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Homelessness at discharge and its impact on psychiatric readmission and physician follow-up: a population-based cohort study

Published online by Cambridge University Press:  07 March 2019

V. Laliberté*
Affiliation:
Centre for Addiction and Mental Health, University of Toronto, Toronto, ON, Canada
V. Stergiopoulos
Affiliation:
Centre for Addiction and Mental Health, University of Toronto, Toronto, ON, Canada
B. Jacob
Affiliation:
Centre for Addiction and Mental Health, University of Toronto, Toronto, ON, Canada
P. Kurdyak
Affiliation:
Centre for Addiction and Mental Health, University of Toronto, Toronto, ON, Canada
*
Author for correspondence: V. Laliberté, E-mail: vincent.laliberte@mail.mcgill.ca
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Abstract

Aims

A significant proportion of adults who are admitted to psychiatric hospitals are homeless, yet little is known about their outcomes after a psychiatric hospitalisation discharge. The aim of this study was to assess the impact of being homeless at the time of psychiatric hospitalisation discharge on psychiatric hospital readmission, mental health-related emergency department (ED) visits and physician-based outpatient care.

Methods

This was a population-based cohort study using health administrative databases. All patients discharged from a psychiatric hospitalisation in Ontario, Canada, between 1 April 2011 and 31 March 2014 (N = 91 028) were included and categorised as homeless or non-homeless at the time of discharge. Psychiatric hospitalisation readmission rates, mental health-related ED visits and physician-based outpatient care were measured within 30 days following hospital discharge.

Results

There were 2052 (2.3%) adults identified as homeless at discharge. Homeless individuals at discharge were significantly more likely to have a readmission within 30 days following discharge (17.1 v. 9.8%; aHR = 1.43 (95% CI 1.26–1.63)) and to have an ED visit (27.2 v. 11.6%; aHR = 1.87 (95% CI 1.68–2.0)). Homeless individuals were also over 50% less likely to have a psychiatrist visit (aHR = 0.46 (95% CI 0.40–0.53)).

Conclusion

Homeless adults are at higher risk of readmission and ED visits following discharge. They are also much less likely to receive post-discharge physician care. Efforts to improve access to services for this vulnerable population are required to reduce acute care service use and improve care continuity.

Type
Original Articles
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 (http://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
Copyright © The Author(s) 2019

Introduction

Homeless people present with high rates of mental and physical illnesses (Hwang, Reference Hwang2001; Fazel et al., Reference Fazel, Khosla, Doll and Geddes2008, Reference Fazel, Geddes and Kushel2014). Rates of alcohol and drug dependence, as well as those of psychotic disorders and personality disorders, are especially high in homeless populations compared with the general population (Fazel et al., Reference Fazel, Khosla, Doll and Geddes2008). Homeless people are also afflicted by a wide number of physical illnesses, notably infectious diseases such as tuberculosis, hepatitis, HIV and sexually transmitted diseases (Hwang, Reference Hwang2001; Fazel et al., Reference Fazel, Geddes and Kushel2014). Chronic diseases, such as cardiovascular and metabolic diseases, are also common. The very high rate of tobacco use leads to frequent smoke-related diseases, such as chronic obstructive pulmonary disease, and age-related conditions, such as cognitive impairment, are increasing (Fazel et al., Reference Fazel, Geddes and Kushel2014). Rates of mortality are also much higher, which could be the consequence of the higher occurrence of unintentional injuries, of being victims of violence and of suicide (Hwang, Reference Hwang2001; Fazel et al., Reference Fazel, Geddes and Kushel2014). Moreover, people with mental illness in general present with a higher rates of numerous health problems compared with the general population, as a result of lifestyle and failure to receive adequate care when they are ill (De Hert et al., Reference De Hert, Cohen, Bobes, Cetkovich-Bakmas, Leucht, Ndetei, Newcomer, Uwakwe, Asai, Moller, Gautam, Detraux and Correll2011). The lifespan of people with severe mental illness is reduced, and mortality rates of people with schizophrenia are threefold higher compared with those without schizophrenia (Gatov et al., Reference Gatov, Rosella, Chiu and Kurdyak2017).

When homelessness and mental illness are combined, the burden of health problems is additive, with the consequence of higher health service utilisation. Homeless individuals with mental health problems consume mental health services at a rate that is nearly fourfold higher than the housed general population (Folsom et al., Reference Folsom, Hawthorne, Lindamer, Gilmer, Bailey, Golshan, Garcia, Unützer, Hough and Jeste2005). Despite these high needs, access to ambulatory health services is known to be low in this population. Homeless individuals with mental health problems are more likely to use acute care settings (hospitalisations (Chambers et al., Reference Chambers, Katic, Chiu, Redelmeier, Levinson, Kiss and Hwang2013; Saab et al., Reference Saab, Nisenbaum, Dhalla and Hwang2016) and emergency departments (ED) (Kushel et al., Reference Kushel, Perry, Bangsberg, Clark and Moss2002; Arfken et al., Reference Arfken, Zeman, Yeager, White, Mischel and Amirsadri2004)) and less likely to receive general primary care (Khandor et al., Reference Khandor, Mason, Chambers, Rossiter, Cowan and Hwang2011) and outpatient mental health services (Folsom et al., Reference Folsom, Hawthorne, Lindamer, Gilmer, Bailey, Golshan, Garcia, Unützer, Hough and Jeste2005). However, little is known about the quality of care for homeless individuals discharged following a psychiatric hospitalisation to the street or to shelters (Burra et al., Reference Burra, Hwang, Rourke and Stergiopoulos2012), despite the fact that the month following discharge from a psychiatric ward is a period of high risk and high need (Dixon et al., Reference Dixon, Goldberg, Iannone, Lucksted, Brown, Kreyenbuhl, Fang and Potts2009).

