Type 2 diabetes management in the homeless population: health inequality and the Housing First approach

FEE BENZ

Abstract

Homelessness is a significant public health concern, with a substantial homeless population in England. Homeless individuals face unique challenges, including a heightened risk of violence, inadequate nutrition, limited healthcare access and increased prevalence of co-morbidities. Type 2 diabetes (T2DM) is notably more prevalent among homeless individuals compared to the general population, leading to higher rates of diabetes-related emergency department visits and hospitalisations.

There is limited research examining diabetes management specifically in homeless populations, and a comprehensive review addressing the barriers and targeted interventions for this vulnerable group is currently lacking. This article aims to explore the health inequalities experienced by homeless individuals in relation to T2DM management, and to evaluate the Housing First approach as a potential intervention. Housing First, which provides immediate access to permanent housing, has demonstrated efficacy in enhancing housing stability and healthcare behaviours among homeless populations. Moreover, the available evidence suggests that Housing First programmes may improve diabetes-related outcomes, including HbA1c testing and medication adherence, and may lead to fewer hospitalisations.

Br J Diabetes 2023;23:69-76 

https://doi.org/10.15277/bjd.2023.421

Key words: type 2 diabetes mellitus, housing first intervention, homelessness

Case Study

A 56-year-old homeless man with a history of hypertension, alcoholism and poorly controlled type 2 diabetes (T2DM) was brought to the emergency department by paramedics after being found unresponsive at night on the street. He was noted to be hypotensive, febrile and severely dehydrated. A glucose measurement revealed severe hyperglycaemia at 31 mmol/L, and subsequent blood tests confirmed a diagnosis of diabetic ketoacidosis (DKA). The medical team started the patient on IV fluids, insulin and potassium.

On physical examination, the patient was further noted to have multiple necrotic ulcers with surrounding erythema and purulent discharge on his lower legs. The examination also revealed several other infected scrapes and cuts on his extremities. The medical team added IV antibiotics and sterile saline irrigation to the treatment regimen to treat the patient’s wounds.

During his hospital stay, his care was complicated by his poorly managed co-morbidities, alcoholism and general aversion to the hospital setting. Eventually, despite the medical team’s best efforts, the wound care was declared unsuccessful, and the decision was made to amputate the patient’s left second and third toes.

Introduction

Homelessness is a significant public health concern. There are more than 271,000 homeless individuals living in England, among whom 3,069 are rough sleepers without access to hostels, shelters or campsites on any night.^1,2 The homeless population is a uniquely vulnerable patient group, facing increased risk of sexual and physical violence, poorer nutritional status, lower medication compliance rates, less dependable wound care, reduced access to healthcare causing delayed presentations, and higher rates of co-morbidities.^3–5 As the case study exemplifies, these complexities complicate and hamper T2DM care for homeless individuals. Indeed, it is estimated that the prevalence of T2DM is 33% more common in homeless individuals (8–22%) compared to the UK population-wide prevalence (6%).^6–8 Within a given year, homeless individuals with T2DM are five times as likely to report diabetes-related emergency department visits or hospitalisations compared to stably-housed individuals.⁵ These figures highlight the need for effective public health interventions to address poor T2DM management and to reduce severe complications among the homeless population.

Despite the significant burden of homelessness on diabetes management, limited research has been conducted on diabetes management in the homeless population. To the author’s best knowledge, there is no specific review addressing the unique barriers to diabetes treatment and efficacy of the Housing First approach in homeless individuals living with diabetes. Hence, this paper examines homelessness as a source of health inequality, addresses the specific barriers to T2DM management that homeless individuals face, and evaluates the Housing First public health initiative as a potential prevention tool for poor T2DM management among homeless individuals.

