Hostname: page-component-78c5997874-s2hrs Total loading time: 0 Render date: 2024-11-10T09:35:29.736Z Has data issue: false hasContentIssue false
  • English
  • Français

Improving social function with real-world social-cognitive remediation in schizophrenia: Results from the RemedRugby quasi-experimental trial

Published online by Cambridge University Press:  30 April 2020

Julien Dubreucq Open the ORCID record for Julien Dubreucq [Opens in a new window] ,
Franck Gabayet Open the ORCID record for Franck Gabayet [Opens in a new window] ,
Bernard Ycart ,
Megane Faraldo Open the ORCID record for Megane Faraldo [Opens in a new window] ,
Fanny Melis ,
Thierry Lucas ,
Benjamin Arnaud ,
Mickael Bacconnier ,
Motassem Bakri  and
Gentiane Cambier
...Show all authors
Julien Dubreucq*
Affiliation:
Centre de Neurosciences Cognitive, UMR 5229, CNRS and Université Lyon 1, Lyon, France Centre Référent de Réhabilitation Psychosociale et de Remédiation cognitive (C3R), Centre Hospitalier Alpes Isère, Grenoble, France Fondation FondaMental, Créteil, France Réseau Handicap Psychique, Grenoble, France
Franck Gabayet
Affiliation:
Centre Référent de Réhabilitation Psychosociale et de Remédiation cognitive (C3R), Centre Hospitalier Alpes Isère, Grenoble, France Fondation FondaMental, Créteil, France
Bernard Ycart
Affiliation:
Laboratoire Jean Kuntzmann, CNRS UMR 5224, Université Grenoble-Alpes, Grenoble, France
Megane Faraldo
Affiliation:
Centre Référent de Réhabilitation Psychosociale et de Remédiation cognitive (C3R), Centre Hospitalier Alpes Isère, Grenoble, France Fondation FondaMental, Créteil, France
Fanny Melis
Affiliation:
Centre Référent de Réhabilitation Psychosociale et de Remédiation cognitive (C3R), Centre Hospitalier Alpes Isère, Grenoble, France
Thierry Lucas
Affiliation:
Centre Référent de Réhabilitation Psychosociale et de Remédiation cognitive (C3R), Centre Hospitalier Alpes Isère, Grenoble, France
Benjamin Arnaud
Affiliation:
Centre Hospitalier Sainte Marie de Clermont Ferrand, 33 rue Gabriel Péri, CS 9912, Clermont-Ferrand Cedex 1 63037, France
Mickael Bacconnier
Affiliation:
Centre Médical La Teppe, 25 Avenue de la Bouterne, CS 9721, Tain-l'Hermitage Cedex 26602, France Centre de Réhabilitation Psychosociale et de Remédiation Cognitive (C2R), CH Drôme Vivarais, Montéléger, France
Motassem Bakri
Affiliation:
Centre de Réhabilitation Psychosociale et de Remédiation Cognitive (C2R), CH Drôme Vivarais, Montéléger, France
Gentiane Cambier
Affiliation:
Centre Hospitalier de la Savoie, 89 avenue de Bassens, Bassens73000, France
Florian Carmona
Affiliation:
REHALise, CHU de Saint-Etienne, Saint-Etienne, France
Isabelle Chereau
Affiliation:
Fondation FondaMental, Créteil, France CMP B, CHU, EA 7280 Faculté de Médecine, Université d'Auvergne, BP 69, Clermont-Ferrand Cedex 1 63003, France
Titaua Challe
Affiliation:
Centre Départemental de Réhabilitation Psychosociale des Glières, 219 Chemin des Bois des Fornets, La Roche sur Foron 74800, France
Sophie Morel
Affiliation:
Centre de Réhabilitation Psychosociale et de Remédiation Cognitive (C2R), CH Drôme Vivarais, Montéléger, France
Sylvie Pires
Affiliation:
Fondation FondaMental, Créteil, France CMP B, CHU, EA 7280 Faculté de Médecine, Université d'Auvergne, BP 69, Clermont-Ferrand Cedex 1 63003, France
Celine Roussel
Affiliation:
Centre Départemental de Réhabilitation Psychosociale des Glières, 219 Chemin des Bois des Fornets, La Roche sur Foron 74800, France
Philippe Lamy
Affiliation:
REHALise, CHU de Saint-Etienne, Saint-Etienne, France
Guillaume Legrand
Affiliation:
Centre Hospitalier Sainte Marie de Clermont Ferrand, 33 rue Gabriel Péri, CS 9912, Clermont-Ferrand Cedex 1 63037, France
Emmanuelle Pages
Affiliation:
Centre Hospitalier de la Savoie, 89 avenue de Bassens, Bassens73000, France
Romain Pommier
Affiliation:
REHALise, CHU de Saint-Etienne, Saint-Etienne, France
Romain Rey
Affiliation:
Fondation FondaMental, Créteil, France Université Claude Bernard Lyon 1/Centre Hospitalier Le Vinatier Pole Est BP 300 39, 95 bd Pinel, Bron Cedex69678, France
Yohan Souchet
Affiliation:
Fondation FondaMental, Créteil, France Université Claude Bernard Lyon 1/Centre Hospitalier Le Vinatier Pole Est BP 300 39, 95 bd Pinel, Bron Cedex69678, France
Pierre-Michel Llorca
Affiliation:
Fondation FondaMental, Créteil, France CMP B, CHU, EA 7280 Faculté de Médecine, Université d'Auvergne, BP 69, Clermont-Ferrand Cedex 1 63003, France
Catherine Massoubre
Affiliation:
REHALise, CHU de Saint-Etienne, Saint-Etienne, France
*
Julien Dubreucq, E-mail: jdubreucq@ch-alpes-isere.fr

Abstract

Background.

Functional capacity (FC) has been identified as a key outcome to improve real-world functioning in schizophrenia. FC is influenced by cognitive impairments, negative symptoms, self-stigma and reduced physical activity (PA). Psychosocial interventions targeting FC are still under-developed.

Methods.

we conducted a quasi-experimental study evaluating the effects of an exercise-enriched integrated social cognitive remediation (SCR) intervention (RemedRugby [RR]) compared with an active control group practicing Touch Rugby (TR). To our knowledge, this is the first trial to date evaluating the effectiveness of such a program provided in a real-life environment.

Results.

Eighty-seven people with schizophrenia were included and allocated to either the RR group (n = 57) or the TR group (n = 30) according to the routine clinical practice of the recruiting center. Outcomes were evaluated at baseline and post-treatment in both groups and after 6 months of follow-up in the RR group using standardized scales for symptom severity, social functioning, self-stigma, and a large cognitive battery. After treatment we observed moderate to large improvements in social function (Personal and Social Performance Scale [PSP], p < 0.001, d = 1.255), symptom severity (Positive and Negative Syndrome Scale [PANSS] negative, p < 0.001, d = 0.827; PANSS GP, p < 0.001, d = 0.991; PANSS positive, p = 0.009, d = 0.594), verbal abstraction (p = 0.008, d = 0.554), aggression bias (p = 0.008, d = 0.627), and self-stigma (stereotype endorsement, p = 0.019, d = 0.495; discrimination experiences, p = 0.047; d = 0.389) that were specific to the RR group and were not observed in participants playing only TR. Effects were persistent over time and even larger between post-treatment and follow-up.

Conclusions.

Exercise-enriched integrated SCR appears promising to improve real-life functioning in schizophrenia. Future research should investigate the potential effects of this intervention on neuroplasticity and physical fitness.

Keywords

Physical activityschizophreniasocial cognitive remediationsocial functiontouchrugby
Type
Research Article
Information
European Psychiatry , Volume 63 , Issue 1 , 2020 , e41
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
© The Author(s) 2020. Published by Cambridge University Press on behalf of the European Psychiatric Association.

