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Psychological interventions for adults with bipolar disorder: systematic review and meta-analysis

Published online by Cambridge University Press:  02 January 2018

Matthijs Oud*
Affiliation:
Department of Care Innovation, Trimbos Institute, Utrecht, The Netherlands
Evan Mayo-Wilson
Affiliation:
Center for Clinical Trials and Evidence Synthesis, Johns Hopkins Bloomberg School of Public Health, Baltimore, USA
Ruth Braidwood
Affiliation:
Department of Clinical, Educational and Health Psychology, University College London, UK
Peter Schulte
Affiliation:
Treatment Centre for Bipolar Disorders, Mental Health Service Noord-Holland-Noord, Alkmaar, The Netherlands
Steven H. Jones
Affiliation:
Department of Clinical Psychology, Spectrum Centre for Mental Health Research, Lancaster University, UK
Richard Morriss
Affiliation:
Department of Psychiatry and Community Mental Health, Institute of Mental Health, University of Nottingham, UK
Ralph Kupka
Affiliation:
Department of Psychiatry, VU University Medical Centre, Amsterdam, The Netherlands
Pim Cuijpers
Affiliation:
Faculty of Psychology and Education, VU University Amsterdam, The Netherlands
Tim Kendall
Affiliation:
National Collaborating Centre for Mental Health, London, UK
*
Matthijs Oud, Trimbos Institute, Department of Care Innovation, Da Costakade 45, 3521 VS, Utrecht, The Netherlands. Email: [email protected]
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Abstract

Background

Psychological interventions may be beneficial in bipolar disorder.

Aims

To evaluate the efficacy of psychological interventions for adults with bipolar disorder.

Method

A systematic review of randomised controlled trials was conducted. Outcomes were meta-analysed using RevMan and confidence assessed using the GRADE method.

Results

We included 55 trials with 6010 participants. Moderate-quality evidence associated individual psychological interventions with reduced relapses at post-treatment (risk ratio (RR) = 0.66, 95% CI 0.48–0.92) and follow-up (RR = 0.74, 95% CI 0.63–0.87), and collaborative care with a reduction in hospital admissions (RR =0.68, 95% CI 0.49–0.94). Low-quality evidence associated group interventions with fewer depression relapses at post-treatment and follow-up, and family psychoeducation with reduced symptoms of depression and mania.

Conclusions

There is evidence that psychological interventions are effective for people with bipolar disorder. Much of the evidence was of low or very low quality thereby limiting our conclusions. Further research should identify the most effective (and cost-effective) interventions for each phase of this disorder.

Type
Review Article
Copyright
Copyright © Royal College of Psychiatrists, 2016 

Bipolar disorder affects approximately 1.5% of the population, Reference Judd and Akiskal1Reference Merikangas, Akiskal, Angst, Greenberg, Hirschfeld and Petukhova5 and often takes a chronic course with recurrent manic, hypomanic, depressive and mixed episodes. Bipolar disorder is associated with poor psychosocial functioning, 6 a high economic burden, Reference Goetzel, Hawkins, Ozminkowski and Wang7Reference McCrone, Dhanasiri, Patel, Knapp and Lawton-Smith10 and early mortality. Reference Angst, Stassen, Clayton and Angst11 People with bipolar disorder are symptomatically ill almost half the time. Reference Judd, Akiskal, Schettler, Endicott, Maser and Solomon12 Although mania often results in hospital admission, Reference Gitlin, Swendsen, Heller and Hammen13 depressive symptoms and episodes account for most illness-related disability. Reference Judd and Akiskal1 In trying to manage the illness, people with bipolar disorder use pharmacological interventions, but 60% of people who commence out-patient maintenance treatment will have an episode within 2 years. Reference Gitlin, Swendsen, Heller and Hammen13 As an additional strategy, many people with bipolar disorder wish to use psychological interventions to improve symptoms and reduce relapse rates. Previous meta-analyses have evaluated evidence for specific psychological interventions such as cognitive–behavioural therapy (CBT), Reference Gregory14Reference Morriss, Faizal, Jones, Williamson, Bolton and McCarthy18 family interventions and psychoeducation, Reference Lam, Burbeck, Wright and Pilling17Reference Justo, Soares and Calil19 some during acute episodes and some during euthymic periods, with varying durations of intervention and follow-up. The number of relevant trials has tripled since the last meta-analysis and a new comprehensive review is needed to inform the selection of psychological interventions for each stage of bipolar disorder. We therefore conducted a systematic review and meta-analysis of psychological interventions for adults with bipolar disorder compared with control groups (treatment as usual, waiting list, attention control or an active intervention) on symptoms of depression and mania, response, relapse, discontinuation, hospital admission, quality of life and psychosocial functioning. This review informed the guidelines on the management of bipolar disorder issued by the National Institute for Health and Care Excellence (NICE) and The Netherlands Psychiatric Association and Trimbos Institute, 20,Reference Kupka, Goossens, van Bendegem, Daemen, Daggenvoorde and Daniels21 and is reported here following the Preferred Reporting Items for Systematic Reviews and Meta-analyses (PRISMA) guidelines. Reference Moher, Liberati, Tetzlaff and Altman22

Method

We included randomised controlled trials (RCTs) of all individual, group and family psychological interventions for adults (18 years and older). We also included service-level interventions with (elements of) psychological interventions such as collaborative care. Eligible comparison groups were control groups (treatment as usual, waiting list or attention control) or other active interventions. Trials were eligible if at least 66% of the sample had bipolar disorder or if disaggregated data were reported for participants with the disorder. For trials including people with other mental disorders (e.g. major depressive disorder or schizophrenia) we requested disaggregated data.

Search strategy

We searched CINAHL, EMBASE, Medline, PreMedline, PsycINFO, CDSR, DARE, HMIC and CENTRAL from inception to January 2014 using terms for bipolar disorder and randomised clinical trials (see online data supplement). Searches were not restricted by language. Authors M.O. and R.B. assessed the eligibility of studies for inclusion and discussed disagreements with a third author (E.M.-W.). We then searched the reference lists of the included studies, excluded studies and previous reviews. We contacted study authors and experts to request additional reports of trials. German language reports were translated by P.S.

Assessment of bias

Studies were assessed and rated independently by two authors (M.O., P.C.) using the Cochrane Collaboration risk of bias assessment tool. Reference Higgins and Green23 Disagreements were discussed with a third author (E.M.-W.) and resolved by consensus. Each study was rated for risk of bias due to sequence generation; allocation concealment; masking (blinding) of participants, assessors and providers; selective outcome reporting (e.g. reporting incomplete data or not all of the outcomes measured); and incomplete data. Risk of bias for each domain was rated as high (seriously weakens confidence in the results), low (unlikely to seriously alter the results) or unclear.

Data management

Patient outcomes included reduction of symptoms of depression and mania (response), relapse (any type, depression, mania or mixed), hospital admission, quality of life, suicide, psychosocial functioning and study discontinuation. We also extracted treatment format, number and length of sessions, method of recruitment, inclusion and exclusion criteria, age, gender, setting, study location and number of people with type 1 bipolar disorder. Study characteristics are reported in online Table DS1. Treatment in the acute phase typically aims at remission of the index episode, and if symptoms of the index episode reappear after a short period the term ‘relapse’ is often used. Long-term management aims to prevent future episodes, often termed ‘recurrence’. Reference Tohen, Frank, Bowden, Colom, Ghaemi and Yatham24 In this review it was impossible to distinguish between relapse and recurrence because studies included participants with acute symptoms as well as those who were euthymic without reporting disaggregated data; we have used the term ‘relapse’ for both outcomes.

Statistical analysis

Psychological treatments developed for bipolar disorder may differ in the underlying therapeutic tradition (e.g. CBT, interpersonal therapy, psychoeducation) and delivery, but they share non-specific treatment factors (e.g. contact with a caring professional, problem-solving, coping with stigma), Reference Miklowitz, Goodwin, Bauer and Geddes25 so their effects may be aggregated in meta-analysis to explore the range of potential effects. In this review, psychotherapies were aggregated by method of delivery, comprising individual treatment, group treatment, family therapy and collaborative care. Information about the effects of interventions with different therapeutic traditions were analysed in subgroups. For continuous outcomes we calculated the standardised mean difference (SMD), Hedges' g, for between-group differences. For dichotomous outcomes we calculated the risk ratio (RR) for events. All outcomes are reported with 95% confidence intervals. Overall effects were calculated using random effects models. Continuous effects were weighted by the inverse of variance; dichotomous effects were weighted using the Mantel–Haenszel method. Reference Higgins and Green23 Because time-to-event data were reported inconsistently, and often incompletely (e.g. as curves without associated events or statistics), we were unable to analyse these results; however, most studies were short and similar in duration, and hazard ratios would be similar to the relative risks reported here.

Missing data were noted for each outcome. When missing cases were not reported we contacted the authors. If continuous outcomes were reported for those completing the trial as well as controlling for missing data (for example, imputed using regression methods), we used the data that controlled for missing data. Statistical heterogeneity was assessed by visual inspection of forest plots, by χ2-tests (assessing the P-value) and by calculating the I 2 statistic, which describes the percentage of observed heterogeneity that would not be expected by chance. If P<0.10 and I 2 exceeded 50% we considered heterogeneity to be substantial. Meta-analyses of comparisons and subgroups were conducted using RevMan 5.2; 26 owing to the few studies per type of intervention a meta-regression would not be meaningful and was therefore not conducted. Confidence in the results was assessed by M.O. and E.M.-W. using the Grades of Recommendation, Assessment, Development and Evaluation (GRADE) method, Reference Guyatt, Oxman, Schunemann, Tugwell and Knottnerus27 which is a structured assessment of the quality of evidence attending to the following factors: risk of bias, inconsistency, indirectness, imprecision and publication bias.