The Canadian definition of homelessness is ‘the situation of an individual, family or community without stable, permanent, appropriate housing, or the immediate prospect, means and ability of acquiring it’ (Gaetz et al., Reference Gaetz, Barr, Friesen, Harris, Hill, Kovacs-Burns, Pauly, Pearce, Turner and Marsolais2012). There are four types of homelessness: (1) unsheltered, (2) emergency sheltered, (3) provisionally accommodated and (4) at risk of homelessness (Gaetz et al., Reference Gaetz, Barr, Friesen, Harris, Hill, Kovacs-Burns, Pauly, Pearce, Turner and Marsolais2012). ‘Unsheltered’ describes individuals who are ‘absolutely homeless and living on the streets or in places not intended for human habitation’. This includes individuals who are living outside, for example, under bridges or in forests, and not only on the street. Emergency sheltered includes ‘those staying in overnight shelters for people who are homeless, as well as shelters for those impacted by family violence’ (Gaetz et al., Reference Gaetz, Barr, Friesen, Harris, Hill, Kovacs-Burns, Pauly, Pearce, Turner and Marsolais2012). Our definition includes the first two types of homelessness, which correspond to the most severe forms.

We used population-based health-administrative datasets in Ontario to compare homeless v. non-homeless individuals at psychiatric discharge, and to measure access psychiatric readmission following discharge as well as mental health-related ED visits. We also assessed visits to a psychiatrist or a family doctor following psychiatric discharge. We hypothesised that homeless adults at discharge would have greater illness severity and less access to follow-up care compared with non-homeless individuals, and that they therefore would have higher likelihood of psychiatric readmission to the hospital and of ED visits for mental health reasons. We also hypothesised that individuals discharged as homeless would have reduced likelihood of physician visits.

Methods

Study design and setting

This is a population-based cohort study using sociodemographic and health administrative data to measure the outcomes of homeless adults following discharge from a psychiatric hospitalisation in Ontario, Canada, between 2011 and 2014. All Ontario residents are covered by the Ontario Health Insurance Plan (OHIP), a universal, government-funded health insurance, which includes physician visits, psychiatric hospitalisations and ED visits.

In addition, there are also Ontario Ministry of Health and Long-Term Care-funded community-based services responsible for Active Community Treatment teams across the province. Since our study included individuals who have been discharged after a psychiatric hospitalisation, physicians are a necessary part of planned follow-up to ensure continuity of medication initiated or modified during the psychiatric hospitalisation and to provide medical assessment of stability and response to treatment. Indeed, receipt of a physician visit within 7 days of a hospitalisation discharge is a standard mental health system performance indicator routinely reported by Health Quality Ontario (Health Quality Ontario, 2018) as a measure of access to critical services at a time of high-risk transition from hospital to community settings.

Data sources

Health administrative databases representing the population of Ontario were accessed at the Institute for Clinical Evaluative Sciences (ICES), an independent, non-profit research organisation that holds population-level data, including administrative data. A unique, encrypted identifier (ICES key number; IKN) is used to anonymously link the databases described below for each individual in the cohort. The databases used in this research can all be accessed through ICES. The Registered Persons Database (RPDB) contains information on age, gender and postal code (region of residence). Implemented in 2005, the Ontario Mental Health Reporting System (OMHRS) includes information on all admissions that occur in psychiatric inpatient beds for adults aged 18 and older in Ontario, which includes approximately 5000 psychiatric inpatient beds.

The data in the OMHRS are gathered using the Resident Assessment Instrument – Mental Health (RAI-MH) (Hirdes et al., Reference Hirdes, Marhaba, Smith, Clyburn, Mitchell, Lemick, Telegdi, Perez, Prendergast, Rabinowitz and Yamauchi2000), a comprehensive clinical assessment tool first completed within 3 days of admission, capturing information such as the place of residence prior to admission, measures of psychiatric symptoms, the legal status of the admission, as well as aggressive behaviour. The RAI-MH is subsequently completed at 90-day intervals during the admission (where applicable) and at discharge, during which the place of residence is obtained. The Ontario Health Insurance Program (OHIP) database gathers data on all physicians and includes information on physician billings, including patient visits and diagnostic codes. The Canadian Institutes of Health Information – Discharge Abstract Database (CIHI-DAD) includes information obtained from non-psychiatric hospitalisations. The National Ambulatory Care Reporting System (NACRS) contains information on all ED visits. The Client Agency Program Enrolment (CAPE) database provides information on the type of primary care enrolment. Neighbourhood income quintile was based on the 2006 census data applied to 2011 census regions. The use of data in this project was authorised under section 45 of Ontario's Personal Health Information Protection Act, which does not require review by a Research Ethics Board.

Cohort

This study included every patient discharged from a psychiatric hospitalisation in Ontario during a 3-year period: between 1 April 2011 and 31 March 2014. The patient's first discharge during that time period determined the index admission. Hospitalisations with a length of stay <72 h were excluded because they are missing key sources of information, including diagnosis (Urbanoski et al., Reference Urbanoski, Mulsant, Willett, Ehtesham and Rush2012). Patients were excluded from the study if they had an invalid IKN, invalid or missing age or sex data, were younger than 16 or older than 105, died during the psychiatric hospitalisation, admitted for more than 365 days (our look back window would be exceeded), or transferred to another psychiatric hospital at the time of discharge. Homelessness was measured at discharge as part of the routine discharge assessment and was defined as individuals who live in shelters or on the streets.