Introduction

Schizophrenia is a severe mental illness ranking among the leading causes of disability across the world. It is associated with decreased functional capacity, impaired real-life functioning [Reference Harvey and Strassnig1,Reference Galderisi, Rucci, Kirkpatrick, Mucci, Gibertoni and Rocca2], reduced life expectancy [Reference DeHert, Correll, Bobes, Cetkovich-Bakmas, Cohen and Asai3] and important societal cost [Reference Laidi, Prigent, Plas, Leboyer, Fond and Chevreul4]. The combination of optimal pharmacological treatment with psychiatric rehabilitation is recommended in major international guidelines to improve the prognosis of schizophrenia [Reference Dixon, Dickerson, Bellack, Bennett, Dickinson and Goldberg5,6]. Psychiatric rehabilitation (PR) brings together a wide range of recovery-oriented interventions [Reference Franck, Bon, Dekerle, Plasse, Massoubre and Pommier7]. They include psycho education, social skills training (SST), cognitive remediation (CR), cognitive behavior therapy (CBT), metacognitive training, improvements in physical and mental health, and supported housing or employment [Reference Franck, Bon, Dekerle, Plasse, Massoubre and Pommier7,Reference Farkas and Anthony8]. The aim of PR is to promote clinical and personal recovery in patients with schizophrenia. Clinical recovery refers to symptom remission and improved psychosocial functioning during at least 2 years of follow-up [Reference Jääskeläinen, Juola, Hirvonen, JJ, Saha and Isohanni9]. Personal recovery refers to a self-broadening process aiming at living a meaningful life beyond mental illness [Reference Roe, Maschiasch-Eisenberg and Lysaker10]. Despite improvements in pharmacological treatments and psychosocial interventions, the proportion of patients with schizophrenia meeting the criteria for clinical recovery remains limited (13.5%) [Reference Jääskeläinen, Juola, Hirvonen, JJ, Saha and Isohanni9]. One potential explanation is the complexity of real-world functioning in schizophrenia [Reference Harvey and Strassnig1,Reference Galderisi, Rucci, Kirkpatrick, Mucci, Gibertoni and Rocca2]. Real-world functioning results from the interplay of multiple variables, including impairments in cognition and social cognition, negative symptoms, self-stigma, poor physical health, reduced physical activity, and low social support [1–3,Reference Green, Horan and Lee11]. It has been suggested to target specifically functional capacity—or one’s abilities to perform in the domains of residential functioning, work, leisure activities and social skills [Reference Harvey and Strassnig1]—in PR to improve its effectiveness on real-life functioning [Reference Galderisi, Rucci, Kirkpatrick, Mucci, Gibertoni and Rocca2].

Social cognitive impairments are common and closely related to real-world functioning [Reference Green, Horan and Lee11]. Social cognitive remediation (SCR) improves theory of mind (d = 0.70), emotion recognition (d = 0.84), social perception (d = 1.29), and attributional bias (d = 0.30–0.52) [Reference Kurtz, Gagen, Rocha, Machado and Penn12]. SST improves social skills (d = 0.52) [Reference Kurtz and Mueser13], community functioning (d = 0.52) and negative symptoms (d = 0.40). Combining SST and SCR would further improve functional outcomes [Reference Kurtz, Mueser, Thime, Corbera and Wexler14]. SCR and SST are however still provided in artificial learning environments using non-ecological materials (comic strips, video scenes for SCR [Reference Kurtz, Gagen, Rocha, Machado and Penn12], and role-playing for SST [Reference Kurtz and Mueser13]). The generalization of treatment benefits to real-life interactions remains therefore limited and enriched environment interventions are needed [Reference Green, Horan and Lee11]. Physical activity (PA) is an enriched environment enhancing the CR’s effects on patient’s outcomes [Reference Malchow, Keller, Hasan, Dörfler, Schneider-Axmann and Hillmer-Vogel15,Reference Nuechterlein, Ventura, McEwen, Gretchen-Doorly, Vinogradov and Subotnik16]. CR combined with aerobic exercises has resulted in larger improvements in cognitive function, negative symptoms and social functioning in two pilot studies [Reference Malchow, Keller, Hasan, Dörfler, Schneider-Axmann and Hillmer-Vogel15,Reference Nuechterlein, Ventura, McEwen, Gretchen-Doorly, Vinogradov and Subotnik16]. Individual physical activities (i.e., yoga and aerobic exercises) [Reference Firth, Cotter, Elliott, French and Yung17], increasingly used as add-on therapies for people with schizophrenia, have improved physical fitness, positive and negative symptoms, depression, working memory, social cognition, attention, and everyday functioning [Reference Firth, Cotter, Elliott, French and Yung17,Reference Firth, Stubbs, Rosenbaum, Vancampfort, Malchow and Schuch18]. Low self-efficacy, negative symptoms, depression, social anxiety, social isolation, and lack of social support are potential barriers to PA participation [19–22]. Soccer has been used as an add-on PA with preliminary effects on physical fitness and quality of life [Reference Battaglia, Alesi, Inguglia, Roccella, Caramazza and Bellafiore23]. SCR and SST combined with a collective physical activity could improve real-life functioning through improved social cognition and social skills, negative symptoms, social anxiety, and isolation [Reference Green, Horan and Lee11,Reference Kurtz, Gagen, Rocha, Machado and Penn12]. To the best of our knowledge, such an intervention has however not been yet been developed.

The present intervention, RemedRugby (RR), is a structured, manualized 15-session program integrating psychoeducation about stigma and self-stigma, SCR, SST (on the field and with the medias), cognitive remediation targeting executive functions, problem-solving skills training and practice of Touch Rugby (TR). It is based on two assumptions: (a) an intervention provided directly in a real-life environment will improve treatment effectiveness; (b) improvements in social cognition, social skills, and self-stigma will increase engagement in the physical activity, social motivation, and social functioning. Reducing the impact of potential psychological or socio-ecological barriers to PA (i.e., negative symptoms, social anxiety, depression, low self-efficacy, social isolation, and lack of social support [19–22]) could make it more enjoyable and enhance the motivation to participate. Rugby is a popular sport in Western Europe, South Africa and Oceania, with core values of respect, teamwork, enjoyment, discipline, and sportsmanship [24]. Touch Rugby is a limited-contact version of rugby in which players seek to evade being touched (rather than tackled) while in possession of the ball. It is played by mixed teams of five players with easy-to-learn rules that can be mastered even by participants with cognitive impairments and no prior experience of rugby. Sessions can be adapted to participant’s physical health and fitness. Choosing this sport as the support of intervention aims at associating the benefits associated to PA with an increased motivation to engage in social behavior during the sessions and at home. The aims of this quasi-experimental study are to assess RR effectiveness (in comparison with an active control group practicing only TR): (a) on social function; (b) on social cognition, symptoms severity, executive functioning, self-esteem, self-stigma, empowerment, and personal recovery; and (c) whether effects on social function, social cognition, and other outcomes are persisting after 6 months of follow-up.

Materials and Methods

Trial design and participants

This study was a controlled, quasi-experimental, multi-centric, prospective, interventional, and exploratory trial conducted between November 2014 and December 2017 in six psychiatric rehabilitation centers (Grenoble, La Roche sur Foron, Valence, Lyon, Clermont-Ferrand, and Saint-Etienne), 1-day hospital (Chambéry) and three medico-social supported living services (Cotagon center, Chardon Bleu and ALPHI homes) located in the Auvergne-Rhône-Alpes region in France. Eligible participants were all 18–65 years-old patients meeting the DSM V criteria for schizophrenia spectrum disorders enough physically fit to practice a PA (determined by a physical examination by patient’s general practitioner) and willing to give informed consent. Exclusion criteria were: (a) a known neurological disorder; (b) intellectual disability; (c) inability to read or speak French; and (d) inability to practice a PA. Participation to other programs having an impact on social function (SCR and SST) was prohibited during the follow-up period. Eighty-seven clinically stable (i.e., absence of significant changes in pharmacological treatment in the past month) participants diagnosed with schizophrenia were consecutively recruited and assessed at baseline, post-treatment (4 months) and at 6 months of follow-up (for RR patients only). The control group was not assessed at follow-up to allow the participation to other interventions improving social function. Forty-seven males and 10 females participated to the RR group, 23 males, and 7 females to the TR group (homogeneity male–female in the access to the intervention, p = 0.575 using Fisher’s exact test). Participant’s mean age was 33.3 in the RR group, 33.1 in the TR group. Baseline characteristics of the participants allocated to the two arms are presented in Table 1. The withdrawal of one control center (Bourg en Bresse, reason invoked = lack of time) before the beginning of the study explains the difference in the sample sizes. Psychoeducation about the illness was provided to three RR participants and supportive group psychotherapy to one TR participant during the treatment period or follow-up, with no incidence on treatment’s effectiveness. Participants were allocated in the experimental or the control group depending on the routine clinical practice of the recruiting center. Centers practicing social cognitive remediation animated the experimental group (Grenoble, Lyon, Valence, La Roche sur Foron, and Clermont-Ferrand) and centers practicing PA under the supervision of a specialized sport educator animated the control group (Cotagon, Chardon Bleu, ALPHI, Chambéry, and Saint-Etienne). Experimental centers did not have specialized sport educators and control centers could not implement the experimental intervention (absence or lack of CR-trained facilitators). This made impossible single-blind randomization. Evaluators who did not take part into treatment and blind to the time of assessment conducted baseline and follow-up assessments. All the clinicians involved in the experimental group attended to 1-day training event in RemedRugby, led by authors J.D., F.G., M.F., and F.M. Training included discussion and role-playing exercises, with corrective feedback from the trainers. The manual was comprehensive giving the detail of each session. Regular group supervisions were organized to ensure treatment fidelity. Changes in pharmacological treatment and all the interventions received during the follow-up period were systematically collected for both groups. The trial protocol was in accordance with the Declaration of Helsinki. It was approved by the local ethics committee (CPP Sud-Est V) under the number 2014-002655-26 and registered at www.clinicaltrials.gov (NCT03775564). Written informed consent was sought for all participants.