Results

Of 13 641 potentially relevant citations and 4 from other sources we retrieved 59 papers, which were assessed for inclusion (Fig. 1). Of these, three were excluded because only a minority of participants had bipolar disorder and we could not obtain disaggregated data, Reference Jackson, McGorry, Killackey, Bendall, Allott and Dudgeon28Reference Staring, Van der Gaag, Koopmans, Selten, Van Beveren and Hengeveld30 and one was a trial of a measurement instrument. Reference Lieberman, Kelly, Douglas and Goodwin31 Fifty-five randomised controlled trials were therefore included: four were unpublished at the time of inclusion, Reference Bernhard32Reference Todd, Jones, Hart and Lobban35 two had been recently published, Reference Jones, Smith, Mulligan, Lobban, Law and Dunn34,Reference Todd, Jones, Hart and Lobban35 and fifty-one trials had been published between 1984 and 2014. Seven were not included in the meta-analysis because they did not report usable outcomes, which remained unavailable after we contacted the authors. Reference De Barros Pellegrinelli, de O Costa, Silval, Dias, Roso and Bandeira36Reference Eker and Harkin42

Fig. 1 Study selection.

Study characteristics

Table DS1 presents study characteristics for each trial. Included studies randomised 6010 participants, ranging from 19 to 441 per study. Studies were conducted in North America (k = 22), England and Ireland (k = 12), central Europe (k = 11), Australia (k = 5), Brazil (k = 3) and Iran (k = 2). Participants were recruited from out-patient (k = 23) or in-patient settings (k = 12), primary care practices (k = 2), community mental health teams (k = 2) or advertising combined with (self-)referral (k = 16). In 52 studies a diagnostic interview was used to establish the presence of bipolar disorder, in one study participants themselves reported whether they had bipolar disorder, another confirmed the diagnosis through a questionnaire, and one study reported only that bipolar disorder was an inclusion criterion. Across all trials the median of the mean ages of participants was 40 years (range 26–55); the median percentage who were female was 58% (range 9–77) and the median percentage of participants with type 1 bipolar disorder was 81% (range 42–100, apart from one study with 0%). Four studies included participants experiencing a depressive episode at baseline, Reference Miklowitz, Otto, Frank, Reilly-Harrington, Wisniewski and Kogan43Reference Schmitz, Averill, Sayre, McCleary, Moeller and Swann46 six studies included participants experiencing depressive and manic episodes, Reference Glick, Clarkin, Haas and Spencer37,Reference Clarkin, Carpenter, Hull, Wilner and Glick38,Reference Bauer, McBride, Williford, Glick, Kinosian and Altshuler47Reference Miller, Solomon, Ryan and Keitner50 and thirty-two studies included only euthymic participants. Twelve studies included a mix of euthymic and symptomatic cases at baseline, Reference Todd, Jones, Hart and Lobban35,Reference Fagiolini, Frank, Axelson, Birmaher, Cheng and Curet40,Reference Weiss, Griffin, Kolodziej, Greenfield, Najavits and Daley41,Reference Scott, Garland and Moorhead51Reference Proudfoot, Parker, Manicavasagar, Hadzi-Pavlovic, Whitton and Nicholas59 of which only two studies provided disaggregated data. Reference Todd, Jones, Hart and Lobban35,Reference Proudfoot, Parker, Manicavasagar, Hadzi-Pavlovic, Whitton and Nicholas59

Interventions

Trials included a variety of interventions (online Table DS2) and comparison conditions, and were grouped in nine comparisons. The first five were interventions compared with treatment as usual (individual treatment, group treatment, family therapy, collaborative care, integrated cognitive and interpersonal therapy). Four comparisons included interventions compared with other active interventions (head-to-head trials).

Outcomes

Online Table DS3 lists the continuous measures used in the trials categorised by outcome type. Dichotomous data were also reported. Response was determined through clinical interviews, such as the Structured Clinical Interview for DSM (SCID); cut-off points on diverse scales, e.g. when scored as symptomatic at baseline and at follow-up scoring below 11 on the Young Mania Rating Scale (YMRS) for mania response or below 6 on the Bech–Rafaelsen Melancholia Scale for depression response; or a percentage of reduction on a scale, e.g. 50% on the Hamilton Rating Scale for Depression (HRSD) for a depression response. In most trials participants had to score above a cut-off score for a certain time (e.g. 2 months) to be considered responsive. Relapse in most cases was determined with clinical interviews, for example with the SCID, the Schedule for Affective Disorders and Schizophrenia, and the Mini-International Neuropsychiatric Interview. Other trials established relapse in participants with a score above a cut-off point on a depression scale (e.g. above 12 on the HRSD) or a mania scale (e.g. above 20 on the YMRS); in some, a combination of the two scales was used to evaluate the presence of mixed episodes. Five studies assumed that a relapse had occurred based on chart reviews or hospital records.

Risk of bias

Each risk of bias item is presented as a percentage across all studies in online Fig. DS1 and for each study independently in online Fig. DS2. No trial was at high risk of bias for random sequence generation; however, the method of randomisation was not reported in 15 trials. Allocation concealment was unclear in 25 trials and low risk in 30 trials. Masking of participants and providers in trials of psychological interventions is impossible, so all were at high risk of bias per se. Nine trials used only self-report measures and 32 trials reported masked assessor-rated outcomes; these 41 trials were at low risk of bias for allocation concealment. However, eight studies did not have masked assessment and these were considered to be at high risk of bias. In six studies it was unclear whether assessors were unaware of assignment. For incomplete outcome data, 25 trials were at low risk of bias and 24 were at high risk of bias because of the number (more than 10%) of missing cases or because missing cases were excluded from the analyses. In six studies the handling of missing data was not described.

Reporting bias

Risk of reporting bias could not be assessed indirectly (e.g. using funnel plots or statistical methods) because there were few studies for most comparisons and the studies were of similar size. We used direct methods to assess risk of reporting bias by checking trial registrations and by contacting authors. There was a high risk of reporting bias in 22 trials, including seven studies that did not report any usable data. In addition to the outcomes we analysed, several trials also reported incomplete results that could not be included in the meta-analysis. Only 11 studies were prospectively registered, but 23 others were assessed to be at low risk of bias because authors provided missing data or confirmed that all outcomes were published.

Overall evidence quality

Using the GRADE method, Reference Guyatt, Oxman, Schunemann, Tugwell and Knottnerus27 many outcomes were downgraded because of risk of bias (e.g. inappropriate handling of missing data). Nearly all results were downgraded at least one level because of imprecision (the analyses included few participants or events). Results for relapse following individual interventions, hospital admission following collaborative care, and study discontinuation during interpersonal and social rhythm therapy (IPSRT) were of moderate quality. Most other evidence was of low or very low quality. Studies also reported controlled comparisons at follow-up, but most outcomes were of very low quality.

Quantitative data synthesis

Across nine comparisons, results of the meta-analyses suggest that psychological interventions may be associated with symptomatic improvement and with fewer relapses and hospital admissions. The majority of these low- to moderate-quality outcomes are summarised per comparison and presented in Tables 1 and 2 (post-treatment) and Tables 3 and 4 (follow-up) with reasons for downgrading; for all outcomes per comparison and subgroups we refer to online Tables DS4 and DS5.

Table 1 Outcomes at post-treatment assessment compared with treatment as usual

Outcome Number of studies (k)
and participants (n)
Effect size (95% CI) Heterogeneity
χ2 (P), I 2
Intervention
length, weeks
Quality
(GRADE)
Individual psychological intervention
    Depression symptoms k = 8, n = 683 SMD = −0.23 (−0.41 to −0.05) 8.55 (0.29), 18% 6–26 Low a,b
    Mania symptoms k = 3, n = 171 SMD = −0.05 (−0.35 to 0.25) 0.48 (0.79), 0% 26 Very low a,b,c
    Hospital admission k = 1, n = 28 RR = 0.14 (0.01 to 2.53) NA 6 Low b,c
    Relapse (any) k = 6, n = 365 RR = 0.66 (0.48 to 0.92) 2.50 (0.78), 0% 6–26 Moderate c
    Response k = 1, n = 33 RR = 0.71 (0.46 to 1.07) NA 26 Very low b,c
Group psychological intervention
    Depression symptoms k = 8, n = 423 SMD = −0.24 (−0.64 to 0.16) 25.65 (<0.001); 73% 8–52 Very low a,c,d
    Mania symptoms k = 6, n = 375 SMD = −0.08 (−0.33 to 0.16) 5.60 (0.35), 11% 8–52 Very low a,b,c
    Hospital admission k = 3, n = 205 RR = 0.45 (0.10 to 2.09) 3.94 (0.14), 49% 14–21 Low c
    Relapse (any) k = 2, n = 170 RR = 0.48 (0.22 to 1.04) 2.42 (0.12), 59% 21 Low c
    Relapse (depression) k = 2, n = 170 RR = 0.39 (0.19 to 0.78) 0.45 (0.50), 0% 21 Low c
    Relapse (mania) k = 2, n = 170 RR = 0.48 (0.28 to 0.82) 0.80 (0.37), 0% 21 Low c
Family psychoeducation
    Depression symptoms k = 1, n = 43 SMD = −0.73 (−1.35 to −0.10) NA 14 Low b,c
    Mania symptoms k = 1, n = 43 SMD = −0.66 (−1.28 to −0.04) NA 14 Low b,c
Collaborative care
    Depression symptoms k = 2, n = 123 SMD = −0.22 (−0.63 to 0.19) 1.32 (0.25), 24% 26–30 Low a,b,c
    Mania symptoms k = 2, n = 123 SMD = −0.07 (−0.47 to 0.32) 1.24 (0.27), 19% 26–30 Low a,b,c
    Hospital admission k = 3, n = 572 RR = 0.68 (0.49 to 0.94) 0.13 (0.72), 0% 52–130 Moderate c
    Relapse (any) k = 1, n = 414 RR = 0.99 (0.84 to 1.17) NA 52 Low b,c
Integrated cognitive and
interpersonal therapy
    Depression symptoms k = 1, n = 193 SMD = −0.64 (−1.19 to −0.09) NA 20 Low c
    Mania symptoms k = 1, n = 193 SMD = −0.10 (−0.30 to 0.10) NA 20 Low b,c

NA, not applicable; RR, risk ratio; SMD, standardised mean difference.

a. Risk of bias.

b. Publication/reporting bias.

c. Imprecision.

d. Inconsistency.