Homelessness and health inequality

The 1996 UK Housing Act defines homelessness as:

1. having no accommodation available for continued occupation,
2. having accommodation without secure entry to it, or
3. having moveable accommodation (e.g. a tent, car)without a permanent legal space to place it.⁹

Here, we expand upon this legal definition and define homelessness as individuals sleeping rough (e.g. in the open air, in tents, bus shelters or parks), sleeping in temporary accommodation (e.g. shelters or hostels) or sleeping in unsuitable housing (e.g. sofa surfing).¹⁰

Health inequality is a systematic discrepancy in health outcomes between different populations.

Homelessness is associated with significant health inequality and poor health outcomes. The UK Office for National Statistics (ONS) found that homeless individuals are up to three times more likely to die prematurely compared to the general population, with an average life expectancy of just 47 years compared to 87 years in the general population.^11,12 Moreover, the estimated number of deaths among homeless people has increased by 53.7% since ONS began recording homeless deaths in 2013.¹² In 2020-2021, approximately one in three deaths were related to drug poisoning, 13% were due to suicide, 10% were caused by alcohol-specific pathology and 8% were due to assault.¹²

Homelessness is also associated with T2DM-specific health inequalities. In 2021, T2DM accounted for 1% of deaths in homeless individuals aged 20-44 years, compared to 0.01% of deaths in the same age group in the general population.^12,13 Homeless people with diabetes also report higher average glycated haemoglobin levels (HbA1c), indicating poorer diabetes control; one cross-sectional study reported that 40% of homeless participants measured an HbA1c level above 64 mmol/mol.⁶ Moreover, people with diabetes without housing are four times more likely to experience diabetes-related hospitalisation;⁵ 56% of hospitalisations were due to mixed hyperglycaemic coma with acidosis and 36% due to diabetic ketoacidosis (DKA).¹⁴ Lastly, homeless people with diabetes have significantly higher rates of lower limb amputations than housed people with diabetes.⁶

Causes of health inequalities in homelessness

Two Canadian interview-based studies^15,16 of 96 participants with lived experience of homelessness and diabetes highlighted the significant challenges faced by homeless individuals living with T2DM. ^15,16 These studies identified ten key barriers to diabetes management in this population: (i) pre-existing mental health disorders, (ii) alcohol/drug addiction, (iii) chronic medical conditions, (iv) exposure to harsh weather, (v) poor access to T2DM-friendly food, (vi) theft of medication and footwear, (vii) inaccessible sanitation, (viii) lack of housing, (ix) difficult-to- navigate services and (x) stigma/discrimination (see Table 1).

Homeless individuals experience significantly higher rates of mental illness, alcohol/drug dependency and chronic physical illness than housed individuals. In 2020/2021, ONS found that 59% of individuals sleeping rough have a history of mental health problems, 47% of alcohol/drug dependency, 33% of chronic physical illness, and the incidence of chronic health conditions is three times greater in the homeless population compared to housed individuals.^17,18

Homeless individuals are also exposed to harmful environmental/communal factors, including extreme weather conditions, poor food supply, abuse and inadequate access to facilities. Up to 62% of homeless individuals are affected by heat- related illness,¹⁹ and 43-78% of homeless individuals report being unable to meet their daily nutritional needs.^20,21 Further, 80% of homeless individuals have experienced antisocial behaviour or sexual/physical abuse within the last year, including being deliberately urinated on or kicked.²² Individuals who lack secure housing have limited access to sanitation facilities such as restrooms and showers, which puts them at a significant risk of being exposed to hazardous chemicals, waterborne diseases, pollution, unclean sanitation facilities and unsafe water sources.²³ 

Homeless individuals also face barriers to accessing medical care. They experience higher rates of discrimination and unprofessional behaviour from healthcare professionals, which leads to a lack of confidence, feelings of professional inadequacy, and negative attitudes towards the care environment.²⁴ This can decrease and delay seeking healthcare, which may lead to more severe illness at presentation.^14,24 Notably, failure to see a primary care physician in the previous year was the strongest predictor of diabetes-related hospital admission in a study exploring hospitalisation among diabetic homeless individuals.¹⁴

The evidence presented here highlights the need for public health interventions to address barriers to T2DM management in the homeless population. Figure 1 summarises the various factors contributing to health disparities in diabetes management among homeless individuals. Each of these factors presents a potential opportunity for intervention.

