Introduction
Involuntary treatment and care is common and increasing in high-income countries, with variation by country (Wasserman et al., Reference Wasserman, Apter, Baeken, Bailey, Balazs, Bec, Bienkowski, Bobes, Bravo Ortiz, Brunn, Bôke, Camilleri, Carpiniello, Chihai, Chkonia, Courtet, Cozman, David, Dom, Esanu, Falkai, Flannery, Gasparyan, Gerlinger, Gorwood, Gudmundsson, Hanon, Heinz, Heitor Dos Santos, Hedlund, Ismayilov, Ismayilov, Isometsä, Izakova, Kleinberg, Kurimay, Klæbo Reitan, Lecic-Tosevski, Lehmets, Lindberg, Lundblad, Lynch, Maddock, Malt, Martin, Martynikhin, Maruta, Matthys, Mazaliauskiene, Mihajlovic, Mihaljevic Peles, Miklavic, Mohr, Munarriz Ferrandis, Musalek, Neznanov, Ostorharics-Horvath, Pajević, Popova, Pregelj, Prinsen, Rados, Roig, Rojnic, Samochowiec, Sartorius, Savenko, Skugarevsky, Slodecki, Soghoyan, DS, Taylor-East, Terauds, Tsopelas, Tudose, Tyano, Vallon, RJ, Varandas, Vavrusova, Voloshyn, Wancata, Wise, Zemishlany, Öncü and Vahip2020). Compulsory hospital admissions, whether or not associated with other coercive measures, are important causes of trauma and negative treatment outcomes among people with mental disorders. Several studies show that these episodes of deprivation of liberty constitute a very negative experience (Nyttingnes et al., Reference Nyttingnes, Ruud and Rugkåsa2016; Sibitz et al., Reference Sibitz, Scheutz, Lakeman, Schrank, Schaffer and Amering2011), affecting quality of life (Swanson et al., Reference Swanson, Swartz, Elbogen, Wagner and Burns2003), with little evidence of effectiveness in terms of health status, social functioning and use of services (Hofmann et al., Reference Hofmann, Schmid, Hofmann, Noboa, Seifritz, Vetter and Egger2022). The overall cost of compulsory hospitalizations has scarcely been studied (Venturini et al., Reference Venturini, de Moura, Bastos, Martins and Fragoso2017).
Different models of interventions to reduce compulsory admissions have been developed. Of these, psychiatric advance directives (PADs) or joint crisis plans (JCPs) are written documents that allow adults with mental illness and with temporary decision-making incapacity to state their will and preferences in advance, to be applied if further mental health crises impair their decision-making capacity (Henderson et al., Reference Henderson, Swanson, Szmukler, Thornicroft and Zinkler2008).
Behind this common objective, PADs and JCPs differ in several ways, including their legal force or with whom they are fulfilled (Atkinson et al., Reference Atkinson, Garner, Patrick and Stuart2003). On the one hand, the specificity of PADs is that they emphasize that they are legal documents, on the other hand, JCPs rather emphasize that they are on an agreement signed by the person, the healthcare professionals and possibly the relatives. Authors have highlighted profound differences in the way people’s autonomy is represented in JCPs and PADs: more absolute for PADs advocates and more assisted for JCPs advocates (Ambrosini and Crocker, Reference Ambrosini and Crocker2010). Despite these differences, PADs and JCPs have so much in common that they are routinely categorized as a similar intervention and analysed together in systematic reviews, which all rank them among the most effective interventions for reducing compulsory admission (Barbui et al., Reference Barbui, Purgato, Abdulmalik, Caldas-de-almeida, Eaton, Gureje, Hanlon, Nosè, Ostuzzi, Saraceno, Saxena, Tedesch and Thornicroft2021; Bone et al., Reference Bone, McCloud, Scott, Machin, Markham, Persaud, Johnson and Lloyd-Evans2019; DeJong et al., Reference DeJong, Kamperman and Mulder2016). A meta-analysis evaluated that PADs and JCPs reduced compulsory admission by 25% (Molyneaux et al., Reference Molyneaux, Turner, Candy, Landau, Johnson and Lloyd-Evans2019).