Table 2 Outcomes at post-treatment assessment compared with active controls

Outcome Number of studies (k)
and participants (n)
Effect size (95% CI) Heterogeneity
χ2(P), I 2
Intervention
length, weeks
Quality
(GRADE)
Family-focused therapy
    Depression symptoms k = 1, n = 79 SMD = −0.40 (−0.80 to 0.00) NA 39 Low a,b
    Mania symptoms k = 1, n = 79 SMD = 0.00 (−0.40 to 0.40) NA 39 Low a,b
    Relapse (any) k = 1, n = 53 RR = 0.89 (0.52 to 1.54) NA 39 Low b
    Hospital admission k = 1, n = 53 RR = 0.71 (0.33 to 1.52) NA 39 Low b
CBT
    Depression symptoms k = 1, n = 76 SMD = 0.41 (0.12 to 0.70) NA 39 Low b,c
    Mania symptoms k = 1, n = 76 SMD = 0.20 (−0.11 to 0.51) NA 39 Low b,c
    Relapse (any) k = 1, n = 76 RR = 0.60 (0.34 to 1.05) NA 39 Low b,c
IPSRT
    Depression symptoms k = 1, n = 25 SMD = 0.44 (−0.34 to 1.22) NA 12 Very low a,b
    Relapse (any) k = 1, n = 41 RR = 1.55 (0.63 to 3.84) NA 123 Very low a,b
    Response (any) k = 1, n = 25 RR = 0.98 (0.60 to 1.60) NA 12 Very low a,b
Integrated group therapy
    Depression symptoms k = 1, n = 61 SMD = −0.35 (−0.85 to 0.16) NA 12 Very low b,c,d
    Mania symptoms k = 1, n = 61 SMD = −0.17 (−0.68 to 0.33) NA 12 Very low b,c,d

CBT, cognitive−behavioural therapy; IPSRT, Interpersonal and social rhythm therapy; NA, not applicable; RR, risk ratio; SMD, standardised mean difference.

a. Risk of bias.

b. Imprecision.

c. Publication/reporting bias.

d. Indirectness.

Table 3 Outcomes at follow-up assessment compared with treatment as usual

Outcome Number of studies (k)
and participants (n)
Effect size (95% CI) Heterogeneity
χ2 (P value), I 2
Follow-up
period, weeks
Quality
(GRADE)
Individual psychological intervention
    Depression symptoms k = 5, n = 534 SMD = −0.21 (−0.43 to 0.01) 6.85 (0.23), 27% 26–52 Low a,b
    Mania symptoms k = 4, n = 164 SMD = −0.38 (−0.71 to −0.04) 3.40 (0.33), 12% 52 Very low a,b,c
    Hospital admission k = 3, n = 194 RR = 0.63 (0.38 to 1.02) 2.19 (0.35), 9% 32–52 Low b
    Relapse (any) k = 8, n = 532 RR = 0.74 (0.63 to 0.87) 5.78 (0.57), 0% 32–78 Moderate b
    Response k = 1, n = 52 RR = 0.46 (0.21 to 1.02) NA 52 Very low a,b,c
Group psychological intervention
    Depression symptoms k = 3, n = 219 SMD = 0.22 (−0.05 to 0.49) 0.95 (0.62), 0% 52–61 Very low a,b,c
    Mania symptoms k = 3, n = 219 SMD = 0.16 (−0.10 to 0.43) 0.76 (0.68), 0% 52–61 Very low a,b,c
    Hospital admission k = 3, n = 200 RR = 0.48 (0.16 to 1.45) 2.30 (0.13), 56% 78–124 Very low b,c,d
    Relapse (any) k = 5, n = 395 RR = 0.86 (0.61 to 1.20) 21.46 (0.0003), 81% 52–124 Very low b,c,d
    Relapse (depression) k = 5, n = 333 RR = 0.62 (0.45 to 0.88) 7.12 (0.13), 44% 52–124 Low b,d
    Relapse (mixed episode) k = 4, n = 274 RR = 0.48 (0.30 to 0.77) 2.38 (0.50), 0% 52–124 Low b,d
Family psychoeducation
    Depression symptoms k = 1, n = 53 SMD = −0.15 (−0.69 to 0.39) NA 60 Very low a,b,c
    Mania symptoms k = 1, n = 53 SMD = −0.78 (−1.34 to −0.22) NA 60 Very low a,b,c
    Hospital admission k = 1, n = 57 RR = 0.05 (0.00 to 0.83) NA 60 Low b
    Relapse (any) k = 3, n = 228 RR = 0.52 (0.32 to 0.84) 2.61 (0.27), 23% 52–65 Low b,c
    Relapse (depression) k = 1, n = 113 RR = 0.73 (0.44 to 1.21) NA 65 Low b,c
    Relapse (mania) k = 1, n = 113 RR = 0.35 (0.15 to 0.85) NA 65 Low b
    Response k = 1, n = 59 RR = 0.67 (0.34 to 1.32) NA 121 Very low a,b,c
Collaborative care
    Depression symptoms k = 1, n = 65 SMD = −0.56 (−1.06 to −0.07) NA 52 Very low a,b
    Mania symptoms k = 1, n = 65 SMD = −0.10 (−0.59 to 0.38) NA 52 Very low a,b

NA, not applicable; RR, risk ratio; SMD, standardised mean difference.

a. Risk of bias.

b. Imprecision.

c. Publication/reporting bias.

d. Inconsistency.

Table 4 Outcomes at follow-up assessment compared with active controls

Outcome Number of studies (k)
and participants (n)
Effect size (95% CI) Heterogeneity Follow-up period
(weeks)
Quality
(GRADE)
Family-focused therapy
    Depression symptoms k = 1, n = 79 SMD = −0.10 (−0.56 to 0.36) NA 52 Very low a,b,c
    Mania symptoms k = 1, n = 79 SMD = −0.30 (−0.68 to 0.08) NA 52 Very low a,b
    Relapse (any) k = 1, n = 101 RR = 0.67 (0.34 to 1.30) NA 52 Very low a,b,c
    Response (any) k = 1, n = 62 RR = 1.15 (0.68 to 1.94) NA 121 Very low a,b,c
    Hospital admission k = 1, n = 38 RR = 0.24 (0.08 to 0.74) NA 104 Very low a,b
CBT
    Depression symptoms k = 1, n = 76 SMD = 0.49 (0.04 to 0.94) NA 143 Very low b,c
    Relapse (any) k = 1, n = 76 RR = 1.13 (0.81 to 1.58) NA 143 Very low b,c
IPSRT
    Response (depression) k = 1, n = 192 RR = 0.73 (0.50 to 1.07) NA 52 Very low a,b,c
Integrated group therapy
(v. group drug counselling)
    Depression symptoms k = 1, n = 61 SMD = 0.11 (−0.39 to 0.61) NA 26 Very low b,c,d
    Mania symptoms k = 1, n = 61 SMD = −0.53 (−1.05 to −0.02) NA 26 Very low b,c,d

CBT, cognitive-behavioural therapy; IPSRT, interpersonal and social rhythm therapy; NA, not applicable; RR, risk ratio; SMD, standardised mean difference.

a. Risk of bias.

b. Imprecision.

c. Publication/reporting bias.

d. Indirectness.