Table 1. Baseline characteristics in the RR and the TR groups

For each of the 42 outcome variables, the table displays the sample mean and standard deviation of the variable over the Expe patients, then over the TR patients, then the results (test statistic, degrees of freedom, p value) of the Walsh two-sample two-sided T test between both. A p value smaller than 0.05 indicates that the difference of means is significant. CPZ100eq: dose equivalent to 100 mg/day of chlorpromazine calculated according to the minimum effective dose method [Reference Farreny, Aguado, Ochoa, Haro and Usall25]. The mean antipsychotic dose in the sample was equivalent to 6 mg/day chlorpromazine in the RR group and to 5.5 in the TR group.

Abbreviations: AcSo, self-assessment of social cognition; AIHQ, Ambiguous Intentions and Hostility Questionnaire (agress, aggression bias; anger, anger score; blame, blame score; host, hostility bias; resp, attribution of responsibility); BUES, Boston University Empowerment Scale; BEM-RI, BEM immediate recall; BEM-RD, BEM delayed recall; Coding, WAIS-IV Coding subscale; Education, Education level (years); ERF-CS, Social Cognition—Functional Outcomes Scale; ISMI, Internalized Stigma of Mental Illness scale (tot, total score; Alien, alienation subscale; stereo, stereotype endorsement; discri, discrimination experience; soc-with, social withdrawal; Rstig, stigma resistance); MASC, Movie for the Assessment of Social Cognition (Abs, absence of ToM; CM, correct mentalization score; Ho, hypomentalization; Hy, hypermentalization score); PANSS, Positive and Negative Syndrome Scale (positive, negative, and general psychopathology subscales); PerSo, social perception test; PSP, Personal and Social Performance Scale total score; QCAE, Questionnaire of Cognitive and Affective Empathy; SERS-SF, Self-Esteem Rating Scale-short form (positive and negative subscales); Simil NB, WAIS IV Similarities subtest; STORI, stage of recovery instrument (awar, awareness; growth, growth stage; mora, moratorium stage; prep, preparation stage; rebuil, rebuilding stage); TMT, Trail Making Test A and B; Bold values indicate the p-values significant at p<0.05.

Outcome measures

Social functioning and social cognition

Social functioning (Personal and Social Performance Scale [PSP])

Social function was evaluated with the Personal and Social Performance Scale (PSP) [Reference Nasrallah, Morosini and Gagnon26]. PSP provides an overall rating score ranging from 1 to 100, higher scores representing better personal and social functioning. PSP showed acceptable internal consistency (Cronbach’s alpha [CA] = 0.76) [Reference Kawata and Revicki27], excellent inter-rater reliability (ICC = 0.97) [Reference Patrick, Burns, Morosini, Rothman, Gagnon and Wild28], and a satisfactory ability to detect changes [Reference Nasrallah, Morosini and Gagnon26]. A seven-point improvement during clinical trials is considered to be clinically significant [Reference Nasrallah, Morosini and Gagnon26].

Theory of mind (Movie for the Assessment of Social Cognition (MASC)

The MASC test [Reference Dziobek, Fleck, Kalbe, Rogers, Hassenstab and Brand29,Reference Martinez, Alexandre, Mam-Lam-Fook, Bendjemaa, Gaillard and Garel30] is a 15mn movie depicting four people discussing on a Saturday evening. During the film the participant is regularly asked about the mental states of the characters with four possible options: (a) correct answer (ToM); (b) under-mentalizing answer; (c) lack of mental state attribution answer; and (d) over-mentalizing answer. A total score of correct answers and three error scores (less ToM, no ToM, and excessive ToM) are calculated. This scale has shown excellent internal consistency (CA = 0.865) [Reference Martinez, Alexandre, Mam-Lam-Fook, Bendjemaa, Gaillard and Garel30].

Social perception and knowledge (PerSo)

The PerSo [Reference Peyroux, Prost, Danset-Alexandre, Brenugat-Herne, Carteau-Martin and Gaudelus31] measures competence in the perception of social situations depicted in four pictures taken from the material “ColorCards-Social Behavior.” Participants are firstly asked to describe all the elements in the picture allowing the calculation of global “fluency score.” Then participants describe the social situation, a total interpretation score (sum of the noncued and cued scores) being calculated. A score of social knowledge is calculated with a question concerning a social convention depicted on the card.

Attributional style (Ambiguous Intentions and Hostility Questionnaire [AIHQ])

The AIHQ [Reference Peyroux, Prost, Danset-Alexandre, Brenugat-Herne, Carteau-Martin and Gaudelus31,Reference Combs, Penn, Wicher and Waldheter32] measures hostile social cognitive bias. Participant is asked to read each situation and to imagine it happening to him/her. Three scores are calculated depending on participant’s answers: hostility, attribution of responsibility, and aggression scores. This scale has shown excellent internal consistency (CA: 0.91–0.99) [Reference Combs, Penn, Wicher and Waldheter32].

Empathy (Quotient of Cognitive and Affective Empathy [QCAE])

The QCAE [Reference Reniers, Corcoran, Drake, Shryane and Völlm33,Reference Myszkowski, Brunet-Gouet, Roux, Robieux, Malézieux and Boujut34] is a 31 item self-reported assessment comprising five subscales intended to assess cognitive and affective components of empathy. This scale has shown acceptable internal consistency (CA = 0.62–0.89) [Reference Myszkowski, Brunet-Gouet, Roux, Robieux, Malézieux and Boujut34].

Self-assessment of social cognition impairments (ACSo)

Self-assessment of social cognition was realized with 12 items-ACSo questionnaire [Reference Peyroux, Prost, Danset-Alexandre, Brenugat-Herne, Carteau-Martin and Gaudelus31,Reference Peyroux35,Reference Graux, Thillay, Morlec, Sarron, Roux and Gaudelus36]. The ACSo showed acceptable internal consistency (CA = 0.822) [Reference Peyroux, Prost, Danset-Alexandre, Brenugat-Herne, Carteau-Martin and Gaudelus31].

Assessment of social cognition-related disability

Social cognition related disability was assessed with the 14-items Social Cognition-Functional Outcomes Scale (ERF-CS) [Reference Peyroux35]. The ERF-CS total score reflects the impact of social cognitive deficits on functional outcomes, a higher score being associated with increased severity [Reference Peyroux, Prost, Danset-Alexandre, Brenugat-Herne, Carteau-Martin and Gaudelus31]. This scale often used as a prepost measure for cognitive remediation, aims at determining one’s personal objectives and at facilitating the generalization of treatment benefits to daily life.

Secondary outcomes

General information on education, marital status, economic status, illness onset and trajectory and comorbidities, was recorded. Illness severity was assessed using the Positive and Negative Syndrome Scale (PANSS) [Reference Kay, Fiszbein and Opler37] with an adequate inter-rater reliability (ICC = 0.66). Self-stigma was assessed using the Internalized Stigma of Mental Illness scale (ISMI) [Reference Boyd Ritsher, Otilingam and Grajales38], a 29-item self-report measure designed to assess people’s personal experience of stigma related to mental disorders. A higher score reflects a higher level of self-stigma. This scale has shown good internal consistency (CA = 0.80–0.92) [Reference Boyd, Adler, Otilingam and Peters39] and test–retest reliability (0.92) [Reference Boyd, Adler, Otilingam and Peters39]. Self-esteem was measured with the Self-Esteem Rating Scale-Short Form (SERS-SF; CA = 0.87–0.91) [Reference Lecomte, Corbière and Laisné40], empowerment with the Boston University Empowerment Scale (BUES; CA = 0.86) [Reference Rogers, Chamberlin, Ellison and Crean41] and personal recovery using the self-reported Stage of Recovery Instrument (STORI) [Reference Andresen, Caputi and Oades42]. Neuropsychological baseline and follow-up cognitive assessments included Wechsler Adult Intelligence Scale-fourth edition (WAIS-IV) [Reference Wechsler and WAIS43] Coding and Similarities subtests respectively for speed of processing and verbal abstraction, Trail Making Test A and B (TMT-A and B) [Reference Godefroy44], respectively for speed of processing and reactive mental flexibility, shopping test-revised for planning abilities [Reference Fournet, Demazière-Pelletier, Favier, Hugonot-Diener, Thomas-Anthérion and Sellal45], BEM-144 story subtest for auditory-verbal memory [Reference Signoret46], and premorbid IQ with the French-National Adult Reading Test (f-NART) [Reference Bovet47].