Inherently, PADs promote user’s involvement and dialogue (Murray and Wortzel, Reference Murray and Wortzel2019). The benefits in terms of autonomy of PADs were at first only theoretical but have gradually gained ground as studies have shown that PADs improve user involvement, empowerment and recovery; the therapeutic alliance and integration of care, but these positive results are still low in evidence (Nicaise et al., Reference Nicaise, Lorant and Dubois2013). Recently, a randomized controlled trial that we conducted showed that PADs facilitated by peer workers were associated with fewer symptoms (effect size [95% confidence interval, CI]: −0.20 [−0.40 to 0.00]), higher empowerment (0.30 [0.10 to 0.50]) and higher recovery (0.44 [0.24 to 0.65]) compared to the control group (Tinland et al., Reference Tinland, Loubière, Mougeot, Jouet, Pontier, Baumstarck, Loundou, Franck, Lançon and Auquier2022).
The model of PADs that we have experimented in this trial had the originality of being facilitated by peer workers, that is, people with personal experiences of mental distress who are trained to assist users in filling their PAD statement and sharing it with relatives and psychiatrists. We observed that this model of PADs was associated with a significant reduction of over 32% in the proportion of compulsory hospitalized people (main criterion of our trial) (Tinland et al., Reference Tinland, Loubière, Mougeot, Jouet, Pontier, Baumstarck, Loundou, Franck, Lançon and Auquier2022). As in the Molyneaux’ meta-analysis, we found a less clear effect on voluntary hospitalizations and on the total number of hospital admissions. The latter result raises the question of the cost-effectiveness of PADs facilitated by peer workers.
To our knowledge, and despite its societal importance, PAD interventions have received little attention in terms of costs, and only two of the randomized trials on the topic have explored this parameter, exclusively in the UK (Barrett et al., Reference Barrett, Waheed, Farrelly, Birchwood, Dunn, Flach, Henderson, Leese, Lester, Marshall and Rose2013; Flood et al., Reference Flood, Byford, Henderson, Leese, Thornicroft, Sutherby and Szmukler2006), and the difference in costs was not significant. Despite counting its effectiveness among people with mental illness, it is unclear whether reducing compulsory admissions results in cost savings or a shift in care to non-compulsory admissions amounting to the same length of stay. The main objective of this study was to conduct an economic evaluation of psychiatric advance directives facilitated by peer workers (PW-PAD) as part of a longitudinal randomized clinical trial for people with severe mental illness.
Methods
Trial design
The ‘Peer-Worker-Facilitated Psychiatric Advance Directive’ study (DAiP) was a multicentre randomized controlled trial conducted in seven mental health facilities of three cities in France (Lyon, Paris and Marseille) between January 2019 and June 2021. Forty treating psychiatrists checked the eligibility criteria and referred eligible participants to research assistants, who validated inclusion criteria, obtained written consent and conducted interviews at inclusion, 6 and 12 months. According to the principle of ‘sector’, which has organized most public psychiatric care in France since the 1960s, the participating psychiatrists were both inpatient and outpatient (the same team ensures continuity). Only six of them were strictly outpatient. All psychiatrists at each participating mental health facility were fully informed about the study at the time of its implementation. No special training or incentives were given to participating psychiatrists. The follow-up period was 12 months after an 18-month recruitment.
The study was registered on Clinicaltrials (NCT03630822). The study was conducted in compliance with the Declaration of Helsinki, sixth revision; Good Clinical Practice guidelines and local regulatory requirements. The trial was approved by the local ethics committee (2018-A00146-49).
Population
The inclusion criteria were being over 18 years of age; with experience of involuntary admission to hospital within the past 12 months; with a diagnosis of schizophrenia, bipolar I disorder or schizoaffective disorders according to Diagnostic and Statistical Manual of Mental Disorders, fifth edition criteria; with decision-making capacity assessed by a psychiatrist according to the MacArthur Competence Assessment Tool for Clinical Research (Appelbaum and Grisso, Reference Appelbaum and Grisso1995) and with French government health insurance. The exclusion criteria included being considered unable to provide informed consent and being under the highest level of guardianship. At the time of inclusion, most participants were discharged from the hospital; nevertheless, a few participants were included as inpatients.