Public health interventions for the management of T2DM

Public health interventions for T2DM traditionally focus on improving individual health behaviours and healthcare access. While such interventions have moderate to good success in the general population, homeless individuals face unique and often complex barriers to diabetes care that population-wide interventions do not address.²⁵ Table 2 presents the findings of a brief scoping review of traditional public health interventions offered to homeless individuals with type 2 diabetes.^26-31

We identified seven studies assessing diabetes management interventions among homeless individuals, including a meta- analysis of six studies not otherwise included in our total. Offered interventions included diabetes education programmes, medicine distribution, food resource guidance and provision of targeted medical care. Notably, all studies reported high attrition rates: only a median 32% of participants were retained for the full duration of the intervention. Participants reported several barriers to continued participation, including lacking facilities (e.g. to inject medication, charge electronic devices or prepare food), competing priorities (e.g. securing a sleeping place) and (iii) inaccessible services (e.g. inability to track scheduled appointments, lack of online resource and limited access to transportation).

Findings of the included studies were mixed. Two studies reported short-term declines in HbA1c levels, but these did not persist after six months. Three studies reported improved diabetes knowledge and perceived peer support, although perceived empowerment did not increase in any study. Lastly, two studies reported improved quality of diet compared to baseline, but most participants were unable to achieve a diet of three adequate meals per day.

Importantly, despite some positive outcomes, the high drop-out rate indicates low efficacy of the evaluated interventions among the homeless populations. Overall, the identified barriers to continued participation highlight the need for secure housing prior to engaging with secondary, diabetes- specific interventions.²⁵

The Housing First approach

Housing First is an intervention that emerged in the last decade. It is rooted in the belief that housing is a fundamental human right, access to which should be provided immediately and without requiring proof of ‘readiness’ for housing.^32-34 The Housing First intervention provides wholistic, open-ended support typically supplemented with specialist support and additional services such as addiction counselling. Conventional housing initiatives require homeless individuals to progress stepwise from emergency shelters to transitional accommodation before they become eligible for permanent supportive housing. Moreover, access to permanent housing is often conditional on meeting strict requirements, such as sobriety and acceptance of psychiatric treatment, to demonstrate ‘housing readiness.’³²

The Housing First approach was developed in 1992 in New York and has since been widely adopted across North America, Denmark, Finland and France.³⁵ The first UK Housing First project was established in Scotland in 2010 and since then several Housing First projects have been set up in London, Liverpool, Greater Manchester and the West Midlands.³⁵ In 2017, the UK government released £28 million pounds of funding for Housing First pilot projects across the UK.³⁶ In 2020, a total of 87 services had been established that supported a total of 1,995 individuals.³⁷

Housing First has demonstrated significant success in increasing housing stability.^33,34 Analysis from the multi-site Canadian Housing First project ‘Chez Soi’ following 7,862 adults over two years found that Housing First clients were over four times (RR=4.12) more likely to remain housed after two years compared to treatment as usual (TAU).³³ In England and Scotland, Housing First pilots achieved a tenancy sustainment rate between 80-89% over two years (2018 to 2020).^38,39 Moreover, a recent report from the Centre for Social Justice concluded that Housing First can prevent vulnerable individuals from becoming homeless by expanding services to at-risk groups (e.g. prison leavers, care leavers and victims of domestic abuse).^{38, 40-54}