Outcomes

The primary outcomes were psychiatric readmission and mental health-related ED visits within 30 days following discharge. The secondary outcome of this study corresponds to any outpatient visits to a family physician, a psychiatrist or both, within the same time frame. The ‘early readmission’ outcome is recognised worldwide to indicate how patient needs are met in terms of coordination and continuity of services (Vigod et al., Reference Vigod, Kurdyak, Seitz, Herrmann, Fung, Lin, Perlman, Taylor, Rochon and Gruneir2015). Moreover, timely follow-up care after hospitalisation is considered an important measure of the quality of mental health services (Stein et al., Reference Stein, Kogan, Sorbero, Thompson and Hutchinson2007). In Ontario, family doctors are much more numerous than psychiatrists and, therefore, are more likely to provide post-discharge follow-up care, particularly in rural areas (Chiu et al., Reference Chiu, Gatov, Vigod, Amartey, Saunders, Yao, Pequeno and Kurdyak2018).

Covariates

The sociodemographic variables included age, sex and rurality (community that has fewer than 10 000 residents), living situation at admission, as well as income quintile. Clinical variables included the Depression Rating Scale (DRS), Positive Symptom Scale (PSS) and Mania Symptom Scale (MSS), all captured in the RAI (Hirdes et al., Reference Hirdes, Smith, Rabinowitz, Yamauchi, Perez, Telegdi, Prendergast, Morris, Ikegami, Phillips and Fries2002). We also measured the presence of involuntary status and used the Aggressive Behavior Scale as proxy for illness severity (Martin and Hirdes, Reference Martin and Hirdes2009). We estimated the overall medical comorbidity using the Johns Hopkins Aggregated Diagnosis Groups covering a 2-year period (ADGs). The Johns Hopkins ADGs are a method of ascertaining medical comorbidities and have been validated as predictors of mortality in the general population and for individuals with schizophrenia (Starfield et al., Reference Starfield, Weiner, Mumford and Steinwachs1991; University John Hopkins). The prior health service utilisation category included both mental health (primary care visits for mental health conditions, outpatient psychiatrist visits, psychiatric hospitalisations and ED) and non-mental health variables (primary care visits and ED) (Steele et al., Reference Steele, Glazier, Lin and Evans2004). Finally, we measured whether patients were rostered to a primary care physician prior to the index admission.

Statistical tests

First, bivariate association between potential sociodemographic, clinical and prior service utilisation predictors, and the main exposure (homeless at discharge) were assessed using t-tests for continuous variables and χ 2 for dichotomous or categorical variables (see Table 1). Second, we assessed the associations between our main exposure and our primary and secondary outcomes, also using χ 2 tests (Table 2). Finally, we measured the association between our sociodemographic and clinical predictors and our main outcomes: readmission and ED visits at 30 days (Table 2), using Cox Proportional Hazard survival time to event analysis (for full Cox Proportional Hazard models, see online Supplementary Tables 1a–c). We also used Cox Proportional Hazard survival analysis for outpatient care at 30 days (a secondary outcome). There were no violations of the assumption of proportionality for all Cox Proportional Hazard models reported in this study. Analyses were conducted using SAS version 9.4.

Table 1. Baseline characteristics of patients at admission who were homeless at discharge

IQR, interquartile range; STD, standard deviation; ADGs, Aggregated Diagnosis Groups; ED, emergency department.

Table 2. Outcomes after discharge according to the living situation

ED, emergency department.

Results

There were 95 230 patients discharged from a psychiatric inpatient unit during the study period. After applying our exclusion criteria, 91 028 patients remained in the study cohort. Of those, 2052 patients (2.3%) were identified as homeless at discharge. Baseline characteristics by homeless status at discharge are found in Table 1. Homeless adults at discharge were more likely to be male, younger, to reside in lower-income neighbourhoods and in urban settings (see Table 1). Patients who were homeless at discharge had higher rates of involuntary hospitalisation and higher aggressive behaviour, depression, mania and positive psychotic symptoms scale scores. However, they had less documented medical comorbidity. In the year preceding their admission, they were less likely to be rostered to a physician and to have had primary care visits, mental health-related or not, or psychiatry visits. During that same year, they were much more likely to have had psychiatric hospitalisations and ED visits for both mental health and non-mental health reasons.

The risk of a psychiatric readmission at 30 days was 17.1% for homeless patients, in comparison with 9.8% for non-homeless patients (aHR  = 1.43 (95% CI 1.26–1.63)) (see Fig. 1). Finally, being homeless at discharge increased the risk of having a mental health-related ED visits at 30 days nearly twofold (27.2 v. 11.6%, 95% CI; aHR  = 1.87 (95% CI 1.68–2.08)).

Fig. 1. Readmission rates within 30 days of discharge.

In terms of follow-up care after discharge for any reasons (mental health-related or others), 46.3% of the homeless population had no outpatient care in the 30 days that followed discharge (46.3 v. 28.4%, p < 0.0001) (see Table 2). Homeless individuals were less likely to see a family physician (26.8 v. 31.6%, aHR  = 0.88 (95% CI 0.80–0.97)), a psychiatrist (16.0 v. 19.3%, aHR  = 0.463 (95% CI 0.40–0.53)) or both a family physician and a psychiatrist (10.9 v. 17.2%, aHR  =  0.471 (95% CI 0.40–0.56)). When only mental health-related visits post-discharge were considered, 56.5% of homeless patients had no outpatient care in the same period (56.5 v. 43.2%, p < 0.0001). Homeless adults were also less likely to have had a mental health-related family physician visit (16.5 v. 20.3%, p < 0.001), an outpatient psychiatry visit (19.6 v. 25.4%, p < 0.001) or both (7.4 v. 11.0%, p < 0.001).

Discussion

To our knowledge, this is the first study to evaluate outcomes following discharge in a large comprehensive population dataset of homeless adults with mental illness. This is the first study to date to examine the rate of readmission within specific periods of time following discharge from a psychiatric hospital, and by far the largest study of outpatient visits after psychiatric discharge. At the time of discharge from a psychiatric hospitalisation, more than one out of every 50 adult patients was identified as homeless. The reality of psychiatric discharge to the street or to shelter has been rarely explored (Forchuk et al., Reference Forchuk, Russell, Kingston-Macclure, Turner and Dill2006). Patients with mental illness often feel that their housing needs are not taken into account sufficiently at discharge from a psychiatric hospital (Drury, Reference Drury2008), despite the evidence that proper discharge planning is critical to avoid homelessness (Backer et al., Reference Backer, Howard and Moran2007). Shelters are not appropriate places to recover from an episode of mental illness requiring hospitalisation (Forchuk et al., Reference Forchuk, Russell, Kingston-Macclure, Turner and Dill2006).