Individual psychological interventions

The search identified 15 RCTs (n = 1580) of face-to-face and interactive online psychoeducation, Reference Todd, Jones, Hart and Lobban35,Reference Proudfoot, Parker, Manicavasagar, Hadzi-Pavlovic, Whitton and Nicholas59Reference Perry, Tarrier, Morriss, McCarthy and Limb64 cognitive therapy or CBT, Reference Jones, Smith, Mulligan, Lobban, Law and Dunn34,Reference Miklowitz, Otto, Frank, Reilly-Harrington, Wisniewski and Kogan43,Reference Scott, Garland and Moorhead51,Reference Scott, Paykel, Morriss, Bentall, Kinderman and Johnson52,Reference Ball, Mitchell, Corry, Skillecorn, Smith and Malhi65Reference Lam, Watkins, Hayward, Bright, Wright and Kerr68 and medication adherence therapy. Reference Cochran69 Interventions were compared with treatment as usual. Eleven trials enrolled participants who were euthymic at baseline and four trials enrolled a mix of participants experiencing an acute episode of mania or depression and those who were euthymic. Reference Todd, Jones, Hart and Lobban35,Reference Scott, Garland and Moorhead51,Reference Scott, Paykel, Morriss, Bentall, Kinderman and Johnson52,Reference Proudfoot, Parker, Manicavasagar, Hadzi-Pavlovic, Whitton and Nicholas59 Seven trials (n = 637) reported low-quality evidence that individual psychological interventions were associated with a small reduction in symptoms of depression post-treatment. Reference Todd, Jones, Hart and Lobban35,Reference Scott, Garland and Moorhead51,Reference Proudfoot, Parker, Manicavasagar, Hadzi-Pavlovic, Whitton and Nicholas59,Reference Ball, Mitchell, Corry, Skillecorn, Smith and Malhi65Reference Lam, Watkins, Hayward, Bright, Wright and Kerr68 Six trials (n = 365) reported moderate-quality evidence that such interventions reduced the risk of relapse post-treatment. Reference Scott, Garland and Moorhead51,Reference Perry, Tarrier, Morriss, McCarthy and Limb64Reference Zaretsky, Lancee, Miller, Harris and Parikh66,Reference Lam, Watkins, Hayward, Bright, Wright and Kerr68,Reference Cochran69 However, three trials found no difference in effect on symptoms of mania. Reference Ball, Mitchell, Corry, Skillecorn, Smith and Malhi65,Reference Lam, Bright, Jones, Hayward, Schuck and Chisholm67,Reference Lam, Watkins, Hayward, Bright, Wright and Kerr68 One trial with few events was inconclusive regarding the risk of hospital admission. Reference Cochran69 Eight trials (n = 532) reported moderate-quality evidence that individual psychological interventions were associated with a reduction in relapse at follow-up. Reference Proudfoot, Parker, Manicavasagar, Hadzi-Pavlovic, Whitton and Nicholas59,Reference Lobban, Taylor, Chandler, Tyler, Kinderman and Kolamunnage-Dona63Reference Zaretsky, Lancee, Miller, Harris and Parikh66,Reference Lam, Watkins, Hayward, Bright, Wright and Kerr68,Reference Cochran69 There was low-quality evidence from three trials (n = 214) that individual psychological interventions might be associated with a reduction in admissions to hospital, but the confidence interval was compatible with both a reduction and an increase in the effect. Reference Jones, Smith, Mulligan, Lobban, Law and Dunn34,Reference Perry, Tarrier, Morriss, McCarthy and Limb64,Reference Lam, Watkins, Hayward, Bright, Wright and Kerr68,Reference Cochran69

Group psychological interventions

The search identified 12 RCTs (n = 914) of group interventions including psychoeducation, Reference Sajatovic, Davies, Ganocy, Bauer, Cassidy and Hays49,Reference Colom, Vieta, Reinares, Martinez-Aran, Torrent and Goikolea70Reference Castle, White, Chamberlain, Berk, Berk and Lauder73 CBT, Reference Bernhard32,Reference Gomes, Abreu, Brietzke, Caetano, Kleinman and Nery74,Reference Costa, Cheniaux, Range, Versiani and Nardi75 mindfulness therapy, Reference Perich, Manicavasagar, Mitchell, Ball and Hadzi-Pavlovic76,Reference Williams, Alatiq, Crane, Barnhofer, Fennell and Duggan77 social cognition and interaction training, Reference Lahera, Benito, Montes, Fernandez-Liria, Olbert and Penn78 and dialectical behaviour therapy. Reference Van Dijk, Jeffrey and Katz44 Interventions were compared with treatment as usual except for two studies that compared psychoeducation with attention control. Reference Colom, Vieta, Reinares, Martinez-Aran, Torrent and Goikolea70,Reference Colom, Vieta, Martinez-Aran, Reinares, Goikolea and Benabarre71 In ten trials participants were euthymic at baseline, Reference Bernhard32,Reference Colom, Vieta, Reinares, Martinez-Aran, Torrent and Goikolea70Reference Lahera, Benito, Montes, Fernandez-Liria, Olbert and Penn78 one study included participants experiencing an acute episode of mania or depression, Reference Sajatovic, Davies, Ganocy, Bauer, Cassidy and Hays49 and another included people with current depression. Eight trials (n = 423) reported very low-quality evidence of a small effect on depression outcomes at post-treatment favouring group interventions. Reference Bernhard32,Reference Van Dijk, Jeffrey and Katz44,Reference Sajatovic, Davies, Ganocy, Bauer, Cassidy and Hays49,Reference Castle, White, Chamberlain, Berk, Berk and Lauder73,Reference Costa, Cheniaux, Range, Versiani and Nardi75Reference Lahera, Benito, Montes, Fernandez-Liria, Olbert and Penn78 Six trials (n = 375) found no effect on mania symptoms. Reference Bernhard32,Reference Sajatovic, Davies, Ganocy, Bauer, Cassidy and Hays49,Reference Castle, White, Chamberlain, Berk, Berk and Lauder73,Reference Costa, Cheniaux, Range, Versiani and Nardi75,Reference Perich, Manicavasagar, Mitchell, Ball and Hadzi-Pavlovic76,Reference Lahera, Benito, Montes, Fernandez-Liria, Olbert and Penn78 Furthermore, the two studies comparing psychoeducation with attention control (n = 170) found low-quality evidence for a reduction in any type of relapse, but the confidence interval was compatible with both a reduction and an increase in the effect. Reference Colom, Vieta, Reinares, Martinez-Aran, Torrent and Goikolea70,Reference Colom, Vieta, Martinez-Aran, Reinares, Goikolea and Benabarre71 The two studies did find evidence for a reduction in depressive and manic relapses. Also, the two studies together with a trial comparing CBT with treatment as usual (n = 205) reported low-quality evidence that group interventions might be associated with a reduction in hospital admissions, but the confidence interval was compatible with both a reduction and increase in the effect. Reference Colom, Vieta, Reinares, Martinez-Aran, Torrent and Goikolea70,Reference Colom, Vieta, Martinez-Aran, Reinares, Goikolea and Benabarre71,Reference Costa, Cheniaux, Range, Versiani and Nardi75 Results at follow-up in five studies (n = 333) reported low-quality evidence of a reduction in depressive relapses. Reference Colom, Vieta, Reinares, Martinez-Aran, Torrent and Goikolea70,Reference Colom, Vieta, Martinez-Aran, Reinares, Goikolea and Benabarre71,Reference Castle, White, Chamberlain, Berk, Berk and Lauder73,Reference Gomes, Abreu, Brietzke, Caetano, Kleinman and Nery74,Reference Perich, Manicavasagar, Mitchell, Ball and Hadzi-Pavlovic76 Also, four studies (n = 274) reported a reduction of relapses into mixed episodes. Reference Colom, Vieta, Reinares, Martinez-Aran, Torrent and Goikolea70,Reference Colom, Vieta, Martinez-Aran, Reinares, Goikolea and Benabarre71,Reference Castle, White, Chamberlain, Berk, Berk and Lauder73,Reference Gomes, Abreu, Brietzke, Caetano, Kleinman and Nery74 However, effects on depressive symptoms, Reference Bernhard32,Reference Castle, White, Chamberlain, Berk, Berk and Lauder73,Reference Perich, Manicavasagar, Mitchell, Ball and Hadzi-Pavlovic76 and on hospital admission, Reference Colom, Vieta, Reinares, Martinez-Aran, Torrent and Goikolea70,Reference Colom, Vieta, Martinez-Aran, Reinares, Goikolea and Benabarre71 were inconclusive.

Family psychoeducation

The search identified seven RCTs (n = 409) of family psychoeducation. Two trials included psychoeducation for participants and their family members, Reference Miller, Solomon, Ryan and Keitner50,Reference D'Souza, Piskulic and Sundram79 and in five trials only family members received psychoeducation. Reference Perlick, Miklowitz, Lopez, Chou, Kalvin and Adzhiashvili57,Reference Bordbar80Reference Van Gent and Zwart83 Interventions were compared with treatment as usual. Five trials enrolled participants who were euthymic at baseline, one trial enrolled participants who were experiencing acute episode of mania or depression or were euthymic at baseline, Reference Perlick, Miklowitz, Lopez, Chou, Kalvin and Adzhiashvili57 and another included only participants who were in an acute episode of mania or depression. Reference Miller, Solomon, Ryan and Keitner50 One trial (n = 43) found low-quality evidence of medium effect in reduction of depressive and manic symptoms favouring family psychoeducation at post-treatment. Reference Perlick, Miklowitz, Lopez, Chou, Kalvin and Adzhiashvili57 At follow-up, three trials (n = 228) reported low-quality evidence of a reduction in relapse. Reference D'Souza, Piskulic and Sundram79,Reference Bordbar80,Reference Reinares, Colom, Sanchez-Moreno, Torrent, Martinez-Aran and Comes82 One trial (n = 113) reported a reduction in mania relapses. Reference Reinares, Colom, Sanchez-Moreno, Torrent, Martinez-Aran and Comes82 One study (n = 57) reported a very large effect on reduction of the number of hospital admissions, but there were only nine events in the study. Reference Bordbar80

Collaborative care

The search identified five RCTs (n = 1058) of collaborative care compared with treatment as usual. Two started with euthymic participants, Reference Bauer, McBride, Williford, Glick, Kinosian and Altshuler47,Reference Kessing, Hansen, Hvenegaard, Christensen, Dam and Gluud84 and three recruited participants experiencing an episode. Reference Kilbourne, Post, Nossek, Drill, Cooley and Bauer53Reference Simon, Ludman, Unutzer, Bauer, Operskalski and Rutter55 In comparison with treatment as usual, two trials (n = 123) reported low-quality evidence of a small effect favouring collaborative care on depressive symptoms and no effect on mania symptoms at post-treatment, but the effect estimates were imprecise. Reference Kilbourne, Post, Nossek, Drill, Cooley and Bauer53,Reference Kilbourne, Goodrich, Lai, Clogston, Waxmonsky and Bauer54 One trial (n = 234) found no difference in reduction of relapse. Reference Simon, Ludman, Unutzer, Bauer, Operskalski and Rutter55 However, two trials (n = 572) reported moderate-quality evidence suggesting collaborative care reduced the number of admissions to hospital at post-treatment. Reference Simon, Ludman, Unutzer, Bauer, Operskalski and Rutter55,Reference Kessing, Hansen, Hvenegaard, Christensen, Dam and Gluud84

Integrated cognitive and interpersonal therapy

The search identified one RCT (n = 212) with a group of participants who were randomised to integrated cognitive and interpersonal therapy or treatment as usual. Reference Schwannauer33 Participants in the intervention group could choose to follow individual or group integrated cognitive and interpersonal therapy. Outcome data were presented for the whole intervention group v. treatment as usual. The trial reported low-quality evidence at post-treatment of a medium effect favouring the intervention on depressive symptoms and no effect on mania symptoms.

