health. 2014;14(1):491.CrossRefGoogle ScholarPubMed
Kantor, V, Knefel, M, Lueger-Schuster, B. Perceived barriers and facilitators of mental health service utilization in adult trauma survivors: a systematic review. Clin Psychol Rev. 2017;52:5268.CrossRefGoogle ScholarPubMed
Lowe, S, Fink, D, Norris, F, Galea, S. Frequencies and predictors of barriers to mental health service use: a longitudinal study of Hurricane Ike survivors. Soc Psychiatry Psychiatr Epidemiol. 2015;50(1):99108.CrossRefGoogle ScholarPubMed
Lowe, SR, Sampson, L, Gruebner, O, Galea, S. Mental health service need and use in the aftermath of Hurricane Sandy: findings in a population-based sample of New York City residents. Comm Mental Health J. 2016;52(1):2531.CrossRefGoogle Scholar
Nobles, CJ, Valentine, SE, Gerber, MW, Shtasel, DL, Marques, L. Predictors of treatment utilization and unmet treatment need among individuals with posttraumatic stress disorder from a national sample. Gen Hosp Psychiatry. 2016;43:3845.CrossRefGoogle ScholarPubMed
Sloand, ED, Gary, F, Hassan, MK, Campbell, D. Barriers and facilitators to engaging communities in gender-based violence prevention following a natural disaster. J Health Care Poor Underserved. 2015;26(4):13771390.CrossRefGoogle ScholarPubMed
Welch, AE, Caramanica, K, Maslow, CB, Brackbill, RM, Stellman, SD, Farfel, MR. Trajectories of PTSD among lower Manhattan residents and area workers following the 2001 World Trade Center disaster, 2003-2012. J Trauma Stress. 2016;29(2):158166.CrossRefGoogle ScholarPubMed
Crompton, D, Young, R, Shakespeare-Finch, J, Raphael, B. Responding to disasters: more than economic and infrastructure interventions. Insights Depress Anxiety. 2018;2:1428.Google Scholar
Bureau of Meteorology. Queensland Flood Summary 2010 Onwards. 2020. http://www.bom.gov.au/qld/flood/fld_history/floodsum_2010.shtml. Accessed May 1, 2022.Google Scholar
Norris, FH, Rosen, CS. Innovations in disaster mental health services and evaluation: national, state, and local responses to Hurricane Katrina (Introduction to the Special Issue). Admin Policy Mental Health Mental Health Serv Res. 2009;36(3):159164.CrossRefGoogle Scholar
Abramson, DM, Grattan, LM, Mayer, B, et al. The resilience activation framework: a conceptual model of how access to social resources promotes adaptation and rapid recovery in post-disaster settings. J Behav Health Serv Res. 2014;42(1):4257.CrossRefGoogle Scholar
Prins, A, Ouimette, P, Kimerling, R, et al. The Primary Care PTSD Screen (PC-PTSD): development and operating characteristics. Primary Care Psychiatry. 2003;9(1):914.CrossRefGoogle Scholar
Kessler, RC, Barker, PR, Colpe, LJ, et al. Screening for serious mental illness in the general population. Arch Gen Psychiatry. 2003;60(2):184189.CrossRefGoogle ScholarPubMed
Furukawa, TA, Kessler, RC, Slade, T, Andrews, G. The performance of the K6 and K10 screening scales for psychological distress in the Australian National Survey of Mental Health and Well-Being. Psychol Med. 2003;33(2):357362.CrossRefGoogle ScholarPubMed
Cowlishaw, S, Metcalf, O, Stone, C, et al. Posttraumatic stress disorder in primary care: a study of general practices in England. J Clin Psychol Med Settings. 2020;28(3):427435.CrossRefGoogle Scholar
Cornelius, BLR, Groothoff, JW, van der Klink, JJL, Brouwer, S. The performance of the K10, K6 and GHQ-12 to screen for present state DSM-IV disorders among disability claimants. BMC Pub Health. 2013;13(1):128.CrossRefGoogle ScholarPubMed
Fink, DS, Galea, S. Life course epidemiology of trauma and related psychopathology in civilian populations. Curr Psychiatry Rep. 2015;17(5):19.CrossRefGoogle ScholarPubMed