Compared with their housed counterparts, homeless people at discharge tended to be men, younger and to have higher illness severity. In the year prior to their psychiatric admission, individuals discharged as homeless were less likely to have had family physician visits or outpatient psychiatry visits, while at the same time more likely to have used acute care services: psychiatric hospitalisation and ED visit. They were also less likely to have physician visits either from a primary care physician or from a psychiatrist within 30 days following discharge, suggesting that homelessness is associated with paradoxically poor access to care following discharge despite higher need for care continuity based on illness severity. During that same period of time, homeless adults were also 43% more likely to be readmitted to a psychiatric unit. These findings point to the importance of optimizing the transition to outpatient care following discharge from hospital. For example, the Critical Time Intervention model has been shown to decrease homelessness (Herman et al., Reference Herman, Conover, Gorroochurn, Hinterland, Hoepner and Susser2011) and psychiatric readmission after hospital discharge in New York City (Tomita and Herman, Reference Tomita and Herman2012), as well as in Europe (de Vet et al., Reference de Vet, Beijersbergen, Jonker, Lako, van Hemert, Herman and Wolf2017). In this model, a Critical Time Intervention worker provides a time-limited, strength-based intervention that aims to bridge the gap between services during period of transition by providing practical and emotional support and by connecting the person to community resources (de Vet et al., Reference de Vet, Beijersbergen, Jonker, Lako, van Hemert, Herman and Wolf2017). Findings also highlight the need for programmes that directly address housing issues, such as the At Home/Chez Soi project in Canada, which used the ‘Housing First’ approach with mental health support services (Goering et al., Reference Goering, Veldhuizen, Watson, Adair, Kopp, Latimer, Nelson, MacNaughton, Streiner and Aubry2014; Stergiopoulos et al., Reference Stergiopoulos, Hwang, Gozdzik, Nisenbaum, Latimer, Rabouin, Adair, Bourque, Connelly, Frankish, Katz, Mason, Misir, O'Brien, Sareen, Schutz, Singer, Streiner, Vasiliadis and Goering2015), and was showed to increase housing stability over 24 months (Stergiopoulos et al., Reference Stergiopoulos, Hwang, Gozdzik, Nisenbaum, Latimer, Rabouin, Adair, Bourque, Connelly, Frankish, Katz, Mason, Misir, O'Brien, Sareen, Schutz, Singer, Streiner, Vasiliadis and Goering2015). The Housing First approach originated in the USA and is now present in many European countries, notably in Finland where it had a positive impact.

Previous studies have reported high readmission rates for homeless adults after a hospital discharge (Appleby and Desai, Reference Appleby and Desai1987; Lay et al., Reference Lay, Lauber and Rossler2006; Irmiter et al., Reference Irmiter, McCarthy, Barry, Soliman and Blow2007; Schmutte et al., Reference Schmutte, Dunn and Sledge2010; Hamilton et al., Reference Hamilton, Passos, de Azevedo Cardoso, Jansen, Allen, Begley, Soares and Kapczinski2015; Lorine et al., Reference Lorine, Goenjian, Kim, Steinberg, Schmidt and Goenjian2015), especially within 30 days. For example, the nine homeless individuals included in the seminal study done by Appleby and Desai (Reference Appleby and Desai1987) all tended to be ‘chronic recidivists’. In terms of psychiatric readmission, prior living on the street or in a homeless shelter was shown to predict readmission at 30 and 90 days in a study that included 2443 adults consecutively admitted in a public psychiatric hospital for bipolar affective disorder (Hamilton et al., Reference Hamilton, Passos, de Azevedo Cardoso, Jansen, Allen, Begley, Soares and Kapczinski2015). In another study that included 424 first admitted psychotic patients, homelessness was found to be an important predictor of being a ‘heavy’ or ‘frequent’ user (at least 300 days in the hospital or more than three psychiatric admissions) (Lay et al., Reference Lay, Lauber and Rossler2006). Homelessness was also the strongest predictor of ‘time to re-hospitalisation’ in a large study of 35 527 patients hospitalised in psychiatry in the Department of Veterans Affairs Health system (Irmiter et al., Reference Irmiter, McCarthy, Barry, Soliman and Blow2007). Nevertheless, homelessness has not been consistently associated with high readmission rates following psychiatric hospitalisation discharge in two studies that contained a limited number of homeless people, which may explain the inconsistent findings (Casper, Reference Casper1995; Schmutte et al., Reference Schmutte, Dunn and Sledge2009). In terms of acute care services use, we also found that homelessness at discharge predicts an 83% higher risk of mental health-related ED visit in the 30 days following discharge. This is in agreement with previous studies (Arfken et al., Reference Arfken, Zeman, Yeager, White, Mischel and Amirsadri2004; Pasic et al., Reference Pasic, Russo and Roy-Byrne2005). Homeless people are known to be high users of the ED, and these visits are often the consequence of a psychiatric condition, notably substance abuse (Capp et al., Reference Capp, Rosenthal, Desai, Kelley, Borgstrom, Cobbs-Lomax, Simonette and Spatz2013; Tsai and Rosenheck, Reference Tsai and Rosenheck2013). These findings point to the importance of optimizing the transition to outpatient care following discharge from hospital, through programmes such as the Critical Time Intervention (Herman et al., Reference Herman, Conover, Gorroochurn, Hinterland, Hoepner and Susser2011; Tomita and Herman, Reference Tomita and Herman2012) or At Home/Chez Soi in Canada, which used the ‘Housing First’ approach with mental health support services (Stergiopoulos et al., Reference Stergiopoulos, Hwang, Gozdzik, Nisenbaum, Latimer, Rabouin, Adair, Bourque, Connelly, Frankish, Katz, Mason, Misir, O'Brien, Sareen, Schutz, Singer, Streiner, Vasiliadis and Goering2015).