Although Housing First programmes effectively improve housing stability and physical health, some authors have raised concerns about the lack of compulsory engagement with supportive services. They suggest this may negatively affect health outcomes, as individuals may not have the necessary incentives to engage with employment, social and psychological/addiction counselling.⁴⁰ Indeed, Housing First users have a high rate of mental health and substance-use comorbidities.⁵⁵ Despite this criticism, evidence from European Housing First projects in Amsterdam, Copenhagen and Glasgow indicate good uptake of supportive services, with clients receiving support for 4.5 to 10 hours each week.³² Moreover, data from the Canadian Chez Soi project indicate improved mental health and quality of life in Housing First clients compared to TAU.^{34, 41,42}

Findings relating to substance abuse among Chez Soi users are mixed. While most studies report significant reductions in substance abuse among Housing First clients,^{46, 49-52} some have found no significant effects,^45,53 and one study reported increases in alcohol consumption compared to baseline.⁴¹

In England, 66% of surveyed Housing First users reported improved mental health since joining the programme and reduced rates of severe mental illness (ARR=34%), although a minority of individuals experienced deteriorating mental health.⁵⁶ A 2015 evaluation of nine Housing First services in England found that Housing First programmes reduced the incidence of drinking alcohol on the street (ARR=22%), drinking alcohol until intoxication (ARR=15%) and illicit drug consumption (ARR=13%) compared to baseline.⁵⁶ Similarly, an international review of Housing First projects in Canada, Australia, the Netherlands, Denmark, Portugal and the UK concluded that overall Housing First is associated with improvement or stabilisation of mental health and substance use symptoms, and that Housing First programmes perform at least as well as TAU in addressing mental health and substance use disorders.^39,58,59

A second concern with Housing First programmes is the cost-effectiveness of its implementation and the integration of programmes into existing housing markets. In 2020, the National Housing Federation (NHF) assessed the willingness of Housing Associations to participate in Housing First models. NHF found that Housing Associations overwhelmingly considered participation in Housing First projects ‘attractive’ and that participating associations incurred no additional costs in providing Housing First services compared to other general needs properties.⁵⁹ Further, a 2022 report published by the UK Department for Levelling Up, Housing and Communities estimated that the provision of 16,450 Housing First places over three years would cost £9,700 per client per annum, while an additional £15,100 per client would be saved each year on other costs such as homelessness services, criminal justice systems, the NHS, mental health services and substance disorder services.^38,55,60

Housing First and diabetes management

To the author’s best knowledge, only two studies are currently available that assessed the impact of Housing First programmes on diabetes management in homeless individuals. One of the studies was conducted on a small scale and involved 10 homeless individuals with diabetes who were enrolled in a Housing First programme and followed up for three months.⁶¹ The study found that the Housing First programme led to a significant reduction in HbA1c levels (an average reduction of 22%), and a significant increase in self-efficacy and diabetes foot self-care.⁶¹

The second study was conducted by Lim et al.³³ and followed 7,525 previously homeless individuals participating in a Housing First programme based in New York over two years. The programme provided permanent housing to chronically homeless adults with serious mental illness, substance use disorders, HIV/AIDS, and former foster youth at risk of homelessness. The evaluation focused on 7,862 eligible adults who were Medicaid recipients during at least 80% of their follow-up time. The study evaluated two subgroups: 1,489 adults diagnosed with diabetes and 6,036 without a record of a diabetes diagnosis.

Overall, persons in the Housing First programme received more medical evaluations (RR=1.05) and experienced fewer hospitalisation (RR=0.73) and fewer emergency department visits (RR=0.73).³³ Among individuals with diabetes, those in the Housing First programme were more likely to receive HbA1c testing (RR=1.10), lipid testing (RR=1.09) and diabetes medication prescriptions (RR=1.23). Moreover, diabetic individuals in the Housing First programme experienced fewer diabetes-related hospitalisations (RR=0.77) and emergency department visits (RR=0.63).³³ Finally, Housing First participants without diabetes at baseline had a lower risk of developing new-onset diabetes than TAU participants during the two-year follow-up period (RR=0.87).³³