Interventions

The experimental intervention

RR is a manualized 15-session group-based intervention following the principles of cognitive remediation (“a behavioral training intervention targeting cognitive deficits using scientific principles of learning, with the ultimate goal of improving functional outcomes” [Reference Bowie, Bell, Fiszdon, Johannesen, Lindenmayer and McGurk48]). Figure 1 provides an overview of the RR topics.

Figure 1. Overview of the RemedRugby topics.

RR consists of 12 weekly 2-h sessions animated in the local rugby club by two facilitators and three daylong TR tournaments regrouping participants from all the centers. Sessions are conducted in a sequential fashion. In each session, participants are encouraged to generate information about the topic of the session and to remind the content of the previous session (freely and with cuing when necessary). The major part of each session is dedicated to the learning of a technique with its practical applications. Participants are invited to read the exercises from their manual, complete the prompts and to share them with other group members and to discuss their views related to them. They are invited to identify and monitor the strategies they use during the exercises and to consider how they could apply these strategies to their daily life. At the end of a session participants are encouraged to summarize what was learnt with its potential applications to their daily life. A part of each session (15 mn) and one specific session are dedicated to the practice of TR under facilitator’s supervision. At-home practice exercises are carried out between the sessions. RR has four major foci each of which targeting a specific domain: (a) SCR and SST applied to the situations that can be lived in the field (i.e., a referee not signaling a fault or a partner missing a pass), the following emotional possible reactions and their consequences on oneself and on his/her partner; (b) SCR via a blog common to all teams where participants are invited to formulate their remarks, questions, compliments, and criticism about the rules, the duration of matches, the organization of the previous or next tournament. After each tournament, group members are encouraged to list freely the themes they would like to discuss with the other teams, to categorize them and to complete the exercise from their manual (redaction of an e-mail addressing all the selected themes). Participants are invited to take other’s perspectives when writing their messages and to ask themselves about the intention of their interlocutor or the impact of their answer on others. Participants are encouraged to share their strategies and feelings with others and to formulate the team’s common answer on the blog; (c) Problem-solving skills via the organization of a daylong TR tournament regrouping all participants and facilitators (>80 persons). Three tournaments are organized during the program (one per experimental center). Participants from the inviting team are encouraged to consider the different steps of the organization of a sport event (material needed, number of guests and matches, starting and finishing hours, site preparation, and cleaning; guest reception) and their duration. The 23 steps of the organization are presented in disorder to the participants. After reordering them in the right chronological fashion, participants are invited to estimate the duration of each step and to proceed to a cumulative calculation aiming at determining the ending time of the tournament. Participants are then encouraged to list freely the material necessary to the organization and to order it in categories. They are invited to organize to themselves in pairs, each pair having specific tasks to realize during the day. The program is then published on the blog to inform the other teams of the details of the event. Group members from the other teams take note of the program and location of the tournament, estimate with a map the time needed for transportation and set an appointed leaving time; (d) SCR and SST applied to interaction with the medias. Group members are encouraged to reflect on stigma, self-stigma and the ways to reduce stigma. Participants are encouraged to share with other group members their personal stories about coping with stigma and to discuss the potential impact of a media intervention in changing people’s opinion about mental illness. They are invited to complete an exercise from their manual in which they imagine the questions a journalist could ask on the day of the tournament and write the answers they would like to make. Participants discuss their answers with the other group members and formulate the message they would like to pass to the press and the general public. They are encouraged to use problem-solving skills to plan the situation and to realize role-playing exercises. Role-playing trainings are made on the field (close to the real situation), one player playing the journalist, one the cameraman and the others being interviewed. Group members and facilitators provide feedback on the role-play. On the final tournament, participants who are willing to be interviewed can answer to local journalists with the objective to contribute to mental illness destigmatization.

The control condition: TR group

The control condition refers to the group attending to twelve 2-h sessions of TR under the supervision of specialized sport educators and to the three tournaments regrouping all patients. Sessions are similar to trainings than can be provided in a local sport club adapted to participant’s physical fitness.

Statistical analysis

RR patients were evaluated at three visits V1, V2, and V3: V1 occurred before the treatment, V2 immediately after, V3 6 months later. The TR patients only had V1 and V2 after the same delay as RR patients. Forty-six variables were treated. The 42 score variables were evaluated at V1, V2, and V3 for RR patients, only V1 and V2 for the TR patients. A first question was to detect possible differences between the two populations of RR and TR patients over the 46 variables of interest at V1. This was done for the 45 continuous variables, using Welch two-sample T test. Results are shown on Table 1. For the discrete variable (gender) Fisher’s exact test was used, but no dependence was detected. The second question was to assess the effect of the treatment on the 57 RR patients at V2, and whether it had lasted until V3. For each of the 42 score variables, the values on the 57 RR patients at V1, V2, and V3 were compared two by two using a Welch’s two-sample T test, the side being chosen so that a small p value should correspond to improvement of the patient’s condition between successive visits. The p values are reported in Table 2. The third issue was to evaluate the effect of the treatment on the improvement of the different scores between V1 and V2. Improvement was defined as the difference between the values at V1 and V2, oriented so that a positive difference should correspond to an improvement of the patient’s condition. Each difference was adjusted by a linear regression over its confounding value at V0. The question was: is adjusted improvement higher among RR patients? Improvement in mean was tested by Welch’s two-sample T test for each of the 42 score variables. Results are shown on Table 3. A power analysis was performed using the R package “pwr” [Reference Champely50] based on Cohen [Reference Cohen51]. For sample sizes of 37 and 50, an alpha level of 0.05, and an effect size (Cohen’s d) of 0.554 (see Table 3), the expected power of a two-sample T test is 0.68. It increases with the effect size, and is above 0.99 for an effect size greater than 1. The Shapiro–Wilk normality test was applied to all the tested samples. A False Discovery Rate correction was applied to each vector of p values, using the Benjamini–Yekutieli method, which is the most stringent, and also the most robust to possible dependencies. Referring to Table 3, all p values <0.001 were still <0.01 after FDR correction (results not reported here, available upon request). For the multivariate analysis, only adjusted improvements in the four PANSS scores, and the PSP score were considered. The values at V1 of the five variables of interest were considered as covariates. Five more covariates were added: age, gender, education level, and participation rate. Thus, improvement for each of the five variables of interest was tested against a set of 11 potentially explanatory factors, including the binary predictor: RR versus TR. All covariates were included in a linear regression model. A stepwise variable selection was performed using Bayes’ information criterion (BIC). p Values for the complete linear regression model are shown on Table 4. Data was analyzed using the R software, version 3.2.3 (R Core Team) [52]. The psych package version 1.5.8, was used Revelle [Reference Revelle53]. The significance level was set at 0.05. Effect size (Cohen’s d) was calculated using package effsize [Reference Revelle53]. Size effects inferior to 0.20 were considered as negligible, from 0.20 to 0.40 as small, from 0.40 to 0.60 as moderate, and superior to 0.60 as strong [Reference Revelle53].

Table 2. Improvements in the RemedRugby group at post-treatment and follow-up

For each of the 42 outcomes variable, the table displays the p values of three Walsh paired samples one-sided T tests: values at V1 against V2, then V2 against V3, then V1 against V3. In each case, the alternative has been chosen so that a small p value should correspond to improvement of the patient’s condition between consecutive visits. CPZ100eq: dose equivalent to 100 mg/day of chlorpromazine calculated according to the minimum effective dose method [Reference Leucht, Samara, Heres and Davis49].

Abbreviations: AcSo, self-assessment of social cognition; AIHQ, Ambiguous Intentions and Hostility Questionnaire (agress, aggression bias; anger, anger score; blame, blame score; host, hostility bias; resp, attribution of responsibility); BEM-RD, BEM delayed recall; BEM-RI, BEM immediate recall; BUES, Boston University Empowerment Scale; Coding, WAIS-IV Coding subscale; Education, education level (years); ERF-CS, Social Cognition—Functional Outcomes Scale; ISMI, Internalized Stigma of Mental Illness scale (Alien, alienation subscale; discri, discrimination experience; Rstig, stigma resistance; stereo, stereotype endorsement; soc-with, social withdrawal; tot, total score); MASC, Movie for the Assessment of Social Cognition (Abs, absence of ToM; CM, correct mentalization score; Ho, hypomentalization; Hy, hypermentalization score); PANSS, Positive and Negative Syndrome Scale (positive, negative, and general psychopathology subscales); PerSo, social perception test; PSP, Personal and Social Performance Scale total score; QCAE, Questionnaire of Cognitive and Affective Empathy; SERS-SF, Self-Esteem Rating Scale-Short Form (positive and negative subscales); Simil NB, WAIS IV Similarities subtest; STORI, tage of recovery instrument (awar, awareness; growth, growth stage; mora, moratorium stage; prep, preparation stage; rebuil, rebuilding stage); TMT, Trail Making Test A and B; Bold values indicate the p-values significant at p<0.05.