Continuity of care following a psychiatric discharge is known to be low (Boyer, Reference Boyer1997). A study conducted in the USA, for example, showed that only 49% of patients received follow-up care in the 30 days after a psychiatric discharge (Stein et al., Reference Stein, Kogan, Sorbero, Thompson and Hutchinson2007). Only one study in Canada examined continuity of care in the homeless population following a psychiatric discharge, in a cohort of 30 homeless patients with schizophrenia and schizo-affective disorder (Burra et al., Reference Burra, Hwang, Rourke and Stergiopoulos2012). These participants were less likely than the 21 housed controls to have follow-up appointments with a family physician, or to access intensive case management or assertive community treatment. The fact that homeless individuals were less likely to be rostered to a family physician and less regularly followed by primary care physician or a psychiatrist prior to the index admission (see Table 1) is also congruent with prior research: for example, Khandor et al. (Reference Khandor, Mason, Chambers, Rossiter, Cowan and Hwang2011) showed that less than half of homeless people in Ontario's largest urban centre reported having a family doctor, despite a system of universal health insurance. Organisational barriers to accessing care in the homeless population, such as lack of identifying documents and cost of medication, attitudinal barriers such as stigma and discrimination, in addition to competing priorities and the chaotic lifestyles secondary to mental illness and substance misuse, may lead this population to experience health services as fragmented and interrupted (Canavan et al., Reference Canavan, Barry, Matanov, Barros, Gabor, Greacen, Holcnerová, Kluge, Nicaise, Moskalewicz, Díaz-Olalla, Strassmayr, Schene, Soares, Gaddini and Priebe2012; Skosireva et al., Reference Skosireva, O'Campo, Zerger, Chambers, Gapka and Stergiopoulos2014; Campbell et al., Reference Campbell, O'Neill, Gibson and Thurston2015; Bradley, Reference Bradley2018). Lower continuity of care may also be attributed to high rates of missed appointments, or ‘no-shows’. Individuals with severe mental illnesses are known to be more difficult to engage and to have high dropout rates (Kreyenbuhl et al., Reference Kreyenbuhl, Nossel and Dixon2009; Dixon et al., Reference Dixon, Holoshitz and Nossel2016), and disengagement rates would even be higher among mentally ill individuals with ‘low social functioning’ (Kreyenbuhl et al., Reference Kreyenbuhl, Nossel and Dixon2009). Substance use, homelessness and unemployment were also associated with ‘no-shows’ in a gastroenterology clinic (Chang et al., Reference Chang, Sewell and Day2015). The establishment of resources (e.g. brief case management following discharge) to ensure homeless individuals have a stable transition following discharge may be necessary to reduced readmission rates.

Limitations

One limitation of this research is that the indicator of homelessness at discharge found in the OMHRS dataset has not been validated, hence some participants might have been assigned the wrong housing status (Tsai et al., Reference Tsai, Weintraub, Gee and Kushel2005). Homelessness is likely under-reported which would result in an underestimate of the prevalence of homelessness in our study population (Susser et al., Reference Susser, Valencia, Conover, Felix, Tsai and Wyatt1997; Tsai et al., Reference Tsai, Weintraub, Gee and Kushel2005). However, our indicator of being homeless is distinct and potentially more precise than other studies because it measures the housing status directly at discharge. In contrast, most of the studies considering psychiatric readmissions of homeless people that we reviewed did their analysis considering homelessness at admission (Lay et al., Reference Lay, Lauber and Rossler2006; Hamilton et al., Reference Hamilton, Passos, de Azevedo Cardoso, Jansen, Allen, Begley, Soares and Kapczinski2015; Lorine et al., Reference Lorine, Goenjian, Kim, Steinberg, Schmidt and Goenjian2015), which is problematic because an admission is known to be a period of high residential mobility, especially in the homeless population (Tsai et al., Reference Tsai, Weintraub, Gee and Kushel2005; Tulloch et al., Reference Tulloch, Fearon and David2011). Another study based the homeless status on a Fiscal Year report (Irmiter et al., Reference Irmiter, McCarthy, Barry, Soliman and Blow2007), or on chart review without further specifications (Schmutte et al., Reference Schmutte, Dunn and Sledge2010). Hence even though it is likely that there were some false negatives among our non-homeless sample, it appears very unlikely that we have false-positive homeless cases given the low likelihood of someone discharged to housing being classified as homeless. Considering the Canadian definition of homelessness reported earlier, our data do not capture individuals who are provisionally accommodated and those who are at risk of homelessness. These groups often referred to as ‘hidden homelessness’, may be the largest and often fall below the radar despite potentially having important mental health needs. Another limitation is that the OMHRS dataset did not allow us to separate individuals who are discharged to shelters from those discharged to the street, who might present different characteristics and outcomes. The fact that homelessness is defined differently across studies limits comparisons and attempts are being made to create common terminology (Tsai et al., Reference Tsai, Weintraub, Gee and Kushel2005; Fazel et al., Reference Fazel, Geddes and Kushel2014). Another limitation of our study is that we were interested in physician visits after discharge and did not take into account other services that patients can receive, for example, from other professionals such as nurse, social workers and other mental health workers working in different settings including community organisations. However, physician visits remain a necessary, if not sufficient, marker of continuity of care for two reasons. First, patients discharged from a psychiatric hospital, whether homeless or not, are still relatively unstable and they require ongoing clinical monitoring by a physician about their treatment in order to evaluate and respond to clinical issues post-discharge. Second, patient will need a renewal of a medication prescription, and are hence expected to see a doctor as part of the discharge planning. Furthermore, although community services are important, it is not clear that they are preferentially available to homeless individuals, and if they are, they do not have an impact on the readmission rate and mental health-related emergency visits (our primary outcome) observed amongst the homeless population. Information about ‘no-shows’ would be useful in order to determine the importance of this factor to explain lower physician visits rates in the homeless at discharge population. Moreover, while we had access to a substantial amount of clinical information (e.g. numerous clinical rating scales), we did not have access to clinical information known to be both common among homeless patients and to likely influence outcomes such as substance use. We focused on homelessness as a key determinant to access to care in this research, even though there are a variety of barriers to mental health care as we mentioned in the discussion. Homelessness is indeed a major factor at the root of all those barriers. We also did not measure social supports (family supports, community and social agency supports) available to patients following discharge (Dyck et al., Reference Dyck, Hendryx, Short, Voss and McFarlane2002). It would also be useful to assess the role of medication adherence in subsequent use of health services among people discharged as homeless. Future studies could further precise the relationship between having access to stable housing and adherence to a discharge planning that usually include follow-up visits. It would also be useful to obtain information about outcomes after discharge of patients who have a brief stay in the hospital (<72 h). In the future, studies could also attempt to characterise the specific mental health needs of individuals facing ‘hidden homelessness’.