In summary, Housing First interventions have successfully improved housing stability and reduced the burden on the healthcare system for homeless individuals, including those with serious mental illness and substance use disorders. Two studies on the impact of Housing First programmes on diabetes management in homeless individuals have found that Housing First participants received more medical evaluations, experienced fewer hospitalisations and emergency department visits, and were more likely to receive diabetes-related testing and medications. While these findings are promising, there is still a lack of research on the specific impact of Housing First programmes on diabetes management in homeless populations. Future studies could explore the long-term effects of Housing First programmes on diabetes outcomes and investigate potential barriers to diabetes management in homeless people and how Housing First programmes can address these challenges. More research is needed to determine the appropriate population for Housing First programmes and to integrate substance use services better.

Conclusions

Homelessness is a significant public health concern that leads to health inequality and poor health outcomes, particularly in the management of T2DM. Homeless individuals face unique and complex barriers to diabetes care that traditional public health interventions do not adequately address.

The Housing First approach has emerged as a promising public health intervention that has demonstrated significant success in increasing housing stability, healthcare behaviours and overall survival. In addition, Housing First programmes have been shown to reduce the financial burden of homelessness on the healthcare system significantly, with an average cost reduction of £15,100 per person per annum.

Although there is a lack of research on the specific impact of Housing First programmes on diabetes management in homeless populations, the available studies suggest that Housing First programmes may improve diabetes-related testing and medications, reduce diabetes-related hospitalisations and emergency department visits, and increase self-efficacy and diabetic foot self-care. Further research is needed to determine the appropriate population for Housing First programmes and to explore the long-term effects of Housing First programmes on diabetes outcomes.

Overall, effective public health interventions are urgently needed to address the barriers to T2DM management faced by homeless individuals and to reduce serious T2DM complications among this vulnerable population.

Conflict of interest None.

Funding None.