Randomization
Participants were randomly assigned using a web-based system at a 1:1 ratio. Treating clinicians, participants and research assistants were aware of the assigned randomization group.
Intervention group: PW-PAD
All PW-PAD participants received the PW-PAD document from research assistants, consisting of future treatment and support preference options, description of early signs of relapse and coping strategies (English translation in the Supplementary material). Depending on their wishes, the PW-PAD participants could (i) meet a peer worker in a place of their choice; (ii) be supported by this peer worker in drafting the PAD document with as many meetings as necessary and (iii) be supported by the peer worker during the sharing of PAD with the healthcare agent and the psychiatrist. Peer support workers were recruited specifically for this study and trained at a Recovery college (Centre de Formation au Rétablissement – CoFoR). Regular exchanges were organized between them (intervisions) and with the whole research team, both remote and face-to-face.
Hard PADs were stored by the health worker or psychiatrist depending on the participant’s choice and in electronic format if available and requested. In case of crisis, reporting of the existence of PADs was done by patients, their entourage or informed caregivers.
Control group
People assigned to the control group were treated as usual. Depending on the person’s needs, the usual treatment includes psychological, pharmaceutical and social support. In France, especially at the time of this study, JCPs were only used locally by a few pioneering teams, and there was very little chance that people in the control group would access to crisis plans. Nonetheless, they received comprehensive information about the PAD concept during the inclusion step and were free to fill out a PAD, but with no connection to the study’s peer worker. Figure S1 (see Supplementary material) reports the number of PAD (PW-PAD or other) completion and PAD use in each group.
Cost-effectiveness analysis
We performed a cost-utility analysis based on the societal perspective, including hospital, outpatient and community care, and productivity losses due to illness. Incremental cost-effectiveness ratios (ICERs) were expressed in terms of costs per quality-adjusted life-year (QALY) gained, in accordance with Consolidated Health Economic Evaluation Reporting Standards (CHEERS) and the French National Authority for Health (HAS) guidelines for economic evaluation (HAS, 2020; Husereau et al., Reference Husereau, Drummond, Augustovski, de Bekker-grob, Briggs, Carswell, Caulley, Chaiyakunapruk, Greenberg, Loder, Josephine Mauskopf, Petrou, Pwu and Staniszewska2022).
Effectiveness measure
Utilities for health states were assessed using the EuroQol-5 Dimensions, three-level version (EQ-5D-3L) (Brooks, Reference Brooks1996; Chevalier and de Pouvourville, Reference Chevalier and de Pouvourville2013). This questionnaire is a validated questionnaire that assesses a participant’s health status through five dimensions: mobility, personal care, routine occupations, pain and discomfort and anxiety and depression. Each dimension has three levels: no problems, some problems and severe problems. The index score ranges from 0 (worst utility) to 1 (best utility). Quality-of-life measures at baseline, 6 and 12 months were summed as QALYs using an area under the curve approach (Hunter et al., Reference Hunter, Baio, Butt, Morris, Round and Freemantle2015; Husereau et al., Reference Husereau, Drummond, Augustovski, de Bekker-grob, Briggs, Carswell, Caulley, Chaiyakunapruk, Greenberg, Loder, Josephine Mauskopf, Petrou, Pwu and Staniszewska2022) and compared between the PW-PAD and control groups.
Costs measure
We considered all direct and indirect healthcare costs in relation with care management during the follow-up. Resource use data were retrieved from two sources: hospital-based administrative databases and patients’ self-reported measures. Resource use for each collaborative hospital was retrieved for all randomized patients. To measure ambulatory and community care, and at the margin to supplement hospital registry data, interview grids were built to assist participants in reporting individual and prospective resource use, based on previous studies of service use among people with mental illness (Latimer et al., Reference Latimer, Rabouin, Cao, Angela, Powell, Aubry, Distasio, Hwang, Somers, Stergiopoulos, Veldhuizen, Moodie, Lesage and Goering2017; Loubière et al., Reference Loubière, Tinland, Taylor, Loundou, Girard, Boyer and Auquier2020). Resource utilization included those relating to the intervention, including training of peer workers and time spent for PAD support, visits to the emergency department (ED), psychiatric hospital admissions and total number of days at hospital, as well as outpatient care. These latter costs were assessed through consultations with general practitioners, referring psychiatrists and other specialists. Indirect costs were investigated based on the number of days of work absenteeism and compared between groups where relevant.