Homeless has become a crisis worldwide and people facing it have significant unmet mental health needs (Gaetz et al., Reference Gaetz, Dej, Richter and Redman2016; FEANTSA, 2017). Homelessness at discharge is an important predictor of recurrent use of acute mental health care services as well as discontinuity of care. Interventions that promote an efficient transition to outpatient care, or that address housing needs, may be necessary to reduce the rates of readmission after discharge.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/S2045796019000052.

Availability of data and materials

All data supporting our study can be found in the ICES databases.

Acknowledgements

None.

Financial support

Vincent Laliberté’s work is supported by the Canadian Institutes of Health Research. Paul Kurdyak's work is supported in part by the Medical Psychiatry Alliance, a collaborative health partnership of the University of Toronto, the Centre for Addiction and Mental Health, the Hospital for Sick Children, Trillium Health Partners, the Ontario MOHLTC and an anonymous donor. This study was supported by the Institute for Clinical Evaluative Sciences (ICES), which is funded by an annual grant from the Ontario Ministry of Health and Long-Term Care (MOHLTC). The opinions, results and conclusions reported in this paper are those of the authors and are independent from the funding sources. No endorsement by ICES or the Ontario MOHLTC is intended or should be inferred. Parts of this material are based on data and/or information compiled and provided by the Canadian Institute for Health Information (CIHI). However, the analyses, conclusions, opinions and statements expressed in the material are those of the author(s), and not necessarily those of CIHI.

Conflict of interest

None.

Ethical standards

Not applicable.