Family-focused therapy

The search identified four RCTs (n = 357) on family-focused therapy compared with psychoeducation, collaborative therapy or treatment as usual. Participants were euthymic, Reference Rea, Tompson, Miklowitz, Goldstein, Hwang and Mintz85 in an episode or euthymic, Reference Miklowitz, Simoneau, George, Richards, Kalbag and Sachs-Ericsson56 only depressed, Reference Miklowitz, Otto, Frank, Reilly-Harrington, Wisniewski and Kogan43 or in any type of episode. Reference Miller, Solomon, Ryan and Keitner50 Post-treatment data were of low quality. One study (n = 79) found no effect of family-focused therapy compared with treatment as usual on manic symptoms and a medium effect on depressive symptoms (although the confidence interval was also compatible with no effect). Reference Miklowitz, Simoneau, George, Richards, Kalbag and Sachs-Ericsson56 A small effect was found on relapse in a study (n = 53) comparing family-focused therapy with psychoeducation, but the confidence interval was compatible with both a reduction and increase in the effect. Reference Rea, Tompson, Miklowitz, Goldstein, Hwang and Mintz85 The confidence in the follow-up results were very low.

CBT v. supportive therapy

The search identified one RCT (n = 76) comparing individual CBT with supportive therapy; the quality of the evidence was low. Reference Meyer and Hautzinger86 At post-treatment a medium effect was found of supportive therapy on depressive symptoms. Also, a small effect was found of supportive therapy on mania symptoms, but CBT reduced the risk of relapse. However, the confidence intervals for the mania and relapse outcomes were compatible with either a reduction or an increase in the true effect.

IPSRT v. active control

The search identified three RCTs (n = 299) of IPSRT compared with quetiapine therapy, intensive clinical management or treatment as usual. Participants in all three trials were in a depressive episode at baseline. Reference Miklowitz, Otto, Frank, Reilly-Harrington, Wisniewski and Kogan43,Reference Swartz, Frank and Cheng45,Reference Frank, Swartz, Mallinger, Thase, Weaver and Kupfer48 One study reported a small effect of quetiapine compared with IPSRT on symptoms of depression at post-treatment, but the confidence interval was compatible with both a reduction and an increase in the effect. Reference Swartz, Frank and Cheng45 A 123-week trial (n = 41) found effects that were in favour of intensive clinical management compared with IPSRT on a reduction in relapses, but the confidence interval was compatible with both a reduction and increase in the effect. Reference Frank, Swartz, Mallinger, Thase, Weaver and Kupfer48 All results were of very low quality.

Integrated group therapy v. group counselling

The search identified one RCT (n = 61) including people with both bipolar disorder and a comorbid substance use disorder who were either euthymic or acutely depressed at baseline. It compared integrated group therapy with group drug counselling. Reference Weiss, Griffin, Jaffee, Bender, Graff and Gallop58 At post-treatment there was very low-quality evidence of a small effect on depressive and mania symptoms, but confidence intervals were compatible with either a reduction or an increase in symptoms. There was very low-quality evidence of a moderate effect on mania symptoms at follow-up.

Discussion

This is the first comprehensive systematic review and meta-analysis of the full range of psychological interventions that have been evaluated for the treatment of people with bipolar disorder. The evidence suggests that some, but not all, psychological treatments reduce relapse rates and hospital admissions, and they may improve depressive symptoms. In particular, we found moderate-quality evidence that individual psychological interventions were associated with a 34% reduction in the risk of relapse at the end of treatment, sustained at 26% reduction in risk at follow-up. There was also low-quality evidence that individual psychological treatment reduced symptoms of depression, but the reduction may be small. Although the evidence was not as robust, group psychoeducation also showed beneficial effects for reducing risk of relapse, and perhaps for some symptomatic improvement. We also found a substantial reduction in relapse rates for people who received family psychoeducation, although the quality of the evidence for this finding was also low. In addition, our analysis of collaborative care showed moderate-quality evidence for a 32% reduction in admissions to hospital. We found little impact on symptoms of mania, quality of life, psychological functioning or other treatment outcomes, although in most cases the underpinning evidence was very low quality and therefore inconclusive. Moreover, we found no evidence of benefit for other types of psychological interventions such as IPSRT. These results confirm and extend the findings of previous, smaller and narrower reviews of specific psychological treatments for bipolar disorder, Reference Gregory14,Reference Gregory15,Reference Lam, Burbeck, Wright and Pilling17Reference Justo, Soares and Calil19 and suggest that as the size of the evidence base has increased, the beneficial effects of some psychological interventions have become more apparent. Previous reviews included 10 or fewer trials and fewer than 1000 participants; in contrast, this review analysed 55 trials including data from 6010 participants. Overall, on the basis of this review, we would recommend the use of psychological interventions in the treatment of people with bipolar disorder to reduce relapse rates and to reduce depressive symptoms. Although there is insufficient evidence to recommend one specific treatment over the others, the best evidence is for individual structured psychological interventions, and there is weaker – but still promising – evidence for group and family interventions and for collaborative care.

Our results are consistent with other recent reviews showing that psychological approaches may reduce transition to psychosis, including for people with bipolar disorder, Reference Stafford, Jackson, Mayo-Wilson, Morrison and Kendall87 and that family psychological interventions reduce relapse rates in both early and established schizophrenia. Reference Bird, Premkumar, Kendall, Whittington, Mitchell and Kuipers88,Reference Pharoah, Mari, Rathbone and Wong89 Additionally, psychological interventions are the most effective interventions for people with major depression. 90 The effectiveness of psychological interventions in these closely related conditions is promising for the treatment of bipolar disorder, and effective psychological strategies for people with bipolar disorder could be clinically and economically important.

Strengths and limitations

Participants in our review were similar to those in ‘real world’ practice in several ways. For example, the proportions of men and women and of people with type 1 and type 2 bipolar disorder in the included studies were comparable with epidemiological samples. Reference Merikangas, Jin, He, Kessler, Lee and Sampson4,Reference Merikangas, Akiskal, Angst, Greenberg, Hirschfeld and Petukhova5 Most studies recruited participants from out-patient or community settings, where these psychological interventions could be carried out. Few studies were undertaken outside Europe and North America, and the effects of psychological interventions might differ in places with different healthcare systems and different levels of community support.

Although the evidence provides support for the use of psychological interventions in the treatment of people with bipolar disorder, our meta-analysis includes a number of trials with participants in different phases: sometimes euthymic, sometimes depressive, sometimes a mixture of both and sometimes a mixture of depressive and manic. Most of the trials with participants in different phases of the illness did not report disaggregated data for people in the euthymic and the depressive phases, or for people with depression and people who were experiencing mania at the start of the trial. This is likely to lead to underestimating the effects on symptoms; people who are euthymic are without symptoms, thereby diluting the mean impact of psychological intervention on depressive and manic symptoms in these mixed populations. Similarly, where data on relapse included trials in which participants were in a manic phase, this may have led to underestimating the impact on relapse rates; people who are manic are often difficult to engage in any psychological treatment, thereby diluting the effects of psychological therapy on relapse rates for those who are euthymic or depressed. In addition, the lack of disaggregated data on outcomes for people with mania makes it impossible to identify any possible harm or benefit of psychological therapies for this group. Finally, a limitation of including participants at different phases of illness is that we are not comparing like with like. Although statistical heterogeneity was minimal, summary effects should be interpreted with some caution in light of the clinical differences among participants across trials.

A further potential limitation of this analysis is the quality of the data. In some comparisons evidence for different outcomes was not consistent. For example, a psychological intervention might appear to reduce symptoms but have no effect on treatment response. Some trials were not registered, and there was evidence of selective reporting of outcomes, which could lead us to overestimate the benefits of psychological treatments in much the same way as selective publishing of drug studies has led to overestimating their true effectiveness. Reference Whittington, Kendall, Fonagy, Cottrell, Cotgrove and Boddington91 Using GRADE to evaluate the quality of evidence underpinning each outcome, we incorporated these limitations in our evaluation of the results and restricted our conclusions to outcomes based on low- and moderate-quality evidence; importantly, evidence for key outcomes – relapse rates and symptoms – was better than evidence for most secondary outcomes. Almost all reviewed psychotherapies were given as adjuncts to pharmacotherapy (monotherapy or combinations of various medications), and they were delivered in a variety of different treatment modalities and service settings. Co-interventions and details about service settings were incompletely described in many trials and could contribute to unobserved heterogeneity. In addition, although statistical heterogeneity was minimal and there is a consensus that psychological treatments for bipolar disorder share many common elements and strategies (e.g. coping strategies for mood changes), they nevertheless differ in complexity, the skill and training required, content and duration, even when they bear the same name (e.g. CBT or psychoeducation). These problems may be addressed in further research in this rapidly expanding field.