Table 3. Univariate differences between V1 and V2

For each of the 42 outcome variables, improvement was defined as the difference between the value at V2 and V1, oriented so that a positive difference should correspond to an improvement of the patient’s condition. Each difference was adjusted by a linear regression over its confounding value at V1. The table displays the sample size mean and standard-deviation of the adjusted difference over the Expe patients, then over the TR patients, then the results (test statistic, degrees of freedom, p value) of the Walsh two-sample one-sided T test between both. A p value smaller than 0.05 indicates that the mean improvement over Expe patients is significantly higher. CPZ100eq: dose equivalent to 100 mg/day of chlorpromazine calculated according to the minimum effective dose method [Reference Leucht, Samara, Heres and Davis49].

Abbreviations: AcSo, self-assessment of social cognition; AIHQ, Ambiguous Intentions and Hostility Questionnaire (agress, aggression bias; anger, anger score; blame, blame score; host, hostility bias; resp, attribution of responsibility); BEM-RD, BEM delayed recall; BEM-RI, BEM immediate recall; BUES, Boston University Empowerment Scale; Coding, WAIS-IV Coding subscale; Education, education level (years); ERF-CS, Social Cognition—Functional Outcomes Scale; ISMI, Internalized Stigma of Mental Illness scale (Alien, alienation subscale; discri, discrimination experience; Rstig, stigma resistance; stereo, stereotype endorsement; soc-with, social withdrawal; tot, total score); MASC, Movie for the Assessment of Social Cognition (Abs, absence of ToM; CM, correct mentalization score; Ho, hypomentalization; Hy, hypermentalization score); PANSS, Positive and Negative Syndrome Scale (positive, negative, and general psychopathology subscales); PerSo, social perception test; PSP, Personal and Social Performance Scale total score; QCAE, Questionnaire of Cognitive and Affective Empathy; SERS-SF, Self-Esteem Rating Scale-Short Form (positive and negative subscales); Simil NB, WAIS IV Similarities subtest; STORI, tage of recovery instrument (awar, awareness; growth, growth stage; mora, moratorium stage; prep, preparation stage; rebuil, rebuilding stage); TMT, Trail Making Test A and B; Bold values indicate the p-values significant at p<0.05.

Table 4. Multivariate analysis

The table displays results of the multivariate analysis for the adjusted differences (improvement) of the four PANSS scores, and the PSP score, successively considered as response variables. Eleven potentially explanatory factors are considered. They include the exposure to the treatment, four descriptive variables, the values at V1 of the five variables of interest, and the level of treatment CPZ.EQ. The first 11 rows give the p value of the contribution to the complete linear model of each explanatory variable. On the last row, the p value of the two-way a nova of the simple linear regression against the full model is displayed.

Abbreviations: PANSS, Positive and Negative Syndrome Scale; PSP, Personal and Social Performance Scale; Bold values indicate the p-values significant at p<0.05.

Results

Figure 2 shows the CONSORT diagram. After excluding those who did not meet the inclusion criteria 57 participants were allocated to RR and 30 to the control condition. Baseline characteristics of the participants allocated to the two arms are presented in Table 1. The mean participation rate was 88% for those in the RR group and 93% for the control condition.

Figure 2. CONSORT flow diagram.

Differences between the two groups before treatment

There were significant differences in MASC overmentalizing subscore (p = 0.024), PANSS total score (p = 0.022), negative symptoms (p = 0.004), and general psychopathology (p = 0.089) between the two groups before treatment. There were no significant baseline differences in pharmacological treatment, social function, neurocognition, self-esteem, self-stigma, empowerment, and personal recovery between the two groups.

Changes in social functioning

After treatment RR participants showed larger improvements in social function (PSP; p < 0.001; d = 1.255) compared with TR patients.

Changes in social and non-social cognition

RR participants improved more in aggression bias (AIHQ; p = 0.008; d = 0.627) and in social cognition-related disability (ERF-CS total, p = 0.061, d = 0.357; ERF-CS emotion processing, p = 0.011, d = 0.544; ERF-CS attribution style, p = 0.003; d = 0.624) than TR patients. RR participants showed larger improvements in verbal abstraction compared with TR patients (p = 0.008; d = 0554).

Changes in symptom severity and other outcomes

RR participants showed larger improvements in symptom severity compared with TR group (PANSS total, p < 0.001; d = 0.961; PANSS positive, p = 0.009; d = 0.594; PANSS negative, p < 0.001; d = 0.827; PANSS GP; p < 0.001; d = 0.991). RR participants showed larger improvements in stereotype endorsement (p = 0.019, d = 0.495) and discrimination experiences (p = 0.047; d = 0.389) than TR patients. After treatment RR participants had lower antipsychotic doses than TR patients (p = 0.039; d = 0.317).

Multivariate analysis

In the multivariate analysis, attending to RR was retained as the main explanatory factor for the improvement of social function (p < 0.001), positive (p = 0.002), negative (p < 0.001), and GP symptoms (p < 0.001) PANSS scores. Among the other 11 explanatory variables, few have a significant contribution. When comparing the model containing only the treatment with the full model with the 12 potential explanations, through a two-way ANOVA, the only response for which the full model does significantly better than the single one is PANSS negative (p = 0.028). For that variable the education level explanation improves on the treatment alone. For the other four responses, the treatment is indeed the best explanation by far, of the observed improvements.

Discussion

The present study is the first trial to date evaluating the effectiveness of an integrated SCR program provided in a real-life environment. RR improved symptom severity and social function with large effect-sizes. RR improved moderately aggression social-cognitive bias, stereotype endorsement, discrimination experiences, social cognition-related disability, and verbal abstraction. The positive effects on these variables were specific to the RR group and were not observed in participants playing only TR. The effects on symptom severity, cognitive function and social functioning persisted after 6 months of follow-up. Participant’s age or gender and pharmacological or psychosocial treatments received during the study period had no influence on treatment’s outcomes.

According to Harvey et al.’s model [Reference Harvey and Strassnig1], real-world functioning results from the interplay of cognitive performance, social cognition, functional capacity, negative symptoms, depression, environmental factors and physical fitness. Addressing simultaneously executive functioning, social competence, social cognition, negative symptoms, self-stigma and physical fitness may have improved treatment outcome on social functioning [Reference Harvey and Strassnig1,Reference Galderisi, Rucci, Kirkpatrick, Mucci, Gibertoni and Rocca2,Reference Green, Horan and Lee11].

Negative symptoms including social amotivation and anhedonia are closely related with social functioning [Reference Harvey and Strassnig1,Reference Galderisi, Rucci, Kirkpatrick, Mucci, Gibertoni and Rocca2,Reference Green, Horan and Lee11]. Social competence was associated with social motivation and was identified as a potential mediator of self-stigma effects on social functioning [Reference Galderisi, Rucci, Kirkpatrick, Mucci, Gibertoni and Rocca2]. Improving social competence and social skills during treatment could make social interactions more enjoyable enhancing, therefore, the motivation to engage in social behavior [Reference Galderisi, Rucci, Kirkpatrick, Mucci, Gibertoni and Rocca2,Reference Green, Horan and Lee11,Reference Pelletier-Baldelli and Holt54]. Self-stigma is associated with impaired cognitive and social functioning, more severe positive and negative symptoms and increased social anxiety [55–62]. Reduced defeatist beliefs and self-stigma might contribute to the treatment effects on negative symptoms and social functioning [Reference Galderisi, Rucci, Kirkpatrick, Mucci, Gibertoni and Rocca2,Reference Green, Horan and Lee11,Reference Pelletier-Baldelli and Holt54]. Improvements in perceived social cognitive abilities might explain the treatment effects on self-stigma, psychiatric symptoms, and social functioning [63–67]. Improvements in self-stigma and hostile social-cognitive bias could explain the treatment effects on symptom severity, through reduced social anxiety and enhanced social motivation [Reference Galderisi, Rucci, Kirkpatrick, Mucci, Gibertoni and Rocca2,Reference Galderisi, Rossi, Rocca, Bertolino, Mucci and Bucci61,Reference Pyle, Stewart, French, Byrne, Patterson and Gumley62]. Cognitive remediation delivered in enriched environments [Reference Dubreucq, Ycart, Gabayet, Perier, Hamon and Llorca68,Reference Cella, Preti, Edwards, Dow and Wykes69] is effective on negative symptoms, possibly through improved executive functions [Reference Farreny, Aguado, Ochoa, Haro and Usall25]. Improvements in executive functions and in abstract reasoning, which has been related to functional capacity [Reference Savla, Vella, Armstrong, Penn and Twamley70], might have contributed to the treatment effects on negative symptoms and social function. Contrary to our expectations, there was no improvement on objective measures of social perception and ToM. The improvement of social functioning and social-cognitive bias but not in social perception and ToM contrast with several other studies finding an opposite pattern of improvement after social-cognitive remediation (i.e., medium to large effects on ToM and social perception; small to medium effects on attribution bias; limited effects on social functioning [Reference Green, Horan and Lee11]). The discrepancy between objective measures of social cognition and real-life functioning and the absence of consensus on an optimal set of social cognition outcome measures for clinical trials might explain these differences [Reference Green, Horan and Lee11].