References

Appleby, L and Desai, P (1987) Residential instability: a perspective on system imbalance. The American Journal of Orthopsychiatry 57, 515524.Google Scholar
Arfken, CL, Zeman, LL, Yeager, L, White, A, Mischel, E and Amirsadri, A (2004) Case-control study of frequent visitors to an urban psychiatric emergency service. Psychiatric Services 55, 295301.Google Scholar
Backer, TE, Howard, EA and Moran, GE (2007) The role of effective discharge planning in preventing homelessness. The Journal of Primary Prevention 28, 229243.Google Scholar
Boyer, CA (1997) Meaningful linkage practices: challenges and opportunities. New Directions for Mental Health Services 1997, 87101.Google Scholar
Bradley, SJ (2018) Health of homelessness. British Medical Journal, k902.Google Scholar
Burra, TA, Hwang, SW, Rourke, SB and Stergiopoulos, V (2012) Homeless and housed inpatients with schizophrenia: disparities in service access upon discharge from hospital. International Journal of Mental Health and Addiction 10, 778789.Google Scholar
Campbell, DJ, O'Neill, BG, Gibson, K and Thurston, WE (2015) Primary healthcare needs and barriers to care among Calgary's homeless populations. BMC Family Practice 16, 139.Google Scholar
Canavan, R, Barry, MM, Matanov, A, Barros, H, Gabor, E, Greacen, T, Holcnerová, P, Kluge, U, Nicaise, P, Moskalewicz, J, Díaz-Olalla, J, Strassmayr, C, Schene, AH, Soares, JJF, Gaddini, A and Priebe, S (2012) Service provision and barriers to care for homeless people with mental health problems across 14 European capital cities. BMC Health Services Research 12, 222.Google Scholar
Capp, R, Rosenthal, MS, Desai, MM, Kelley, L, Borgstrom, C, Cobbs-Lomax, DL, Simonette, P and Spatz, ES (2013) Characteristics of Medicaid enrollees with frequent ED use. American Journal of Emergency Medicine 31, 13331337.Google Scholar
Casper, ES (1995) Identifying multiple recidivists in a state hospital population. Psychiatric Services 46, 10741075.Google Scholar
Chambers, C, Katic, M, Chiu, S, Redelmeier, DA, Levinson, W, Kiss, A and Hwang, SW (2013) Predictors of medical or surgical and psychiatric hospitalizations among a population-based cohort of homeless adults. American Journal of Public Health 103(suppl. 2), S380S338.Google Scholar
Chang, JT, Sewell, JL and Day, LW (2015) Prevalence and predictors of patient no-shows to outpatient endoscopic procedures scheduled with anesthesia. BMC Gastroenteroly 15, 123.Google Scholar
Chiu, M, Gatov, E, Vigod, SN, Amartey, A, Saunders, NR, Yao, Z, Pequeno, P and Kurdyak, P (2018) Temporal trends in mental health service utilization across outpatient and acute care sectors: a population-based study from 2006 to 2014. Canadian Journal of Psychiatry 63, 94102.Google Scholar
De Hert, M, Cohen, D, Bobes, J, Cetkovich-Bakmas, M, Leucht, S, Ndetei, DM, Newcomer, JW, Uwakwe, R, Asai, I, Moller, HJ, Gautam, S, Detraux, J and Correll, CU (2011) Physical illness in patients with severe mental disorders. II. Barriers to care, monitoring and treatment guidelines, plus recommendations at the system and individual level. World Psychiatry 10, 138151.Google Scholar
de Vet, R, Beijersbergen, MD, Jonker, IE, Lako, DAM, van Hemert, AM, Herman, DB and Wolf, J (2017) Critical time intervention for homeless people making the transition to community living: a randomized controlled trial. American Journal of Community Psychology 60, 175186.Google Scholar
Dixon, L, Goldberg, R, Iannone, V, Lucksted, A, Brown, C, Kreyenbuhl, J, Fang, L and Potts, W (2009) Use of a critical time intervention to promote continuity of care after psychiatric inpatient hospitalization. Psychiatric Services 60, 451458.Google Scholar
Dixon, LB, Holoshitz, Y and Nossel, I (2016) Treatment engagement of individuals experiencing mental illness: review and update. World Psychiatry 15, 1320.Google Scholar
Drury, LJ (2008) From homeless to housed: caring for people in transition. Journal of Community Health Nursing 25, 91105.Google Scholar
Dyck, DG, Hendryx, MS, Short, RA, Voss, WD and McFarlane, WR (2002) Service use among patients with schizophrenia in psychoeducational multiple-family group treatment. Psychiatric Services 53, 749754.Google Scholar
Fazel, S, Khosla, V, Doll, H and Geddes, J (2008) The prevalence of mental disorders among the homeless in western countries: systematic review and meta-regression analysis. PLoS Medicine 5, 16701681.Google Scholar
Fazel, S, Geddes, JR and Kushel, M (2014) The health of homeless people in high-income countries: descriptive epidemiology, health consequences, and clinical and policy recommendations. The Lancet 384, 15291540.Google Scholar
FEANTSA (2017) Second Overview of Housing Exclusion in Europe. Brussels, Belgium: The Foundation Abbé PIerre – FEANTSA.Google Scholar
Folsom, DP, Hawthorne, W, Lindamer, L, Gilmer, T, Bailey, A, Golshan, S, Garcia, P, Unützer, J, Hough, R and Jeste, DV (2005) Prevalence and risk factors for homelessness and utilization of mental health services among 10,340 patients with serious mental illness in a large public mental health system. The American Journal of Psychiatry 162, 370376.Google Scholar
Forchuk, C, Russell, G, Kingston-Macclure, S, Turner, K and Dill, S (2006) From psychiatric ward to the streets and shelters. Journal of Psychiatric and Mental Health Nursing 13, 301308.Google Scholar
Gaetz, S, Barr, C, Friesen, A, Harris, B, Hill, C, Kovacs-Burns, K, Pauly, B, Pearce, B, Turner, K and Marsolais, A (2012) Canadian Definition of Homelessness. Toronto: Canadian observatory on homelessness press.Google Scholar
Gaetz, S, Dej, E, Richter, T and Redman, M (2016) The State of Homelessness in Canada 2016. Toronto: Canadian observatory on homlessness press.Google Scholar
Gatov, E, Rosella, L, Chiu, M and Kurdyak, PA (2017) Trends in standardized mortality among individuals with schizophrenia, 1993–2012: a population-based, repeated cross-sectional study. Canadian Medical Association Journal 189, E1177E1187.Google Scholar
Goering, P, Veldhuizen, S, Watson, A, Adair, C, Kopp, B, Latimer, E, Nelson, G, MacNaughton, E, Streiner, D and Aubry, T (2014) National At Home/Chez Soi Final Report. Mental Health Commission of Canada: Calgary, AB.Google Scholar
Hamilton, JE, Passos, IC, de Azevedo Cardoso, T, Jansen, K, Allen, M, Begley, CE, Soares, JC and Kapczinski, F (2015) Predictors of psychiatric readmission among patients with bipolar disorder at an academic safety-net hospital. Australian & New Zealand Journal of Psychiatry 50, 584593.Google Scholar
Health Quality Ontario (2018) ‘Measuring Up 2018. A yearly report on how Ontario's health system is performing’. Queen's Printer for Ontario. Available at: https://www.hqontario.ca/Portals/0/Documents/pr/measuring-up-2018-en.pdf. (Accessed 30 August 2018).Google Scholar