Implications for practice

On the basis of this review, individual psychological interventions should be offered (in addition to whatever pharmacological interventions people already receive) with the aim of reducing relapse rates in people with bipolar disorder who are depressed or euthymic and for improving symptoms in people with depression. Although the evidence was limited for many outcomes in this review, there is strong evidence of the effectiveness of psychological interventions for major depression, 90 adding some support to the view that bipolar depression may be treated effectively with psychological treatment. It is also worth considering family psychological interventions, not just because the trials show some promise, but also because the benefits of family interventions for psychosis (including schizophrenia and bipolar disorder) suggest that relapse rates can be reduced in both early and later psychosis. Reference Bird, Premkumar, Kendall, Whittington, Mitchell and Kuipers88,Reference Pharoah, Mari, Rathbone and Wong89 It seems likely, on the basis of this broader evidence as well as the evidence in this review, that family interventions could be beneficial for people with bipolar disorder and should be made available routinely to help reduce relapse rates. People with bipolar disorder may also benefit from group psychoeducation and from collaborative care. It is important to keep in mind that people with bipolar disorder are often only partially adherent to pharmacotherapy, which may contribute to the recurrence of symptoms and to relapse. Reference Montes, Maurino, de Dios and Medina92 Group or family psychoeducational interventions and collaborative care could help these people develop skills related to medication use, stress management, recognising early symptoms and coping with symptoms. Such skills could reduce risk of relapse and improve response.

Worldwide there are few people with training and experience in delivering specific psychological interventions for individuals with bipolar depression. However, there are many therapists providing evidence-based treatments for major depressive disorder in primary care. Because the rationale and process of delivering CBT are similar for the two forms of depression, it might be sensible for therapists in primary care to provide individual CBT for people with bipolar depression if they have experience in managing people with bipolar disorder or are supervised by clinicians with that experience. Many of the skills learned through CBT for depression could also help people with bipolar disorder who are euthymic to avoid relapse. In the long term service providers and educational institutions should endeavour to increase the number of therapists trained specifically in the treatment of bipolar depression and the prevention of bipolar relapse.

Directions for future research

Although this review supports the use of individual psychological intervention for relapse reduction and symptom improvement, we do not have sufficient information to know the impact on functioning and quality of life, both key concerns for people with bipolar disorder. Further research should include sufficiently large populations to address these critical outcomes. The same is true for family interventions. Longer follow-up is needed to establish how well the effects of all of these interventions endure. Further research is needed to understand how psychological interventions compare with each other at each phase of the illness. Future studies could be improved by reporting results separately for people in different phases of the disorder (who are at risk of different outcomes), better describing treatments and comparators, pre-registering trials, completely and transparently reporting all outcomes measured, and standardising the use of outcome measurement. Moreover, including an economic (cost–benefit) analysis in trials, especially when there is a possible reduction in relapse, would add greatly to our understanding of what we can do to help people with bipolar disorder; comparing the cost-effectiveness of individual and group approaches would address common concerns about method of delivery.

There is little, if any, evidence about which psychological treatments could be beneficial for people with more severe forms of bipolar disorder. More research could address the treatment of people who have frequent episodes, people who are most severely functionally disabled, and people with persisting inter-episode symptoms. People who are admitted to hospital because of mania symptoms usually receive pharmacotherapy, and we identified no trial that examined whether a psychological intervention would be beneficial during this phase of the illness. Following this review, further research can be developed on the basis of much stronger evidence than was available only a few years ago. It is clear that psychological interventions now have an important place alongside medication in the treatment of people with bipolar disorder, and future research will elucidate the most effective ways to deliver psychotherapy.

Funding

The National Collaborating Centre for Mental Health (NCCMH) receives £1.4 million per year from the National Institute for Health and Care Excellence (NICE) to develop guidelines for the treatment of mental health problems. Trimbos Institute received €242 562 from the Netherlands Psychiatric Association (NVvP) to develop the Guideline for the Diagnosis and Treatment of Bipolar Disorder. The views of the authors expressed in this paper do not necessarily reflect the views of NICE, NCCMH, the Royal College of Psychiatrists, Trimbos Institute or NVvP.

Acknowledgements

We acknowledge the Dutch and English Guideline Development Groups for their assistance in the review process.

Footnotes

Declaration of interest

R.M. and S.H.J. are authors of three included studies.