As above-mentioned aerobic PA showed effectiveness on patient’s outcomes in people with schizophrenia [Reference Firth, Cotter, Elliott, French and Yung17,Reference Firth, Stubbs, Rosenbaum, Vancampfort, Malchow and Schuch18]. Effects on cognition were related to improvements in brain volumes and brain-derived neurotrophic factor (BDNF) [Reference Nuechterlein, Ventura, McEwen, Gretchen-Doorly, Vinogradov and Subotnik16,Reference Firth, Stubbs, Rosenbaum, Vancampfort, Malchow and Schuch18]. Improvements in negative symptoms and social functioning after combining physical activity and cognitive remediation are in line with recent studies [Reference Nuechterlein, Ventura, McEwen, Gretchen-Doorly, Vinogradov and Subotnik16,Reference Malchow, Keeser, Keller, Hasan, Rauchmann and Kimura71]. Increased physical fitness may have contributed to improved social function, but this variable was not measured during the study. Similarly, BDNF levels were not measured and there was no functional imaging. Future research should investigate whether the RR program could show effectiveness on these outcomes. Collective PA under the supervision of trained professionals (TR group) resulted in improved empathy and alienation subscale of self-stigma compared with the RR group. RR did not show effectiveness on personal recovery. To the best of our knowledge, this is the first study assessing these variables in the context of physical activity. Improvements in perceived social cognitive abilities could explain the absence of effects on alienation and personal recovery, through improved insight into illness [Reference Chio, Mak, Chan and Tong72]. The inclusion of more TR sessions in the RR program and a more explicit focus on recovery-related outcomes during the sessions might improve these outcomes. Unexpectedly physical activity alone resulted in aggravation in symptom severity and social function. One potential explanation to this discrepancy with the literature is that almost all studies provided individual activities [Reference Firth, Cotter, Elliott, French and Yung17,Reference Firth, Stubbs, Rosenbaum, Vancampfort, Malchow and Schuch18]. Considering negative symptoms and social anxiety as barriers to PA participation [19–23] collective physical activities could be more challenging when provided alone and result in poorer outcomes at post-treatment.

In summary, an integrated exercise-enriched SCR program showed effectiveness in improving social functioning, aggression bias, symptom severity, verbal reasoning and self-stigma compared with the practice of a collective PA. Effects were persistent over time and even larger between post-treatment and follow-up. This indicates a potential generalization of treatment benefits to everyday functioning. The large sized effects on social function and psychopathology suggest that providing SCR in an enriched environment could be potentially beneficial in the treatment of people with schizophrenia by improving social function. Future research should investigate the potential effects of this intervention on neuroplasticity and physical fitness.

Limitations

There are some limitations to be taken into account when interpreting the results of this study. The absence of randomization is an important limitation, possibly leading to potential selection bias and to baseline differences in psychopathology and social cognition. In addition, there was no follow-up after treatment in the TR group, making impossible to compare outcomes between the two groups at 6 months. One cannot therefore draw the conclusion that the significant improvements in the RR group between post-treatment and follow-up are caused by the participation to RR. Eventually, it is possible that some institutionalized or very disabled patients unfit to practice a physical activity according to their general practitioner’s examination, could not be able to participate in RR. Sites lacking of to an indoor or outdoor space where TR games can be practiced may also not be able to implement this intervention.

Strengths

This is the first trial to date evaluating the effectiveness of an integrated SCR program provided in a real-life environment compared with an active control group. The present study exhibits clear strengths: the use of a large bundle of standardized evaluation scales, the absence of baseline differences in most of the variables considered, the possibility to rule out the effects of pharmacological and other psychosocial treatments on treatment’s outcomes and the inclusion of a large number of potential confounding factors in the multivariate analysis. TR is an intervention accessible to all types of participants regardless of their gender, age or physical fitness that can be practiced in nonspecific outdoor spaces or local sport clubs.

Acknowledgments

The authors thank the members of the RemedRugby Group who have all participated in the study and Pr Nicolas Franck for the access to ClaCos social-cognitive battery.

Financial Support

This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors.

Conflict of Interest

The authors declare no conflict of interest.

Authorship Contribution

The authors had full access to the data in the study and take the responsibility for the integrity of the data and the accuracy of the data analysis. J.D. drafted the article and made the literature review. B.Y. performed the statistical analysis. P.-M.L., C.M., M.F.G., and M.F. contributed to the interpretation of data and critically revised the article. All the authors were involved in the collection and analysis of the data. All authors contributed to and have approved the final manuscript.

Data Availability Statement

The data that support the findings of this study are available on request from the corresponding author. The data are not publicly available due to privacy or ethical restrictions.