Herman, DB, Conover, S, Gorroochurn, P, Hinterland, K, Hoepner, L and Susser, ES (2011) Randomized trial of critical time intervention to prevent homelessness after hospital discharge. Psychiatric Services 62, 713719.Google Scholar
Hirdes, JP, Marhaba, M, Smith, TF, Clyburn, L, Mitchell, L, Lemick, RA, Telegdi, NC, Perez, E, Prendergast, P, Rabinowitz, T, Yamauchi, K and Resident Assessment Instrument-Mental Health Group (2000) Development of the Resident Assessment Instrument – Mental Health (RAI-MH). Hospital Quaterly 4, 4451.Google Scholar
Hirdes, JP, Smith, TF, Rabinowitz, T, Yamauchi, K, Perez, E, Telegdi, NC, Prendergast, P, Morris, JN, Ikegami, N, Phillips, CD, Fries, BE and Resident Assessment Instrument-Mental Health Group (2002) The Resident Assessment Instrument-Mental Health (RAI-MH): inter-rater reliability and convergent validity. Journal of Behavioral Health Services & Research 29, 419432.Google Scholar
Hwang, SW (2001) Homelessness and health. Canadian Medical Association Journal 164, 229233.Google Scholar
Irmiter, C, McCarthy, JF, Barry, KL, Soliman, S and Blow, FC (2007) Reinstitutionalization following psychiatric discharge among VA patients with serious mental illness: a national longitudinal study. The Psychiatric Quarterly 78, 279286.Google Scholar
Khandor, E, Mason, K, Chambers, C, Rossiter, K, Cowan, L and Hwang, SW (2011) Access to primary health care among homeless adults in Toronto, Canada: results from the Street Health survey. Open Medicine 5, e94e103.Google Scholar
Kreyenbuhl, J, Nossel, IR and Dixon, LB (2009) Disengagement from mental health treatment among individuals with schizophrenia and strategies for facilitating connections to care: a review of the literature. Schizophrenia Bulletin 35, 696703.Google Scholar
Kushel, MB, Perry, S, Bangsberg, D, Clark, R and Moss, AR (2002) Emergency department use among the homeless and marginally housed: results from a community-based study. American Journal of Public Health 92, 778784.Google Scholar
Lay, B, Lauber, C and Rossler, W (2006) Prediction of in-patient use in first-admitted patients with psychosis. European Psychiatry 21, 401409.Google Scholar
Lorine, K, Goenjian, H, Kim, S, Steinberg, AM, Schmidt, K and Goenjian, AK (2015) Risk factors associated with psychiatric readmission. The Journal of Nervous and Mental Disease 203, 425430.Google Scholar
Martin, L and Hirdes, JP (2009) Mental health needs and service use in Ontario. Healthcare Management Forum 22, 4046.Google Scholar
Pasic, J, Russo, J and Roy-Byrne, P (2005) High utilizers of psychiatric emergency services. Psychiatric Services 56, 678684.Google Scholar
Saab, D, Nisenbaum, R, Dhalla, I and Hwang, SW (2016) Hospital readmissions in a community-based sample of homeless adults: a matched-cohort study. Journal of General Internal Medicine 31, 10111018.Google Scholar
Schmutte, T, Dunn, C and Sledge, W (2009) Characteristics of inpatients with a history of recurrent psychiatric hospitalizations: a matched-control study. Psychiatric Services 60, 16831685.Google Scholar
Schmutte, T, Dunn, CL and Sledge, WH (2010) Predicting time to readmission in patients with recent histories of recurrent psychiatric hospitalization: a matched-control survival analysis. The Journal of Nervous and Mental Disease 198, 860863.Google Scholar
Skosireva, A, O'Campo, P, Zerger, S, Chambers, C, Gapka, S and Stergiopoulos, V (2014) Different faces of discrimination: perceived discrimination among homeless adults with mental illness in healthcare settings. BMC Health Services Research 14, 376.Google Scholar
Starfield, B, Weiner, J, Mumford, L and Steinwachs, D (1991) Ambulatory care groups: a categorization of diagnoses for research and management. Health Services Research 26, 5374.Google Scholar
Steele, LS, Glazier, RH, Lin, E and Evans, M (2004) Using administrative data to measure ambulatory mental health service provision in primary care. Medical Care 42, 960965.Google Scholar
Stein, BD, Kogan, JN, Sorbero, MJ, Thompson, W and Hutchinson, SL (2007) Predictors of timely follow-up care among Medicaid-enrolled adults after psychiatric hospitalization. Psychiatric Services 58, 15631569.Google Scholar
Stergiopoulos, V, Hwang, SW, Gozdzik, A, Nisenbaum, R, Latimer, E, Rabouin, D, Adair, CE, Bourque, J, Connelly, J, Frankish, J, Katz, LY, Mason, K, Misir, V, O'Brien, K, Sareen, J, Schutz, CG, Singer, A, Streiner, DL, Vasiliadis, HM, Goering, PN and At Home/Chez Soi Investigators (2015) Effect of scattered-site housing using rent supplements and intensive case management on housing stability among homeless adults with mental illness: a randomized trial. Journal of the American Medical Association 313, 905915.Google Scholar
Susser, E, Valencia, E, Conover, S, Felix, A, Tsai, WY and Wyatt, RJ (1997) Preventing recurrent homelessness among mentally ill men: a ‘critical time’ intervention after discharge from a shelter. American Journal of Public Health 87, 256262.Google Scholar
Tomita, A and Herman, DB (2012) The impact of critical time intervention in reducing psychiatric rehospitalization after hospital discharge. Psychiatric Services 63, 935937.Google Scholar
Tsai, J and Rosenheck, RA (2013) Risk factors for ED use among homeless veterans. The American Journal of Emergency Medicine 31, 855858.Google Scholar
Tsai, M, Weintraub, R, Gee, L and Kushel, M (2005) Identifying homelessness at an urban public hospital: a moving target? Journal of Health Care for the Poor and Underserved 16, 297307.Google Scholar
Tulloch, AD, Fearon, P and David, AS (2011) Residential mobility among patients admitted to acute psychiatric wards. Health & Place 17, 859866.Google Scholar
University John Hopkins, Johns Hopkins ACG Case-Mix Adjustment System. Available at: http://www.acg.jhsph.edu (Accessed 3 June 2018).Google Scholar
Urbanoski, KA, Mulsant, BH, Willett, P, Ehtesham, S and Rush, B (2012) Real-world evaluation of the Resident Assessment Instrument-Mental Health assessment system. Canadian Journal of Psychiatry 57, 687695.Google Scholar
Vigod, SN, Kurdyak, PA, Seitz, D, Herrmann, N, Fung, K, Lin, E, Perlman, C, Taylor, VH, Rochon, PA and Gruneir, A (2015) READMIT: a clinical risk index to predict 30-day readmission after discharge from acute psychiatric units. Journal of Psychiatric Research 61, 205213.Google Scholar
Figure 0

Table 1. Baseline characteristics of patients at admission who were homeless at discharge

Figure 1

Table 2. Outcomes after discharge according to the living situation

Figure 2

Fig. 1. Readmission rates within 30 days of discharge.

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