References

1 Judd, LL, Akiskal, HS. The prevalence and disability of bipolar spectrum disorders in the US population: re-analysis of the ECA database taking into account subthreshold cases. J Affect Disord 2003; 73: 123–31.CrossRefGoogle ScholarPubMed
2 Ten Have, M, Vollebergh, W, Bijl, R, Nolen, WA. Bipolar disorder in the general population in The Netherlands (prevalence, consequences and care utilisation): results from The Netherlands Mental Health Survey and Incidence Study (NEMESIS). J Affect Disord 2002; 68: 203–13.CrossRefGoogle ScholarPubMed
3 Grant, BF, Stinson, FS, Hasin, DS, Dawson, DA, Chou, SP, Ruan, WJ, et al. Prevalence, correlates, and comorbidity of bipolar I disorder and axis I and II disorders: results from the National Epidemiologic Survey on Alcohol and Related Conditions. J Clin Psychiatry 2005; 66: 1205–15.Google ScholarPubMed
4 Merikangas, KR, Jin, R, He, JP, Kessler, RC, Lee, S, Sampson, NA, et al. Prevalence and correlates of bipolar spectrum disorder in the world mental health survey initiative. Arch Gen Psychiatry 2011; 68: 241–51.Google Scholar
5 Merikangas, KR, Akiskal, HS, Angst, J, Greenberg, PE, Hirschfeld, RM, Petukhova, M, et al. Lifetime and 12-month prevalence of bipolar spectrum disorder in the National Comorbidity Survey replication. Arch Gen Psychiatry 2007; 64: 543–52.Google Scholar
6 American Psychiatric Association. Practice guideline for the treatment of patients with bipolar disorder (revision). In Am J Psychiatry 2002; 159 (suppl 4): 150.Google Scholar
7 Goetzel, RZ, Hawkins, K, Ozminkowski, RJ, Wang, S. The health and productivity cost burden of the ‘top 10’ physical and mental health conditions affecting six large U.S. employers in 1999. J Occup Environ Med 2003; 45: 514.Google Scholar
8 Arts, B, Jabben, N, Krabbendam, L, van Os, J. Meta-analyses of cognitive functioning in euthymic bipolar patients and their first-degree relatives. Psychol Med 2008; 38: 771–85.Google Scholar
9 Dilsaver, SC. An estimate of the minimum economic burden of bipolar I and II disorders in the United States: 2009. J Affect Disord 2011; 129: 7983.Google Scholar
10 McCrone, P, Dhanasiri, S, Patel, A, Knapp, M, Lawton-Smith, S. Paying the Price: the Cost of Mental Health Care in England to 2026. King's Fund, 2008.Google Scholar
11 Angst, F, Stassen, HH, Clayton, PJ, Angst, J. Mortality of patients with mood disorders: follow-up over 34–38 years. J Affect Disord 2002; 68: 167–81.Google Scholar
12 Judd, LL, Akiskal, HS, Schettler, PJ, Endicott, J, Maser, J, Solomon, DA, et al. The long-term natural history of the weekly symptomatic status of bipolar I disorder. Arch Gen Psychiatry 2002; 59: 530–7.CrossRefGoogle ScholarPubMed
13 Gitlin, MJ, Swendsen, J, Heller, TL, Hammen, C. Relapse and impairment in bipolar disorder. Am J Psychiatry 1995; 152: 1635–40.Google Scholar
14 Gregory, VL. Cognitive-behavioral therapy for depression in bipolar disorder: a meta-analysis. J Evid Based Soc Work 2010; 7: 269–79.CrossRefGoogle ScholarPubMed
15 Gregory, VL. Cognitive-behavioral therapy for mania: a meta-analysis of randomized controlled trials. Soc Work Ment Health 2010; 8: 483–94.CrossRefGoogle Scholar
16 Szentagotai, A, David, D. The efficacy of cognitive-behavioral therapy in bipolar disorder: a quantitative meta-analysis. J Clin Psychiatry 2010; 71: 6672.CrossRefGoogle ScholarPubMed
17 Lam, DH, Burbeck, R, Wright, K, Pilling, S. Psychological therapies in bipolar disorder: the effect of illness history on relapse prevention – a systematic review. Bipolar Disord 2009; 11: 474–82.CrossRefGoogle ScholarPubMed
18 Morriss, RK, Faizal, MA, Jones, AP, Williamson, PR, Bolton, C, McCarthy, JP. Interventions for helping people recognise early signs of recurrence in bipolar disorder. Cochrane Database Syst Rev 2007; 1: CD004854.Google Scholar
19 Justo, LP, Soares, BG, Calil, HM. Family interventions for bipolar disorder. Cochrane Database Syst Rev 2007; 4: CD005167.Google Scholar
20 National Institute for Health and Care Excellence. Bipolar Disorder: The Management of Bipolar Disorder in Adults, Children and Adolescents, in Primary and Secondary Care. Clinical Guideline CG185. NICE, 2014.Google Scholar
21 Kupka, A, Goossens, P, van Bendegem, M, Daemen, P, Daggenvoorde, T, Daniels, M, et al. Multidisciplinaire Richtlijn Bipolaire Stoornissen [Multidisciplinary Guidelines for Bipolar Disorders]. Trimbos Institute, 2015.Google Scholar
22 Moher, D, Liberati, A, Tetzlaff, J, Altman, DG. Reprint – preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. Phys Ther 2009; 89: 873–80.Google Scholar
23 Higgins, JPT, Green, S. Cochrane Handbook for Systematic Reviews of Interventions. Wiley Blackwell, 2008.Google Scholar
24 Tohen, M, Frank, E, Bowden, CL, Colom, F, Ghaemi, SN, Yatham, LN, et al. The International Society for Bipolar Disorders (ISBD) Task Force report on the nomenclature of course and outcome in bipolar disorders. Bipolar Disord 2009; 11: 453–73.Google Scholar
25 Miklowitz, DJ, Goodwin, GM, Bauer, MS, Geddes, JR. Common and specific elements of psychosocial treatments for bipolar disorder: a survey of clinicians participating in randomized trials. J Psychiatr Pract 2008; 14: 7785.Google Scholar
26 Nordic Cochrane Centre. Review Manager (RevMan) Version 5.2. Cochrane Collaboration, 2012.Google Scholar
27 Guyatt, GH, Oxman, AD, Schunemann, HJ, Tugwell, P, Knottnerus, A. GRADE guidelines: a new series of articles in the Journal of Clinical Epidemiology. J Clin Epidemiol 2011; 64: 380–2.Google Scholar
28 Jackson, HJ, McGorry, PD, Killackey, E, Bendall, S, Allott, K, Dudgeon, P, et al. Acute-phase and 1-year follow-up results of a randomized controlled trial of CBT versus Befriending for first-episode psychosis: the ACE project. Psychol Med 2008; 38: 725–35.Google Scholar
29 Pickett-Schenk, SA, Lippincott, RC, Bennett, C, Steigman, PJ. Improving knowledge about mental illness through family-led education: the journey of hope. Psychiatr Serv 2008; 59: 4956.CrossRefGoogle ScholarPubMed
30 Staring, AB, Van der Gaag, M, Koopmans, GT, Selten, JP, Van Beveren, JM, Hengeveld, MW, et al. Treatment adherence therapy in people with psychotic disorders: randomised controlled trial. Br J Psychiatry 2010; 197: 448–55.Google Scholar
31 Lieberman, DZ, Kelly, TF, Douglas, L, Goodwin, FK. A randomized comparison of online and paper mood charts for people with bipolar disorder. J Affect Disord 2010; 124: 85–9.Google Scholar
32 Bernhard, B. Wirksamkeit einer kognitiv-psychoedukativen Gruppenintervention bei bipolaren Patienten [Effectiveness of cognitive psychoeducational group interventions in bipolar patients]. PhD dissertation. Faculty of Medicine, Ludwig Maximillians University, 2009.Google Scholar
33 Schwannauer, M. Cognitive, interpersonal and psychosocial factors influencing vulnerability, treatment outcome and relapse in bipolar affective disorders: a clinical randomised controlled treatment trial. PhD thesis, University of Edinburgh, 2007.Google Scholar
34 Jones, SH, Smith, G, Mulligan, LD, Lobban, F, Law, H, Dunn, G, et al. Recovery-focused cognitive–behavioural therapy for recent-onset bipolar disorder: randomised controlled pilot trial. Br J Psychiatry 2015; 206: 5866.Google Scholar
35 Todd, NJ, Jones, SH, Hart, A, Lobban, FA. A web-based self-management intervention for Bipolar Disorder ‘living with bipolar’: a feasibility randomised controlled trial. J Affect Disord 2014; 169: 21–9.Google Scholar
36 De Barros Pellegrinelli, K, de O Costa, LF, Silval, KID, Dias, VV, Roso, MC, Bandeira, M, et al. Efficacy of psychoeducation on symptomatic and functional recovery in bipolar disorder. Acta Psychiatr Scand 2013; 127: 153–8.CrossRefGoogle ScholarPubMed
37 Glick, ID, Clarkin, JF, Haas, GL, Spencer, JH. Clinical significance of inpatient family intervention: conclusions from a clinical trial. Hosp Community Psychiatry 1993; 44: 869–73.Google Scholar
38 Clarkin, JF, Carpenter, D, Hull, J, Wilner, P, Glick, I. Effects of psychoeducational intervention for married patients with bipolar disorder and their spouses. Psychiatr Serv 1998; 49: 531–3.CrossRefGoogle ScholarPubMed
39 Parikh, SV, Zaretsky, A, Beaulieu, S, Yatham, LN, Young, LT, Patelis-Siotis, I, et al. A randomized controlled trial of psychoeducation or cognitive-behavioral therapy in bipolar disorder: a Canadian Network for Mood and Anxiety treatments (CANMAT) study [CME]. J Clin Psychiatry 2012; 73: 803–10.CrossRefGoogle ScholarPubMed
40 Fagiolini, A, Frank, E, Axelson, DA, Birmaher, B, Cheng, Y, Curet, DE, et al. Enhancing outcomes in patients with bipolar disorder: results from the Bipolar Disorder Center for Pennsylvanians Study. Bipolar Disord 2009; 11: 382–90.Google Scholar
41 Weiss, RD, Griffin, ML, Kolodziej, ME, Greenfield, SF, Najavits, LM, Daley, DC, et al. A randomized trial of integrated group therapy versus group drug counseling for patients with bipolar disorder and substance dependence. Am J Psychiatry 2007; 164: 100–7.Google Scholar
42 Eker, F, Harkin, S. Effectiveness of six-week psychoeducation program on adherence of patients with bipolar affective disorder. J Affect Disord 2012; 138: 409–16.Google Scholar
43 Miklowitz, DJ, Otto, MW, Frank, E, Reilly-Harrington, NA, Wisniewski, SR, Kogan, JN, et al. Psychosocial treatments for bipolar depression: a 1-year randomized trial from the Systematic Treatment Enhancement Program. Arch Gen Psychiatry 2007; 64: 419–26.Google Scholar
44 Van Dijk, S, Jeffrey, J, Katz, MR. A randomized, controlled, pilot study of dialectical behavior therapy skills in a psychoeducational group for individuals with bipolar disorder. J Affect Disord 2013; 145: 386–93.CrossRefGoogle Scholar
45 Swartz, HA, Frank, E, Cheng, Y. A randomized pilot study of psychotherapy and quetiapine for the acute treatment of bipolar II depression. Bipolar Disord 2012; 14: 211–6.Google Scholar
46 Schmitz, JM, Averill, P, Sayre, SU, McCleary, P, Moeller, FG, Swann, A. Cognitive-behavioral treatment of bipolar disorder and substance abuse: a preliminary randomized study. Addict Disord Their Treat 2002; 1: 1724.Google Scholar
47 Bauer, MS, McBride, L, Williford, WO, Glick, H, Kinosian, B, Altshuler, L, et al. Collaborative care for bipolar disorder: Part I. Intervention and implementation in a randomized effectiveness trial. Psychiatr Serv 2006; 57: 927–36.Google Scholar