References

Harvey, PD, Strassnig, M. Predicting the severity of everyday functional disability in people with schizophrenia: cognitive deficits, functional capacity, symptoms, and health status. World Psychiatry. 2012;11(2):7379.CrossRefGoogle ScholarPubMed
Galderisi, S, Rucci, P, Kirkpatrick, B, Mucci, A, Gibertoni, D, Rocca, P, et al.Interplay among psychopathologic variables, personal resources, context-related factors, and real-life functioning in individuals with schizophrenia: a network analysis. JAMA Psychiatry. 2018;75:396404.CrossRefGoogle ScholarPubMed
DeHert, M, Correll, CU, Bobes, J, Cetkovich-Bakmas, M, Cohen, D, Asai, I, et al.Physical illness in patients with severe mental disorders. I. Prevalence, impact of medications and disparities in health care. World Psychiatry. 2011;10(1):5277.CrossRefGoogle Scholar
Laidi, C, Prigent, A, Plas, A, Leboyer, M, Fond, G, Chevreul, K, et al.Factors associated with direct health care costs in schizophrenia: results from the FACE-SZ French dataset. Eur Neuropsychopharmacol. 2018;28(1):2436.CrossRefGoogle ScholarPubMed
Dixon, LB, Dickerson, FB, Bellack, AS, Bennett, M, Dickinson, D, Goldberg, RW, et al.The 2009 schizophrenia PORT psychosocial treatment recommendations and summary statements. Schizophr Bull. 2010;36(1):4870.CrossRefGoogle ScholarPubMed
National Institute for Health and Clinical Excellence. Guidance, psychosis and schizophrenia in adults: treatment and management: updated edition 2014. Ed: National Collaborating Centre for Mental Health (UK). London, UK: National Institute for Health and Care Excellence (UK), 2014.Google Scholar
Franck, N, Bon, L, Dekerle, M, Plasse, J, Massoubre, C, Pommier, R, et al.Satisfaction and needs in serious mental illness and autism spectrum disorder: the REHABase Psychosocial Rehabilitation Project. Psychiatr Serv. 2019;70(4):316323.CrossRefGoogle ScholarPubMed
Farkas, M, Anthony, WA. Psychiatric rehabilitation interventions: a review. Int Rev Psychiatry. 2010;22(2):114129.CrossRefGoogle ScholarPubMed
Jääskeläinen, E, Juola, P, Hirvonen, N, JJ, MG, Saha, S, Isohanni, M, et al.A systematic review and meta-analysis of recovery in schizophrenia. Schizophr Bull. 2013;39:12961306.CrossRefGoogle Scholar
Roe, D, Maschiasch-Eisenberg, M, Lysaker, PH. The relation between objective and subjective domains of recovery among persons with schizophrenia-related disorders. Schizophr Res. 2011;131:133138.CrossRefGoogle ScholarPubMed
Green, MF, Horan, WP, Lee, J. Nonsocial and social cognition in schizophrenia: current evidence and future directions. World Psychiatry. 2019;18(2):146161. doi: 10.1002/wps.20624.CrossRefGoogle ScholarPubMed
Kurtz, MM, Gagen, E, Rocha, NB, Machado, S, Penn, DL. Comprehensive treatments for social cognitive deficits in schizophrenia: a critical review and effect-size analysis of controlled studies. Clin Psychol Rev. 2016;43:8089.CrossRefGoogle ScholarPubMed
Kurtz, MM, Mueser, KT. A meta-analysis of controlled research on social skills training for schizophrenia. J Consult Clin Psychol. 2008;76:491504.CrossRefGoogle Scholar
Kurtz, MM, Mueser, KT, Thime, WR, Corbera, S, Wexler, BE. Social skills training and computer-assisted cognitive remediation in schizophrenia. Schizophr Res. 2015;162:35–34.CrossRefGoogle Scholar
Malchow, B, Keller, K, Hasan, A, Dörfler, S, Schneider-Axmann, T, Hillmer-Vogel, U, et al.Effects of endurance training combined with cognitive remediation on everyday functioning, symptoms, and cognition in multiepisode schizophrenia patients. Schizophr Bull. 2015;41(4):847858.CrossRefGoogle ScholarPubMed
Nuechterlein, KH, Ventura, J, McEwen, SC, Gretchen-Doorly, D, Vinogradov, S, Subotnik, KL. Enhancing cognitive training through aerobic exercise after a first schizophrenia episode: theoretical conception and pilot study. Schizophr Bull. 2016;42:S44S52. doi: 10.1093/schbul/sbw007.CrossRefGoogle ScholarPubMed
Firth, J, Cotter, J, Elliott, R, French, P, Yung, AR. A systematic review and meta-analysis of exercise interventions in schizophrenia patients. Psychol Med. 2015;45(7):13431361.CrossRefGoogle ScholarPubMed
Firth, J, Stubbs, B, Rosenbaum, S, Vancampfort, D, Malchow, B, Schuch, F, et al.Aerobic exercise improves cognitive functioning in people with schizophrenia: a systematic review and meta-analysis. Schizophr Bull. 2017;43(3):546556.Google ScholarPubMed
Vancampfort, D, Knapen, J, Probst, M, Scheewe, T, Remans, S, De Hert, M. A systematic review of correlates of physical activity in patients with schizophrenia. Acta Psychiatr Scand. 2012;125(5):352362. doi: 10.1111/j.1600-0447.2011.01814.x.CrossRefGoogle ScholarPubMed
Vancampfort, D, Stubbs, B, Mitchell, AJ, De Hert, M, Wampers, M, Ward, PB, et al.Risk of metabolic syndrome and its components in people with schizophrenia and related psychotic disorders, bipolar disorder and major depressive disorder: a systematic review and meta-analysis. World Psychiatry. 2015;14:339347.CrossRefGoogle ScholarPubMed
De Herdt, A, Knapen, J, Vancampfort, D, De Hert, M, Brunner, E, Probst, M. Social anxiety in physical activity participation in patients with mental illness: a cross-sectional multicenter study. Depress Anxiety. 2013;30(8):757762.CrossRefGoogle ScholarPubMed
Firth, J, Rosenbaum, S, Stubbs, B, Gorczynski, P, Yung, AR, Vancampfort, D. Motivating factors and barriers towards exercise in severe mental illness: a systematic review and meta-analysis. Psychol Med. 2016;46(14):28692881.CrossRefGoogle ScholarPubMed
Battaglia, G, Alesi, M, Inguglia, M, Roccella, M, Caramazza, G, Bellafiore, M, et al.Soccer practice as an add-on treatment in the management of individuals with a diagnosis of schizophrenia. Neuropsychiatr Dis Treat. 2013;9:595603.CrossRefGoogle ScholarPubMed
World Rugby Federation, https://www.world.rugby/vision; 2009. Accessed July 20th 2019.Google Scholar
Farreny, A, Aguado, J, Ochoa, S, Haro, JM, Usall, J. The role of negative symptoms in the context of cognitive remediation for schizophrenia. Schizoph Res. 2013;150:5863.CrossRefGoogle Scholar
Nasrallah, H, Morosini, PL, Gagnon, DD. Reliability, validity and ability to detect change of the Personal and Social Performance Scale in patients with stable schizophrenia. Psychiatry Res. 2008;161:213224.CrossRefGoogle ScholarPubMed
Kawata, AK, Revicki, DA. Psychometric properties of the Personal and Social Performance scale (PSP) among individuals with schizophrenia living in the community. Qual Life Res. 2008;17(10):12471256.CrossRefGoogle ScholarPubMed
Patrick, DL, Burns, T, Morosini, P, Rothman, M, Gagnon, DD, Wild, D, et al.Reliability, validity and ability to detect change of the clinician-rated Personal and Social Performance scale in patients with acute symptoms of schizophrenia. Curr Med Res Opin. 2009;25(2):325338.CrossRefGoogle ScholarPubMed
Dziobek, I, Fleck, S, Kalbe, E, Rogers, K, Hassenstab, J, Brand, M, et al.Introducing MASC: a movie for the assessment of social cognition. J Autism Dev Disord. 2006;36(5):623636.CrossRefGoogle ScholarPubMed
Martinez, G, Alexandre, C, Mam-Lam-Fook, C, Bendjemaa, N, Gaillard, R, Garel, P, et al.Phenotypic continuum between autism and schizophrenia: evidence from the Movie for the Assessment of Social Cognition (MASC). Schizophr Res. 2017;185:161166. doi: 10.1016/j.schres.2017.01.012.CrossRefGoogle Scholar
Peyroux, E, Prost, Z, Danset-Alexandre, C, Brenugat-Herne, L, Carteau-Martin, I, Gaudelus, B, et al.From "under" to "over" social cognition in schizophrenia: is there distinct profiles of impairments according to negative and positive symptoms. Schizophr Res Cogn. 2018;15:2129.CrossRefGoogle Scholar
Combs, DR, Penn, DL, Wicher, M, Waldheter, E. The Ambiguous Intentions Hostility Questionnaire (AIHQ): a new measure for evaluating hostile social-cognitive biases in paranoia. Cogn Neuropsychiatry. 2007;12(2):128143.CrossRefGoogle ScholarPubMed
Reniers, RL, Corcoran, R, Drake, R, Shryane, NM, Völlm, BA. The QCAE: a Questionnaire of Cognitive and Affective Empathy. J Pers Assess. 2011;93(1):8495. doi: 10.1080/00223891.2010.528484.CrossRefGoogle ScholarPubMed
Myszkowski, N, Brunet-Gouet, E, Roux, P, Robieux, L, Malézieux, A, Boujut, E, et al.Is the questionnaire of cognitive and affective empathy measuring two or five dimensions? Evidence in a French sample. Psychiatry Res. 2017;255:292296.CrossRefGoogle ScholarPubMed
Peyroux, E. Remediation of social cognitive impairments in schizophrenia and related disorders: RC2S program: single-case studies, https://www.theses.fr/2014LYO20124; 2014. Accessed March 23th 2020.Google Scholar
Graux, J, Thillay, A, Morlec, V, Sarron, PY, Roux, S, Gaudelus, B, et al.A Transnosographic Self-Assessment of Social Cognitive Impairments (ACSO): first data. Front Psychiatry. 2019;10:847. doi: 10.3389/fpsyt.2019.00847.CrossRefGoogle ScholarPubMed