References

1. UK Government. Rough sleeping snapshot in England, 2022. https://www.gov.uk/government/statistics/rough-sleeping-snapshot-in-england-autumn-2022/rough-sleeping-snapshot-in-england-autumn-2022
2. At least 271,000 people are homeless in England today - Shelter England, 2023. Shelter, the National Campaign for Homeless People Limited https://england.shelter.org.uk/media/press_release/at_least_271000_people_are_homeless_in_england_today.
3. Wiens K, Bai L, Austin PC, et al. Characteristics of people with type I or type II diabetes with and without a history of homelessness: a population-based cohort study. medRxiv 08.11.22278127 https://doi.org/10.1101/2022.08.11.22278127.
4. Wiens K, Bai L, Austin PC, et al. Long-term association between homelessness and mortality among patients with diabetes who use hospital services. Lancet Diabetes Endocrinol 2023;11:229–231. https://doi.org/10.1016/S2213-8587(22)00358-8
5. Berkowitz SA, Kalkhoran S, Edwards ST, Essien UR, Baggett TP. Unstable housing and diabetes-related emergency department visits and hospitalization: a nationally representative study of safety-net clinic patients. Diabetes Care 2018;41:933–9. https://doi.org/10.2337/dc17-1812
6. DUKPC research highlights: Day 1. Diabetes UK, The British Diabetic Association, https://www.diabetes.org.uk/about-us/news-and-views/DUKPC-highlights-part-1
7. The National Autistic Society. How Many People in the UK Have Autism? The National Autistic Society, 2013. https://www.diabetes.org.uk/professionals/position-statements-reports/statistics
8. Scott J, Gavin J, Egan AM, et al. The prevalence of diabetes, pre- diabetes and the metabolic syndrome in an Irish regional homeless population. QJM 2013;106:547–53. https://doi.org/10.1093/qjmed/hct063
9. Housing Act 1996. The Stationery Office 1996;2008:256.
10. Types of homelessness. Crisis UK. Together we will end homelessness. https://www.crisis.org.uk/ending-homelessness/homelessness-knowledge-hub/types-of-homelessness/.
11. Life expectancy at birth and premature mortality rate - Office for National Statistics, 2021. https://www.ons.gov.uk/peoplepopulationandcommunity/birthsdeathsandmarriages/deaths/datasets/lifeexpectancyatbirthandselectedolderages
12. Butt A, John E. Deaths of homeless people in England and Wales. Office for National Statistics, 2019.
13. Office for National Statistics – NOMIS, OLM Statistics. Mortality Statistics – underlying cause sex and age. http://www.co.uk/articles/1128.aspx. Nomis - Official Census and Labour Market Statistics, Office for National Statistics 2022 (2019).
14. Booth GL, Hux JE. Relationship between avoidable hospitalizations for diabetes mellitus and income level. Arch Intern Med 2003;163: 101–6. https://doi.org/10.1001/archinte.163.1.101
15. D’Souza MS, O’Mahony J, Achoba A. Exploring foot care conditions for people experiencing homelessness: a community participatory approach. J Prim Care Community Health2022;13: 215013192110 65247 https://doi.org/10.1177/21501319211065247
16. Grewal EK, Campbell RB, Booth GL, et al. Using concept mapping to prioritize barriers to diabetes care and self-management for those who experience homelessness. Int J Equity Health 2021; 20:158 https://doi.org/10.1186/s12939-021-01494-3
17. Homelessness Case Level Information (H-CLIC). Office for National Statistics, 2023. https://www.gov.uk/government/publications/dashboards-on-homelessness
18. Boobis S, Albanese, F. The impact of COVID-19 on people facing homelessness. Crisis.org.uk, 2020 https://www.google.com/url?sa=t&rct=j&q=&esrc=s&source=web&cd=&cad=rja&uact=8&ved =2ahUKEwiqq6KyjLv-AhVhoVwKHRM-BsgQFnoECB0QAQ&url=https%3A%2F%2Fwww.crisis.org.uk%2Fmedia%2F244285%2Fthe_impact_of_covid19_on_people_facing_homelessness_and_service_provision
19. Thomas B. Homelessness: a silent killer, 2011. https://www.crisis.org.uk/ending-homelessness/homelessness-knowledge-hub/health-and-wellbeing/homelessness-a-silent-killer-2011
20. Homelessness and health: what’s the connection? https://nhchc.org/
21. Cretch E. Food insecurity & young homeless people, https://centrepoint.org.uk/what-we-do/policy-and-research/food-insecurity-report/
22. New research reveals the scale of violence against rough sleepers. Crisis 2022. https://www.crisis.org.uk/about-us/latest-news/new-research-reveals-the-scale-of-violence-against-rough-sleepers/