Zięba, M, Wiecheć, K, Biegańska-Banaś, J, Mieleszczenko-Kowszewicz, W. Coexistence of post-traumatic growth and post-traumatic depreciation in the aftermath of trauma: qualitative and quantitative narrative analysis. Front Psychol. 2019;10(687).CrossRefGoogle ScholarPubMed
Tedeschi, RG, Shakespeare-Finch, J, Taku, K, Calhoun, LG. Posttraumatic Growth: Theory, Research, and Applications. 1st ed. New York USA: Routledge; 2018.CrossRefGoogle Scholar
Howard, A, Agllias, K, Bevis, M, Blakemore, T. How social isolation affects disaster preparedness and response in Australia: implications for social work. Australian Soc Work. 2018;71(4):392404.CrossRefGoogle Scholar
Lassemo, E, Sandanger, I, Nygård, JF, Sørgaard, KW. The epidemiology of post-traumatic stress disorder in Norway: trauma characteristics and pre-existing psychiatric disorders. Soc Psychiatry Psychiatric Epidemiol. 2016;52(1):1119.CrossRefGoogle ScholarPubMed
Creamer, M, Burgess, P, McFarlane, AC. Post-traumatic stress disorder: findings from the Australian National Survey of Mental Health and Well-being. Psychol Med. 2001;31(7):12371247.CrossRefGoogle ScholarPubMed
Spoont, MR, Williams, JW, Kehle-Forbes, S, Nieuwsma, JA, Mann-Wrobel, MC, Gross, R. Does this patient have posttraumatic stress disorder? Rational clinical examination systematic review. JAMA. 2015;314(5):501510.CrossRefGoogle ScholarPubMed
Willson, KA, Fitzgerald, GJ, Lim, D. Disaster management in rural and remote primary health care: a scoping review. Prehosp Disaster Med. 2021;36(3):362369.CrossRefGoogle ScholarPubMed
Pintea, M, Dahl Grove, D. Primary care physicians: an untapped resource for disaster response. Curr Treatment Options Pediatrics. 2019;5(3):276283.CrossRefGoogle Scholar
Ferris-Day, P, Hoare, K, Wilson, RL, Minton, C, Donaldson, A. An integrated review of the barriers and facilitators for accessing and engaging with mental health in a rural setting. Int J Mental Health Nurs. 2021;30(6):15251538.CrossRefGoogle Scholar
Batterham, PJ, Kazan, D, Banfield, M, Brown, K. Differences in mental health service use between urban and rural areas of Australia. Australian Psychologist. 2020;55(4):327335.CrossRefGoogle Scholar
Handley, TE, Lewin, TJ, Perkins, D, Kelly, B. Self-recognition of mental health problems in a rural Australian sample. Australian J Rural Health. 2018;26(3):173180.CrossRefGoogle Scholar
Fennell, KM, Hull, M, Jones, M, Dollman, J. A comparison of barriers to accessing services for mental and physical health conditions in a sample of rural Australian adults. Rural Remote Health. 2018;18(1):4155.Google Scholar
Schroeder, S, Tan, CM, Urlacher, B, Heitkamp, T. The role of rural and urban geography and gender in community stigma around mental illness. Health Edu Behav. 2021;48(1):6373.CrossRefGoogle Scholar
David Robinson, W, Springer, PR, Bischoff, R, et al. Rural experiences with mental illness: through the eyes of patients and their families. Fam Systems Health. 2012;30(4):308321.CrossRefGoogle Scholar
Barraclough, F, Longman, J, Barclay, L. Integration in a nurse practitioner-led mental health service in rural Australia. Australian J Rural Health. 2016;24(2):144150.CrossRefGoogle Scholar
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Table 1. Data PC-PTSD and K6, Age and Gender

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Table 2. Personal History/Demographics

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Figure 1. Trauma Experience of the Referred Group.Abbreviations: IPV, intimate partner violence; Hx, history; FamilyDV, family domestic violence.

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Figure 2. Pre-Disaster Personal and Family History.Abbreviations: Hx, history; PrevMHDx, previous mental health diagnosis; FamilyAOD, family history of alcohol and/or drug disorder; FamilyMH, family history mental illness.