Unit costs for hospital resources were estimated using data from the French National Hospital Database (https://www.atih.sante.fr/). The training of peer workers consisted in two half-day sessions per week for 6 weeks, with an estimated cost of €1,215. We observed the real cost of recruiting a peer worker at each site, either a full-time or part-time contract over the duration of the study. The average salary scales at the participating facilities were used to estimate the monthly salary of the peer workers. No overhead costs were charged to the intervention: the office room and equipment (i.e., computer and telephone) were already present and shared with the care/administrative team. In the city of Paris (i.e., for two health facilities), transportation costs were taken into account (intra-city transportation card). For outpatient and community care costs, national tariffs were used (Source: National databases for medical and paramedical acts). All resources were valued in 2019 euros (see Supplementary Table S1) and discounting was not applied.
Statistical analyses
An intention-to-treat analysis was conducted in the present study and included all participants randomized in each group whether or not they received the intervention or were lost to follow-up. To detect a reduction of 30% in the rate of compulsory admissions to psychiatric hospitals during the 12-month follow-up, the planned sample was 200 per group, i.e., 400 in total. This number of subjects allowed for a minimum cost difference of €320 with a standard deviation of 1,000, at a statistical power of 90%.
Missing data were addressed using multiple imputations (van Buuren, Reference van Buuren2007), under the assumption of missing at random (Ware et al., Reference Ware, Harrington, Hunter and D’Agostino2012). Markov chain Monte Carlo multiple imputation was used, which creates multiple ‘complete’ datasets by predictions for each missing value. Fifty imputed datasets were implemented using Multivariate Imputation by Chained Equations and mitools R packages. We ran a sensitivity analysis for only the observed data (excluding missing data).
A mixed model for longitudinal utility values was used to control for potential bias due to intra-patient correlated data and the existence of co-variates influencing quality of life. Between-group differences in service use and total costs were estimated using generalized estimating equations (GENLIN function) applying a Poisson distribution with a link log due to skewness. Mean differences and beta coefficients with 95% CI were provided.
We used non-parametric bootstrapping (with 5,000 replications) to resample observations. The bootstrap results were combined to calculate the mean values for costs and utilities, and the SEs for the imputed values were used to calculate 95% CIs. The incremental cost per QALY gained was then calculated as mean incremental costs divided by mean incremental QALYs and reported where relevant. Uncertainty in the cost-effectiveness results was analysed using both univariate deterministic and probabilistic sensitivity analyses.
Statistical analyses were performed using R Studio (R version 4.0.2, RStudio, Inc., Massachusetts, USA) and TreeAgePro 2019.
Results
A total of 394 participants were included in the analysis: 196 were assigned to the intervention group and 198 to the control group. Interviews at the 12-month follow-up were completed for 127 (65%) in the PW-PAD group (four participants withdrew) and 139 (70%) in the control group (including five withdrawals) (see details in Supplementary Figure S2). Baseline characteristics and primary clinical outcomes are reported in Table 1. Gender, age, comorbidities and experience of previous hospital admissions were well balanced between the two groups. PW-PAD participants showed significantly improved self-reported mental symptoms, recovery and empowerment scores over the 12-month follow-up compared with the control group.
PW-PAD: peer worker–facilitated psychiatric advance directive; SD: standard deviation; IQR: interquartile range; DSM-5: Diagnostic and Statistical Manual of Mental Disorders, fifth edition; CGI: Clinical Global Impression scale.
Recovery was assessed using the Recovery Assessment Scale (RAS) (Corrigan et al., Reference Corrigan, Salzer, Ralph, Sangster and Keck2004), which measures various aspects of recovery from the perspective of the consumer, with a particular emphasis on hope and self-determination. This self-administered instrument comprises 24 items, exploring five domains: personal confidence and hope, willingness to ask for help, goal and success orientation, reliance on others and no domination by symptoms. A higher score indicates better recovery.