23. Heller L. The Human Rights to Water and Sanitation. King’s College London, 2022. https://doi.org/10.1017/9781108938679.
24. Kushel MB, Vittinghoff E, Haas JS. Factors associated with the health care utilization of homeless persons. JAMA 2001;285,200–6 https://doi.org/10.1001/jama.285.2.200
25. Constance J, Lusher JM. Diabetes management interventions for homeless adults: a systematic review. International Journal of Public Health 2020; 65: 1773–83. https://doi.org/10.1007/s00038-020-01513-0
26. Davis S, Keep S, Edie A, Couzens S, Pereira K. A peer-led diabetes education program in a homeless community to improve diabetes knowledge and empowerment. J Community Health Nurs 2016; 33: 71–80. https://doi.org/10.1080/07370016.2016.1159435
27. Wilk T, Mora PF, Chaney S, Shaw K. Use of an insulin pen by homeless patients with diabetes mellitus. J Am Acad Nurse Pract 2002;14,372–80. https://doi.org/10.1111/j.1745-7599.2002.tb00138.x
28. Marpadga S, Fernandez A, Leung J, et al. Challenges and successes with food resource referrals for food-insecure patients with diabetes. Perm J 2019;23:18–97. https://doi.org/10.7812/TPP/18-097
29. Nelson LA, Greevy RA, Spieker A, et al. Effects of a tailored text messaging intervention among diverse adults with type 2 diabetes: evidence from the 15-month REACH randomized controlled trial. Diabetes Care 2021;44:26–34. https://doi.org/10.2337/dc20-0961
30. Savage CL, Lindsell CJ, Gillespie GL, Lee RJ, Corbin A. Improving health status of homeless patients at a nurse-managed clinic in the Midwest USA. Health Soc Care Community 2008;16:469–75.
31. Moczygemba LR, Thurman W, Tormey K, et al. GPS mobile health intervention among people experiencing homelessness: Pre-post study. JMIR Mhealth Uhealth 2021;9:e25553. https://doi.org/10.2196/25553
32. Wewerinke D, al Shamma S, Wolf Boróka Fehér J, Balogi Lars Benjaminsen Sarah Johnsen with Suzanne Fitzpatrick José Ornelas A. Housing First Europe final report supported by the European Union Programme for Employment and Social Security-PROGRESS (2007-2013), 2013.
33. Lim S, Miller-Archie SA, Singh TP, et al. Supportive housing and its relationship with diabetes diagnosis and management among homeless persons in New York City. Am J Epidemiol 2019;188:1120–9 https://doi.org/10.1093/aje/kwz057
34. Fitzpatrick-Lewis D, Gannan R, Krishnaratne S, et al. Effectiveness of interventions to improve the health and housing status of homeless people: a rapid systematic review. BMC Public Health 2011;11:1–14. https://doi.org/10.1186/1471-2458-11-638
35. National Housing Federation. Experiences of housing associations delivering Housing First Research into how housing associations use the Housing First model and recommendations for delivery, 2020. https://www.housing.org.uk/globalassets/files/resource-files/housing-first-barriers-and-best-practice-v0.9_final.pdf
36. Government of the United Kingdom, 2017. Government to lead national effort to end rough sleeping. https://www.gov.uk/government/news/government-to-lead-national-effort-to-end-rough-sleeping
37. Housing First England. The picture of Housing First in England 2020 Survey report 2. Housing First England Homeless Link. Homeless Link
38. Close to Home: Delivering a national Housing First programme in England. The Centre for Social Justice, 2021.
39. Pleace N, Quilgars D. Improving health and social Integration through Housing First: a review, https://www.feantsaresearch.org/
40. Corinth K. The impact of permanent supportive housing on homeless populations. J Hous Econ 2017;35:69–84. https://doi.org/10.1016/j.jhe.2017.01.006
41. Loubière S, Lemoine C, Boucekine M, et al. Housing First for homeless people with severe mental illness: extended 4-year follow-up and analysis of recovery and housing stability from the randomized Un Chez Soi d’Abord trial. Epidemiol Psychiatr Sci 2002;31. https://doi.org/10.1017/S2045796022000026
42. Peng Y, Hahn RA, Finnie RKC, et al. Permanent supportive housing with Housing First to reduce homelessness and promote health among homeless populations with disability: a community guide systematic review. J Public Health Manage Pract 2020;26:404–11. https://doi.org/10.1097/PHH.0000000000001219