Kay, S, Fiszbein, A, Opler, L. The Positive and Negative Syndrome scale (PANSS) for schizophrenia. Schizophr Bull. 1987;13(2):261276.CrossRefGoogle Scholar
Boyd Ritsher, J, Otilingam, PG, Grajales, M. Internalized stigma of mental illness: psychometric properties of a new measure. Psychiatry Res. 2003;121:3149.CrossRefGoogle Scholar
Boyd, JE, Adler, EP, Otilingam, PG, Peters, T. Internalized Stigma of Mental Illness (ISMI) scale: a multinational review. Compr Psychiatry. 2014;55(1):221231.CrossRefGoogle ScholarPubMed
Lecomte, , Corbière, M, Laisné, F. Investigating self-esteem in individuals with schizophrenia: relevance of the self-esteem rating scale—short form. Psychiatry Res. 2006;143(1):99108.CrossRefGoogle ScholarPubMed
Rogers, ES, Chamberlin, J, Ellison, ML, Crean, T. A consumer-constructed scale to measure empowerment among users of mental health services. Psychiatr Serv. 1997;48(8):10421047.Google ScholarPubMed
Andresen, R, Caputi, P, Oades, LG. Stages of recovery instrument: development of a measure of recovery from serious mental illness. Aust NZ J Psychiatry. 2006;40:972980.CrossRefGoogle ScholarPubMed
Wechsler, D. WAIS, IVNouvelle version de l’échelle d’intelligence de Weschler pour adultes. 4th ed. Paris, France: Edition de Centre de Psychologie Appliquée; 2011.Google Scholar
Godefroy, O. GREFEX (Groupe de Réflexion pour l’Evaluation des Fonctions Exécutives). Fonctions exécutives et pathologies neurologiques et psychiatriques. Evaluation en pratique clinique. Marseille, France: Solal, 2008.Google Scholar
Fournet, N, Demazière-Pelletier, Y, Favier, S, et al.Test des commissions révisé. In: Hugonot-Diener, L, Thomas-Anthérion, C, Sellal, F, editors. GREMOIRE 2 tests et échelles des maladies neurologiques avec symptomatologie cognitive. Louvain, Belgium; Paris, France: De Boeck-Solal, 2015; p. 7074.Google Scholar
Signoret, JL. Batterie d’efficience mnésique BEM 144. Paris, France: Elsevier; 1991.Google Scholar
Bovet, D. QI et démence: un nouveau test. Adaptation française du NART. Mémoire de cours pour la formation d’orthophonistes, Université de Neuchâtel; 1991.Google Scholar
Bowie, CR, Bell, MD, Fiszdon, JM, Johannesen, JK, Lindenmayer, JP, McGurk, SR, et al.Cognitive remediation for schizophrenia: an expert working group white paper on core techniques. Schizophr Res. 2020;215:4953.CrossRefGoogle Scholar
Leucht, S, Samara, M, Heres, S, Davis, JM. Dose equivalents for second-generation antipsychotics: the minimum effective dose method. Schizophr Bull. 2014;40:314326.CrossRefGoogle ScholarPubMed
Champely, S. pwr: basic functions for power analysis, R package; 2018.Google Scholar
Cohen, J. Statistical power analysis for the behavioral sciences. 2nd ed. Hillsdale, NJ: Lawrence Erlbaum, 1988.Google Scholar
R Core Team. R: a language and environment for statistical computing. Vienna, Austria: R Foundation for Statistical Computing; 2015. 2020;46(2):236241. https://doi.org/10.1093/schbul/sbz095.CrossRefGoogle Scholar
Revelle, W. Psych: procedures for psychological, psychometric, and personality research. Evanston, IL: Northwestern University; R package, 2015.Google Scholar
Pelletier-Baldelli, A, Holt, DJ. At issue: are negative symptoms merely the “real world” consequences of deficits in social cognition? Schizophr Bull. 2019.Google Scholar
Livingston, JD, Boyd, JE. Correlates and consequences of internalized stigma for people living with mental illness: a systematic review and meta-analysis. Soc Sci Med. 2010;71(12):21502161.CrossRefGoogle ScholarPubMed
Rossi, A, Galderisi, S, Rocca, P, Bertolino, A, Mucci, A, Rucci, P, et al.The relationships of personal resources with symptom severity and psychosocial functioning in persons with schizophrenia: results from the Italian Network for Research on Psychoses study. Eur Arch Psychiatry Clin Neurosci. 2017;267(4):285294.CrossRefGoogle ScholarPubMed
Firmin, RL, Lysaker, PH, Luther, L, Yanos, PT, Leonhardt, B, Breier, A, et al.Internalized stigma in adults with early phase versus prolonged psychosis. Early Interv Psychiatry. 2019;13(4):745751.CrossRefGoogle ScholarPubMed
Lysaker, PH, Vohs, JL, Tsai, J. Negative symptoms and concordant impairments in attention in schizophrenia: associations with social functioning, hope, self-esteem and internalized stigma. Schizophr Res. 2009;110(1–3):165172.CrossRefGoogle ScholarPubMed
Hill, K, Startup, M. The relationship between internalized stigma, negative symptoms and social functioning in schizophrenia: the mediating role of self-efficacy. Psychiatry Res. 2013;206(2–3):151157.CrossRefGoogle ScholarPubMed
Park, SG, Bennett, ME, Couture, SM, Blanchard, JJ. Internalized stigma in schizophrenia: relations with dysfunctional attitudes, symptoms, and quality of life. Psychiatry Res. 2013;205(1–2):4347.CrossRefGoogle Scholar
Galderisi, S, Rossi, A, Rocca, P, Bertolino, A, Mucci, A, Bucci, P, et al.The influence of illness-related variables, personal resources and context-related factors on real-life functioning of people with schizophrenia. World Psychiatry. 2014;13(3):275287.CrossRefGoogle ScholarPubMed
Pyle, M, Stewart, SL, French, P, Byrne, R, Patterson, P, Gumley, A, et al.Internalized stigma, emotional dysfunction and unusual experiences in young people at risk of psychosis. Early Interv Psychiatry. 2015;9(2):133140.CrossRefGoogle ScholarPubMed
Lysaker, PH, Yanos, PT, Outcalt, J, Roe, D. Association of stigma, self-esteem, and symptoms with concurrent and prospective assessment of social anxiety in schizophrenia. Clin Schizophr Relat Psychoses. 2010;4(1):4148.CrossRefGoogle Scholar
Lysaker, PH, Kukla, M, Dubreucq, J, Gumley, A, McLeod, H, Vohs, JL, et al.Metacognitive deficits predict future levels of negative symptoms in schizophrenia controlling for neurocognition, affect recognition, and self-expectation of goal attainment. Schizophr Res. 2015;168(1–2):267272.CrossRefGoogle ScholarPubMed
Nabors, LM, Yanos, PT, Roe, D, Hasson-Ohayon, I, Leonhardt, BL, Buck, KD, et al.Stereotype endorsement, metacognitive capacity, and self-esteem as predictors of stigma resistance in persons with schizophrenia. Compr Psychiatry. 2014;55(4):792798.CrossRefGoogle ScholarPubMed
Inchausti, F, García-Poveda, NV, Ballesteros-Prados, A, Ortuño-Sierra, J, Sánchez-Reales, S, et al.The effects of metacognition-oriented social skills training on psychosocial outcome in schizophrenia-spectrum disorders: a randomized controlled trial. Schizophr Bull. 2018;44(6):12351244.CrossRefGoogle ScholarPubMed
Fischer, MW, Dimaggio, G, Hochheiser, J, Vohs, JL, Phalen, P, Lysaker, PH. Metacognitive capacity is related to self-reported social functioning and may moderate the effects of symptoms on interpersonal behavior. J Nerv Ment Dis. 2019; 208(2):138142. doi: 10.1097/NMD.0000000000001117.Google Scholar
Dubreucq, J, Ycart, B, Gabayet, F, Perier, CC, Hamon, A, Llorca, PM, et al.Towards an improved access to psychiatric rehabilitation: availability and effectiveness at 1-year follow-up of psychoeducation, cognitive remediation therapy, cognitive behaviour therapy and social skills training in the FondaMental Advanced Centers of Expertise-Schizophrenia (FACE-SZ) national cohort. Eur Arch Psychiatry Clin Neurosci. 2019;269(5):599610.CrossRefGoogle ScholarPubMed
Cella, M, Preti, A, Edwards, C, Dow, T, Wykes, T. Cognitive remediation for negative symptoms of schizophrenia: a network meta-analysis. Clin Psychol Rev. 2017;52:4351.CrossRefGoogle ScholarPubMed
Savla, GN, Vella, L, Armstrong, CC, Penn, DL, Twamley, EW. Deficits in domains of social cognition in schizophrenia: a meta-analysis of the empirical evidence. Schizophr Bull. 2013;39(5):979992. doi: 10.1093/schbul/sbs080.CrossRefGoogle ScholarPubMed
Malchow, B, Keeser, D, Keller, K, Hasan, A, Rauchmann, BS, Kimura, H, et al.Effects of endurance training on brain structures in chronic schizophrenia patients and healthy controls. Schizophr Res. 2016;173(3):182191.CrossRefGoogle ScholarPubMed
Chio, FHN, Mak, WWS, Chan, RCH, Tong, ACY. Unraveling the insight paradox: one-year longitudinal study on the relationships between insight, self-stigma, and life satisfaction among people with schizophrenia spectrum disorders. Schizophr Res. 2018;197:124130.CrossRefGoogle ScholarPubMed
Figure 0

Table 1. Baseline characteristics in the RR and the TR groups

Figure 1

Figure 1. Overview of the RemedRugby topics.

Figure 2

Table 2. Improvements in the RemedRugby group at post-treatment and follow-up

Figure 3

Table 3. Univariate differences between V1 and V2

Figure 4

Table 4. Multivariate analysis

Figure 5

Figure 2. CONSORT flow diagram.

Submit a response

Comments

No Comments have been published for this article.