Mental health symptomatology was assessed using the self-report modified Colorado Symptom Index (MCSI; Conrad et al., Reference Conrad, Yagelka, Matters, Rich, Williams and Buchanan2001). The MCSI contains 14 items, which evaluate how often in the past month an individual has experienced a variety of mental health symptoms, including loneliness, depression, anxiety and paranoia. Higher scores indicate a greater likelihood of mental health problems.
Empowerment was assessed using the Empowerment Scale (ES) (Rogers et al., Reference Rogers, Chamberlin, Ellison and Crean1997). The ES comprises 28 items, split into five dimensions: community activism and autonomy, self-esteem and efficacy, optimism and control over the future, righteous anger and power and powerlessness. The index score is 0 to 100, where higher scores correspond to higher empowerment.
Effectiveness
The mean utility at baseline (standard error [SE]) for the PW-PAD and control groups were, respectively, 0.798 (0.015) and 0.757 (0.020) (P = 0.101) (Table 2). Participants in the PW-PAD group reported higher health utilities at month 12 (0.814 vs. 0.755; P = 0.017). From baseline to 12 months of follow-up, health utilities improved more in the PW-PAD group than in the control group (mean difference, 0.040; 95% CI, 0.003–0.077; P = 0.032). Based on complete data, the mean difference in health utilities was 0.045 (95% CI, 0.002–0.088; P = 0.039) (see Supplementary Table S2).
PW-PAD: peer worker–facilitated psychiatric advance directive; SE: standard error; 95% CI: 95% confidence interval.
a P-values at each time were provided by t-test analysis (independent samples test) based on imputed data.
b Mixed linear models (MIXED) for repeated-measure analyses were applied, using a restricted maximum likelihood approach for variance estimation, with a repeated variable ln(t + 1), where t is the time from baseline. An unstructured covariance matrix for repeated measures was used. The interaction between group and time was tested and was not kept because none achieved statistical significance.
Values in italic indicate a statistically significant difference from the group variable (PW-PAD vs. control groups)
Three (0.76%) patients died during the 12-month follow-up: two (1.01%) patients in the TAU group and one (0.51%) patient in the PW-PAD group.
Service use and costs
Details of service resource use and mean costs are provided in Table 3. Table S2 (see Supplementary material) reports total psychiatric hospital admissions and length of stay in both compulsory and voluntary settings. The PW-PAD group experienced less psychiatric hospital days over 1 year compared to the control group (45.4 vs. 57.1; P = 0.026). No significant differences were found in the mean number of ED visits or consultations (P = 0.056 and P = 0.309; respectively). Similarly, the rates of patients having working activity at the end of follow-up did not show significant difference between the PW-PAD and control groups (36.6% vs. 28.2%; P = 0.184). No significant differences were found in the mean number of days off work between the PW-PAD and control groups (3.75 vs. 2.54 days; P = 0.383).
PW-PAD: peer worker–facilitated psychiatric advance directive; SE: standard error; 95% CI: 95% confidence interval.
a A Poisson distribution with a link log was used.
Generalized linear models were used to address mean difference and 95% CI for the groups.
Values in italic indicate a statistically significant difference in pooled imputation dataset from the group variable (PW-PAD vs. control groups), P < 0.05.
Compared with the control group, PW-PAD exhibited a statistically significant cost difference in total costs (€22,094.27 vs. € 26,382.39; P = 0.001) (Table 4).
PW-PAD: peer worker–facilitated psychiatric advance directive; QALY: quality-adjusted life-years; CI: confidence interval.
Cost-effectiveness
The incremental benefit of PW-PAD versus control group was 0.045 QALY (95% CI, 0.040 to 0.046); the incremental cost was −€4,286 (95% CI, −4,711 to −4,020) (Table 4). The cost-effectiveness analysis showed that the PW-PAD intervention was strictly dominant, that is, less expensive and more effective compared to the usual care.
The bootstrap distribution of the ICER showed that 100% of the 5,000 replicates of ICER were located in the lower-right quadrant of the scatterplot plan (Fig. 1).