48 Frank, E, Swartz, HA, Mallinger, AG, Thase, ME, Weaver, EV, Kupfer, DJ. Adjunctive psychotherapy for bipolar disorder: effects of changing treatment modality. J Abnorm Psychol 1999; 108: 579–87.Google Scholar
49 Sajatovic, M, Davies, MA, Ganocy, SJ, Bauer, MS, Cassidy, KA, Hays, RW, et al. A comparison of the life goals program and treatment as usual for individuals with bipolar disorder. Psychiatr Serv 2009; 60: 1182–9.CrossRefGoogle ScholarPubMed
50 Miller, IW, Solomon, DA, Ryan, CE, Keitner, GI. Does adjunctive family therapy enhance recovery from bipolar I mood episodes? J Affect Disord 2004; 82: 431–6.Google Scholar
51 Scott, J, Garland, A, Moorhead, S. A pilot study of cognitive therapy in bipolar disorders. Psychol Med 2001; 31: 459–67.CrossRefGoogle ScholarPubMed
52 Scott, J, Paykel, E, Morriss, R, Bentall, R, Kinderman, P, Johnson, T, et al. Cognitive–behavioural therapy for severe and recurrent bipolar disorders: randomised controlled trial. Br J Psychiatry 2006; 188: 313–20.Google Scholar
53 Kilbourne, AM, Post, EP, Nossek, A, Drill, L, Cooley, S, Bauer, MS. Improving medical and psychiatric outcomes among individuals with bipolar disorder: a randomized controlled trial. Psychiatr Serv 2008; 59: 760–8.Google Scholar
54 Kilbourne, AM, Goodrich, DE, Lai, Z, Clogston, J, Waxmonsky, J, Bauer, MS. Life Goals Collaborative Care for patients with bipolar disorder and cardiovascular disease risk. Psychiatr Serv 2012; 63: 1234–8.Google Scholar
55 Simon, GE, Ludman, EJ, Unutzer, J, Bauer, MS, Operskalski, B, Rutter, C. Randomized trial of a population-based care program for people with bipolar disorder. Psychol Med 2005; 35: 1324.Google Scholar
56 Miklowitz, DJ, Simoneau, TL, George, EL, Richards, JA, Kalbag, A, Sachs-Ericsson, N, et al. Family-focused treatment of bipolar disorder: 1-year effects of a psychoeducational program in conjunction with pharmacotherapy. Biol Psychiatry 2000; 48: 582–92.CrossRefGoogle ScholarPubMed
57 Perlick, DA, Miklowitz, DJ, Lopez, N, Chou, J, Kalvin, C, Adzhiashvili, V, et al. Family-focused treatment for caregivers of patients with bipolar disorder. Bipolar Disord 2010; 12: 627–37.Google Scholar
58 Weiss, RD, Griffin, ML, Jaffee, WB, Bender, RE, Graff, FS, Gallop, RJ, et al. A ‘community-friendly’ version of integrated group therapy for patients with bipolar disorder and substance dependence: a randomized controlled trial. Drug Alcohol Depend 2009; 104: 212–9.CrossRefGoogle ScholarPubMed
59 Proudfoot, J, Parker, G, Manicavasagar, V, Hadzi-Pavlovic, D, Whitton, A, Nicholas, J, et al. Effects of adjunctive peer support on perceptions of illness control and understanding in an online psychoeducation program for bipolar disorder: a randomised controlled trial. J Affect Disord 2012; 142: 98105.Google Scholar
60 Smith, DJ, Griffiths, E, Poole, R, di Florio, A, Barnes, E, Kelly, MJ, et al. Beating Bipolar: exploratory trial of a novel Internet-based psychoeducational treatment for bipolar disorder. Bipolar Disord 2011; 13: 571–7.Google Scholar
61 Dogan, S, Sabanciogullari, S. The effects of patient education in lithium therapy on quality of life and compliance. Arch Psychiatr Nurs 2003; 17: 270–5.Google Scholar
62 Javadpour, A, Hedayati, A, Dehbozorgi, GR, Azizi, A. The impact of a simple individual psycho-education program on quality of life, rate of relapse and medication adherence in bipolar disorder patients. Asian J Psychiatr 2013; 6: 208–13.Google Scholar
63 Lobban, F, Taylor, L, Chandler, C, Tyler, E, Kinderman, P, Kolamunnage-Dona, R, et al. Enhanced relapse prevention for bipolar disorder by community mental health teams: cluster feasibility randomised trial. Br J Psychiatry 2010; 196: 5963.Google Scholar
64 Perry, A, Tarrier, N, Morriss, R, McCarthy, E, Limb, K. Randomised controlled trial of efficacy of teaching patients with bipolar disorder to identify early symptoms of relapse and obtain treatment. BMJ 1999; 318: 149–53.Google Scholar
65 Ball, JR, Mitchell, PB, Corry, JC, Skillecorn, A, Smith, M, Malhi, GS. A randomized controlled trial of cognitive therapy for bipolar disorder: focus on long-term change. J Clin Psychiatry 2006; 67: 277–86.Google Scholar
66 Zaretsky, A, Lancee, W, Miller, C, Harris, A, Parikh, SV. Is cognitive-behavioural therapy more effective than psychoeducation in bipolar disorder? Can J Psychiatry 2008; 53: 441–8.Google Scholar
67 Lam, DH, Bright, J, Jones, S, Hayward, P, Schuck, N, Chisholm, D, et al. Cognitive therapy for bipolar illness: a pilot study of relapse prevention. Cogn Ther Res 2000; 24: 503–20.Google Scholar
68 Lam, DH, Watkins, ER, Hayward, P, Bright, J, Wright, K, Kerr, N, et al. A randomized controlled study of cognitive therapy for relapse prevention for bipolar affective disorder: outcome of the first year. Arch Gen Psychiatry 2003; 60: 145–52.Google Scholar
69 Cochran, SD. Preventing medical noncompliance in the outpatient treatment of bipolar affective disorders. J Consult Clin Psychol 1984; 52: 873–8.Google Scholar
70 Colom, F, Vieta, E, Reinares, M, Martinez-Aran, A, Torrent, C, Goikolea, JM, et al. Psychoeducation efficacy in bipolar disorders: beyond compliance enhancement. J Clin Psychiatry 2003; 64: 1101–5.Google Scholar
71 Colom, F, Vieta, E, Martinez-Aran, A, Reinares, M, Goikolea, JM, Benabarre, A, et al. A randomized trial on the efficacy of group psychoeducation in the prophylaxis of recurrences in bipolar patients whose disease is in remission. Arch Gen Psychiatry 2003; 60: 402–7.Google Scholar
72 Torrent, C, Bonnin Cdel, M, Martinez-Aran, A, Valle, J, Amann, BL, Gonzalez-Pinto, A, et al. Efficacy of functional remediation in bipolar disorder: a multicenter randomized controlled study. Am J Psychiatry 2013; 170: 852–9.Google Scholar
73 Castle, D, White, C, Chamberlain, J, Berk, M, Berk, L, Lauder, S, et al. Group-based psychosocial intervention for bipolar disorder: randomised controlled trial. Br J Psychiatry 2010; 196: 383–8.Google Scholar
74 Gomes, BC, Abreu, LN, Brietzke, E, Caetano, SC, Kleinman, A, Nery, FG, et al. A randomized controlled trial of cognitive behavioral group therapy for bipolar disorder. Psychother Psychosom 2011; 80: 144–50.Google Scholar
75 Costa, RT, Cheniaux, E, Range, BP, Versiani, M, Nardi, AE. Group cognitive behavior therapy for bipolar disorder can improve the quality of life. Braz J Med Biol Res 2012; 45: 862–8.Google Scholar
76 Perich, T, Manicavasagar, V, Mitchell, PB, Ball, JR, Hadzi-Pavlovic, D. A randomized controlled trial of mindfulness-based cognitive therapy for bipolar disorder. Acta Psychiatr Scand 2013; 127: 333–43.Google Scholar
77 Williams, JM, Alatiq, Y, Crane, C, Barnhofer, T, Fennell, MJ, Duggan, DS, et al. Mindfulness-based Cognitive Therapy (MBCT) in bipolar disorder: preliminary evaluation of immediate effects on between-episode functioning. J Affect Disord 2008; 107: 275–9.Google Scholar
78 Lahera, G, Benito, A, Montes, JM, Fernandez-Liria, A, Olbert, CM, Penn, DL. Social cognition and interaction training (SCIT) for outpatients with bipolar disorder. J Affect Disord 2013; 146: 132–6.Google Scholar
79 D'Souza, R, Piskulic, D, Sundram, S. A brief dyadic group based psychoeducation program improves relapse rates in recently remitted bipolar disorder: a pilot randomised controlled trial. J Affect Disord 2010; 120: 272–6.Google Scholar
80 Bordbar, MRF. Short-term family-focused psycho-educational program for bipolar mood disorder in Mashhad. Iran J Med Sci 2009; 34: 104–9Google Scholar
81 Madigan, K, Egan, P, Brennan, D, Hill, S, Maguire, B, Horgan, F, et al. A randomised controlled trial of carer-focussed multi-family group psychoeducation in bipolar disorder. Eur Psychiatry 2012; 27: 281–4.Google Scholar
82 Reinares, M, Colom, F, Sanchez-Moreno, J, Torrent, C, Martinez-Aran, A, Comes, M, et al. Impact of caregiver group psychoeducation on the course and outcome of bipolar patients in remission: a randomized controlled trial. Bipolar Disord 2008; 10: 511–9.Google Scholar
83 Van Gent, EM, Zwart, FM. Psychoeducation of partners of bipolar-manic patients. J Affect Disord 1991; 21: 15–8.Google Scholar
84 Kessing, LV, Hansen, HV, Hvenegaard, A, Christensen, EM, Dam, H, Gluud, C, et al. Treatment in a specialised out-patient mood disorder clinic v. standard out-patient treatment in the early course of bipolar disorder: randomised clinical trial. Br J Psychiatry 2013; 202: 212–9.Google Scholar
85 Rea, MM, Tompson, MC, Miklowitz, DJ, Goldstein, MJ, Hwang, S, Mintz, J. Family-focused treatment versus individual treatment for bipolar disorder: results of a randomized clinical trial. J Consult Clin Psychol 2003; 71: 482–92.Google Scholar
86 Meyer, TD, Hautzinger, M. Cognitive behaviour therapy and supportive therapy for bipolar disorders: relapse rates for treatment period and 2-year follow-up. Psychol Med 2012; 42: 1429–39.Google Scholar
87 Stafford, MR, Jackson, H, Mayo-Wilson, E, Morrison, AP, Kendall, T. Early interventions to prevent psychosis: systematic review and meta-analysis. BMJ 2013; 346: f185.Google Scholar
88 Bird, V, Premkumar, P, Kendall, T, Whittington, C, Mitchell, J, Kuipers, E. Early intervention services, cognitive–behavioural therapy and family intervention in early psychosis: systematic review. Br J Psychiatry 2010; 197: 350–6.Google Scholar
89 Pharoah, F, Mari, J, Rathbone, J, Wong, W. Family intervention for schizophrenia. Cochrane Database Syst Rev 2010; 12: CD000088.Google Scholar
90 National Institute for Health and Care Excellence. Depression in Adults; The Treatment and Management of Depression in Adults. Clinical Guidance CG90. NICE, 2009.Google Scholar
91 Whittington, CJ, Kendall, T, Fonagy, P, Cottrell, D, Cotgrove, A, Boddington, E. Selective serotonin reuptake inhibitors in childhood depression: systematic review of published versus unpublished data. Lancet 2004; 363: 1341–5.Google Scholar
92 Montes, JM, Maurino, J, de Dios, C, Medina, E. Suboptimal treatment adherence in bipolar disorder: impact on clinical outcomes and functioning. Patient Prefer Adherence 2013; 7: 8994.Google Scholar
Figure 0

Fig. 1 Study selection.

Figure 1

Table 1 Outcomes at post-treatment assessment compared with treatment as usual

Figure 2

Table 2 Outcomes at post-treatment assessment compared with active controls

Figure 3

Table 3 Outcomes at follow-up assessment compared with treatment as usual

Figure 4

Table 4 Outcomes at follow-up assessment compared with active controls

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