43. Wolitski RJ, Kidder DP, Pals SL, et al. Randomized trial of the effects of housing assistance on the health and risk behaviors of homeless and unstably housed people living with HIV. AIDS Behav 2010;14: 493–503. https://doi.org/10.1007/s10461-009-9643-x
44. Schwarcz SK, Hsu LC, Vittinghoff E, et al. Impact of housing on the survival of persons with AIDS. BMC Public Health 2009;9:1–18. https://doi.org/10.118611471-2548-9-220
45. Padgett DK, Gulcur L, Tsemberis S. Housing First services for people who are homeless with co-occurring serious mental illness and substance abuse. Res Soc Work Pract 2006;16:74–83. https://doi.org/10.1177/1049731505282593
46. Rotheram-Borus MJ, Desmond K, Comulada WS, et al. Reducing risky sexual behavior and substance use among currently and formerly homeless adults living with HIV. Am J Public Health 2009; 99:1100–7.
47. Patterson M, Moniruzzaman A, Palepu A, et al. Housing First improves subjective quality of life among homeless adults with mental illness: 12-month findings from a randomized controlled trial in Vancouver, British Columbia. Soc Psychiatry Psychiatr Epidemiol 2013;48:1245–59. https://doi.org/10.1007/s00127-013-0719-6
48. Mejia-Lancheros C, Lachaud J, To MJ, et al. The long-term effects of a Housing First intervention on primary care and non-primary care physician visits among homeless adults with mental illness: a 7-year RCT follow-up. J Prim Care Community Health 2021;12: 21501327211027102. https://doi.org/10.1177/21501327211027102
49. Kirst M, Zerger S, Misir V, Hwang S, Stergiopoulos V. The impact of a Housing First randomized controlled trial on substance use problems among homeless individuals with mental illness. Drug Alcohol Depend 2015;146:24–9. https://doi.org/10.1016/j.drugalcdep.2014.10.019
50. Milby JB, Schumacher JE, Wallace D, Freedman MJ, Vuchinich RE. To house or not to house: the effects of providing housing to homeless substance abusers in treatment. Am J Public Health 2005;95:1259–65. https://doi.org/10.2105/AJPH.2004.039743
51. Kertesz SG, Mullins AN, Schumacher JE, et al. Long-term housing and work outcomes among treated cocaine-dependent homeless persons. J Behavioral Health Services Research2007;34:17–33. https://doi.org/10.1007/s11414-006-9041-3
52. Milby JB, Schumacher JE, McNamara C, et al. Initiating abstinence in cocaine abusing dually diagnosed homeless persons. Drug Alcohol Depend 2000;60:55–67. https://doi.org/10.1016/s0376-8716(99)00139-8
53. Milby JB, Schumacher JE, Wallace D, et al. Day treatment with contingency management for cocaine abuse in homeless persons: 12-month follow-up. J Consult Clin Psychol 2003;71619–21. https://doi.org/10.1037/0022-006x.71.3.619
54. Baxter AJ, Tweed EJ, Katikireddi SV, Thomson H. Effects of Housing First approaches on health and well-being of adults who are homeless or at risk of homelessness: systematic review and meta- analysis of randomised controlled trials. J Epidemiol Community Health 2019;73:379–87. https://doi.org/10.1136/jech-2018-210981
55. September 2022. Department for Levelling Up, Housing and Communities Evaluation of the Housing First Pilots Third Process Report.
56. Breatherton J, Pleace N. Housing First in England - an evaluation of nine services, 2015. https://www.york.ac.uk/media/chp/documents/2015
57. Goering P, et al. National Final Report Cross-Site At Home/Chez Soi Project, http://www.mentalhealthcommission.ca
58. Lemoine C, Loubiere S, Boucekine M, et al. Cost-effectiveness analysis of housing first intervention with an independent housing and team support for homeless people with severe mental illness: a Markov model informed by a randomized controlled trial. Soc Sci Med 2021;272:113692. https://doi.org/10.j.socscimed.2021.113692
59. National Housing Federation. Experiences of housing associations delivering Housing First research into how housing associations use the Housing First model and recommendations for delivery, https://www.housing.org.uk/globalassets/files/resource-files/housing-first-barriers-and-best-practice-v0.9_final.pdf
60. Wilson W, Loft P. Housing First: tackling homelessness for those with complex needs. Briefing Paper 37, 2021. House of Commons Library.
61. Schick V, Witte L, Isbell S, et al. A community–academic collaboration to support chronic disease self-management among individuals living in permanent supportive housing. Prog Community Health Partnersh 2020; 14: 89–99. https://doi.org/10.1353/cpr2020.011