The graph contains axes that represent the incremental cost (y-axis) and incremental effectiveness (x-axis). Each point in the graph represents the incremental cost and incremental effectiveness values (PW-PAD vs. control) from a single recalculation from the database.
The willingness to pay (WTP), or ICER threshold, is used as the slope of a line intersecting the origin of the plot. The WTP line in the graph intersects points having the specified ICER value, and the region below and to the right of the line includes points where the intervention/PW-PAD is more cost-effective than the usual care/control. The ellipsis shows the 95% CI.
Sensitivity analyses
Sensitivity analyses with complete cases yielded similar results to imputed datasets (Table S3). The tornado diagram (Fig. 2) indicated that cost-effectiveness was most strongly affected by utility values altered over their 95% CI and inpatient costs varying from ±30%. This was followed by the mortality rates in the PW-PAD and control groups. Regardless of the change in these parameters, the higher effectiveness and cost savings were maintained for PW-PAD. In addition, increasing or decreasing the costs of the intervention by 50% had less effects on the ICER.
Taking sampling uncertainty into consideration, the cost-effectiveness acceptability curve for the base-case analysis (Figure S3) shows a 100% probability that PW-PAD was cost-effective by comparison with usual care at the threshold of €1,000 WTP per QALY gained.
Discussion
Our study is the largest prospective study on PADs including people living with mental illness who were compulsorily admitted during the past year. It is also the first to evaluate the costs and benefits of peer worker–facilitated PADs for the management of a patient’s mental disorder. In our study, for the overall population, PW-PAD was strictly dominant. The intervention was associated with a higher number of QALYs at a lower cost compared to usual care.
PW-PAD was associated with a significant decrease in total psychiatric inpatient days/nights and with a significant improvement in compulsory admissions, with no significant reduction in the rate of overall psychiatric admissions (Tinland et al., Reference Tinland, Loubière, Mougeot, Jouet, Pontier, Baumstarck, Loundou, Franck, Lançon and Auquier2022). Our hypothesis is that, rather than preventing psychiatric hospital admissions, PADs may reduce compulsory admissions by making participants more willing to consider voluntary admission when a crisis occurs. The economic analysis goes further and shows, based on a detailed measure of health service utilization and cost analysis, that the use of PW-PAD reduces the overall length of stay and costs compared to usual care. Our findings are consistent with nonrandomized studies showing improvement in length of stay and costs associated with a shift from coercive measures (Dimitri et al., Reference Dimitri, Giacco, Bauer, Bird, Greenberg, Lasalvia, Lorant, Moskalewicz, Nicaise, Pfennig, Ruggieri, Marta and Priebe2018, Kallert et al., Reference Kallert, Glöckner and Schützwohl2008; McLaughlin et al., Reference McLaughlin, Giacco and Priebe2016, Salias and Fenton, Reference Sailas and Fenton2000).
Few multicentre and randomized controlled studies have evaluated the effectiveness of advance directives in psychiatry, none incorporating facilitation by peer workers (Henderson et al., Reference Henderson, Flood, Leese, Thornicroft, Sutherby and Szmukler2004; Molyneaux et al., Reference Molyneaux, Turner, Candy, Landau, Johnson and Lloyd-Evans2019; Papageorgiou et al., Reference Papageorgiou, King, Janmohamed, Davidson and Dawson2002; Ruchlewska et al., Reference Ruchlewska, Wierdsma, Kamperman, van der Gaag, Smulders, Roosenschoon and Mulder2014; Swanson et al., Reference Swanson, Swartz, Elbogen, Van Dorn, Joelle Ferron, McCauley and Kim2006; Thornicroft et al., Reference Thornicroft, Farrelly, Szmukler, Birchwood, Waheed, Flach, Barrett, Byford, Henderson, Sutherby, Lester, Rose, Dunn, Leese and Marshall2013). Of these, only two had assessed their economic outcomes (Barrett et al., Reference Barrett, Waheed, Farrelly, Birchwood, Dunn, Flach, Henderson, Leese, Lester, Marshall and Rose2013; Flood et al., Reference Flood, Byford, Henderson, Leese, Thornicroft, Sutherby and Szmukler2006). Flood et al. could not find any differences in admissions or total costs per participant over a 15-month follow-up. Similarly, Barrett et al. could not find any differences in compulsory admissions or total societal costs per participant over an 18-month follow-up. Neither of these studies found significant intervention effects on inpatient stays (i.e., number of nights). Our results show that the French participants spent considerable amount of time in hospital, regardless of the group, compared with those from UK studies with the same inclusion criteria. As an example, over 1 year, participants in both French study groups spent, on average, 2.5 times more days in hospital than participants in Barret’s UK-based study. The initial lengthy hospitalization duration, combined with its sharp fall over 1 year, explains the majority of our observed cost savings. This is consistent with the conclusion of Burns’ meta-analysis, which showed that interventions that reduce hospital admissions (in his paper. it is case management) are more effective when participants are high consumers of hospital care at baseline (Burns et al., Reference Burns, Catty, Dash, Roberts, Lockwood and Marshall2007). Differences between the interventions could also explain these results: PW-PAD differ from Flood and Barret’s intervention in that they are PADs, and peer workers facilitate them. On the one hand, PADs are unique tools to promote self-determination (Elbogen et al., Reference Elbogen, Van Dorn, Swanson, Swartz, Ferron, Wagner and Wilder2007), and part of the results could be due to this law-oriented form; on the other hand, peer workers’ involvement in healthcare has been shown to be associated with improvements in quality of life, self-efficacy, hope and empowerment (e.g., Fuhr et al., Reference Fuhr, Salisbury, De Silva, Atif, van Ginneken, Rahman and Patel2014; Lloyd-Evans et al., Reference Lloyd-Evans, Mayo-Wilson, Harrison, Istead, Brown, Pilling, Johnson and Kendall2014; Mahlke et al., Reference Mahlke, Priebe, Heumann, Daubmann, Wegscheider and Bock2017; Vayshenker et al., Reference Vayshenker, Mulay, Gonzales, West, Brown and Yanos2016), which is consistent with our results. Unfortunately, our study does not allow us to identify the relative role of each ingredient in achieving good clinical or economic outcomes. PW-PAD is a complex intervention where the meeting with a peer worker and crisis reflection likely interact with each other.
Over the follow-up period, participants in the PW-PAD group gained more health utilities than their counterparts in the control group, with similar EQ5D-3L scores at baseline and 6 months. This finding could suggest a learning period with PW-PAD, with the effects in terms of quality of life appearing only after the first 6 months following the initiation of the advance directives, suggesting that this could be maintained in the long term. Further investigations are needed to understand the factors that influence the early benefits of the intervention and to help inform decision-making.
Even when the PW-PAD intervention was considered to cost double, the intervention still remained dominant compared to usual care. In fact, regardless of the variations considered in cost parameters, the PW-PAD group remained dominant, presenting a 100% chance of being cost-effective at small WTP thresholds for mental health programmes.
Such results are important because they inform decision makers and, perhaps more critically, they contribute to international guidelines on the economic efficiency of programmes in mental health. Indeed, cost analyses offer a perspective for policy changes. The PW-PAD is an intervention, which can be implemented in a fairly straightforward manner and can be very quickly cost-effective for the healthcare system.
Strengths and limitations
The strengths of our study lie in our design and methodology. First, this research was deployed through seven psychiatric facilities, each with several services. The wide range of practices across these services reflects the diversity of practice in France. Between and within countries and regions, large variations have been found between services in rates of inpatient admissions and compulsion (Gandré et al., Reference Gandré, Gervaix, Thillard, Macé, Roelandt and Chevreul2018b, Reference Gandré, Gervaix, Thillard, Macé, Roelandt and Chevreul2018a; Hofstad et al., Reference Hofstad, Rugkåsa, Osborg Ose, Nyttingnes, Helene Høymork Kjus and Lossius Husum2021; Weich et al., Reference Weich, McBride, Twigg, Duncan, Keown, Crepaz-Keay, Cyhlarova, Parsons, Scott and Bhui2017), and these variations are not yet fully understood by the scientific literature (Rugkåsa, Reference Rugkåsa2017). The diversity of participating centres, associated with broad inclusion criteria and limited exclusion criteria, enhances our confidence in the generalizability of our results. Second, we captured a measure of benefit expressed in terms of participant’s quality of life rather than simply a measure of resource use. Our approach is in accordance with international guidelines and avoids the double counting of resource use in both the denominator and numerator of the ICER (Neumann et al., Reference Neumann, Sanders, Russell, Siegel and Theodore2016). Third, resource use was based on the data collected from hospital-based databases that captured the entire hospital pathway associated with the management of mental illness.
This trial had several limitations. First among them is the short follow-up period. Given the short-term nature of PAD fulfilment, the uncertainty surrounding long-term use and long-term consequences on health utility of PADs and the limited impact of PADs on survival, the 12-month randomized controlled trial timeline was deemed appropriate to capture most of the relevant costs and benefits associated with the intervention. Most of the incremental cost of PW-PAD is spent in the first 3 months, so this intervention might become even more cost-effective after 1 year if participants receiving the intervention continue to improve more than those receiving usual care without additional costs.
Second, we assumed the same costs for compulsory and standard hospitalizations. We may have underestimated the costs in the control group, although this reinforces the conservative costing approach. The accounting costs provided by French health agencies for hospitalization are not differentiated between compulsory or freely admitted patients, whereas compulsory hospitalization appears more expensive, especially at the beginning, often requiring more staff and special facilities such as isolation rooms (Flood et al., Reference Flood, Bowers and Parkin2008; LeBel and Goldstein Reference LeBel and Goldstein2005). With 32% more compulsory admissions in the control group, total costs would be even higher if the associated containment and seclusion costs had been valued. At the same time, we did not account for the impact of discharge to the community on people other than the study patient (e.g., family or partners providing care to the patient) or measure costs of pharmaceuticals, the latter being assumed to be higher at entry in compulsory admission (Brown et al., Reference Brown, Chhina and Dye2010).
Finally, discontinuation rates were around one-third in both groups. Unfortunately, the COVID-19 pandemic generated a crisis that suddenly widened the gap in access to healthcare, especially for vulnerable populations. Our attrition rates were mainly due to lost to follow-up in periods of lockdown.
Conclusions
Among people living with mental illness, the elaboration of PADs with the support of a peer worker was associated with a significant improvement in health utility in parallel to cost-savings over a 12-month period. These findings support a national-scale promulgation of this type of intervention and an implementation study of these tools to measure the level of adoption in common practice and to identify barriers and facilitators.
Supplementary material
The supplementary material for this article can be found at https://doi.org/10.1017/S2045796023000197.
Data availability statement
Not all the data are freely accessible because no informed consent was given by the participants for open data sharing, but we can provide the data used in this study to researchers who want to use them, following approval by the ethics committee of the Aix Marseille University.
Acknowledgements
Jean Dhorne provided help to monitor this clinical trial, with the assistance of Marika Larose. Sophie Tardosky and Richard Malkoun contributed to the data management of the study. Magali Pontier had the idea to develop DAP in Marseille and provided preliminary results about the limits of facilitation by professionals. Nicolas Ordener, Julien Grard, Celine Letailleur, EUTOPIA, MARSS team and the CoFoR Recovery College provided help and advices to develop the practice of facilitation by peer workers. Lee Antoine, Camille Niard, Nicholas Armstrong, Elsa Castot and Iannis Mc Cluskey contributed as peer workers. Frederic Mougeot, Emmanuelle Jouet, Magali Pontier, Nicolas Franck, Juliette Robert, Antoine Simon, Aurélien Troisoeufs, Julien Grard and Karine Baumstarck were member of the steering committee. Owen Taylor provided English proofreading. We thank them for their grateful help.
Financial support
This work was supported by an institutional grant from the French 2017 National Program of Health Services Research (Programme de Recherche sur la Performance du système de Soins, PREPS-17-0575, FINESS number 130786049).
Competing interest
None.
Ethical standards
The authors assert that all procedures contributing to this work comply with the ethical standards of the relevant national and institutional committees on human experimentation and with the Helsinki Declaration of 1975, as revised in 2000.