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Network meta-analysis: drawing conclusions regarding trials of psychosocial interventions for bipolar disorder

Published online by Cambridge University Press:  02 January 2018

David J. Miklowitz*
Affiliation:
Department of Psychiatry, University of California, Los Angeles (UCLA) School of Medicine, Los Angeles, California, USA and University Department of Psychiatry, University of Oxford, Oxford, UK
Andrea Cipriani
Affiliation:
University Department of Psychiatry, University of Oxford and Oxford Health NHS Foundation Trust, Warneford Hospital, Oxford, UK
Guy M. Goodwin
Affiliation:
University Department of Psychiatry, University of Oxford and Oxford Health NHS Foundation Trust, Warneford Hospital, Oxford, UK
*
David J. Miklowitz, Department of Psychiatry, UCLA Semel Institute, 760 Westwood Plaza Rm A8-256, Los Angeles, CA 90095, USA. Email: [email protected]
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Summary

Network meta-analysis (NMA) is a statistical technique for making direct and indirect comparisons between different treatment and control groups. Despite its many advantages, NMA may be misleading when evaluating networks that are disconnected, inconsistent or of low reliability and validity. We review how well the analysis of trials of adjunctive psychosocial treatment in bipolar disorder is served by NMA. We conclude with recommendations for future treatment trials in bipolar disorder and guidelines for NMAs.

Type
Editorials
Copyright
Copyright © The Royal College of Psychiatrists, 2017 

The investigation of effective psychosocial interventions for patients with bipolar disorder has been ongoing since the late 1970s. Various psychotherapy modalities have been manualised and tested as adjuncts to pharmacotherapy in randomised controlled trials (RCTs), with the majority concerning cognitive-behavioural therapy (CBT), interpersonal and social rhythm therapy (IPSRT), family-focused therapy or structured group psychoeducation. There is a consensus that psychoeducation is a key component of good clinical care in bipolar disorder. 1,Reference Goodwin, Haddad, Ferrier, Aronson, Barnes and Cipriani2 However, more specific conclusions have provoked controversy.

The National Institute for Health and Care Excellence's recommendations, based on multiple meta-analyses, appear to have gone beyond the evidence in an effort to compare the options. Reference Jauhar, McKenna and Laws3 The central difficulty is that the trial literature is very heterogeneous, with some studies restricted to euthymic or recovered patients with bipolar I or II disorder and others including patients recruited during an acute manic episode. Many studies use a treatment-as-usual (TAU) control without specifying the features of this comparator. There are no standardised, consensus instruments for assessing change in mood symptoms or functioning. As a result, we know relatively little about what treatments work best for what patients, what outcomes are affected by what treatments, or whether certain treatment structures (for example groups) are more cost-effective than others (for example individual or family). Putative moderators have come and gone, effect sizes that looked impressive in early trials become much smaller on replication, and data concerning treatment mechanisms are lacking. More studies are certainly required to address these uncertainties, but how much is there further to learn from the studies that have already been done?

Network meta-analysis

The answer may lie in network meta-analysis (NMA), a sophisticated statistical technique that aims to synthesise comparative evidence across a network of RCTs (all of which meet quality standards) and rank the different treatment options against each other. The key feature of NMA is that it allows the simultaneous analysis of data comparing treatments within the same study (direct evidence) with data comparing interventions across different studies (indirect evidence). Indirect evidence is important because, using a common comparator such as TAU, it fills the gaps (i.e. treatments that have not been compared directly can be compared indirectly). When combined with direct evidence, indirect evidence increases the precision of the effect estimate between two interventions. Reference Cipriani, Higgins, Geddes and Salanti4 NMA is becoming very popular in the scientific literature, but unfortunately such interest also increases the likelihood of adopting poorer methodological quality. Reference Zarin, Veroniki, Nincic, Vafaei, Reynen and Motiwala5 As we explain below, NMA results are only valid when the network of comparisons is coherent and well connected.

As for any meta-analysis based on a systematic review, criteria for including and excluding individual studies in these networks must be convergent with the original review question to reduce the risk of spurious findings. Reference Goodwin, Haddad, Ferrier, Aronson, Barnes and Cipriani2 Ideally, all studies should have similar designs and, critically, select similar patients. NMAs should also offer formal assessments of the overall quality of the evidence retrieved.

An example of NMA as applied to trials of psychosocial interventions for bipolar disorder

We illustrate these issues concerning network interconnectedness, rating study quality, and inclusion/exclusion decisions in the paper published in the BJPsych by Chatterton and colleagues, Reference Chatterton, Stockings, Berk, Barendregt, Carter and Mihalopoulos6 the first NMA of the bipolar/psychosocial treatment literature. They drew conclusions based on the prespecified outcomes of relapse, depressive and manic symptoms, global functioning and medication adherence (PROSPERO ID: CRD42015016975), each of which, by definition, is associated with a distinct network (i.e. not all studies included in the network contribute to all the outcomes). In the 41 RCTs in bipolar disorder that were included, Chatterton et al concluded that (a) caregiver-focused interventions significantly reduced the risk of manic and depressive relapses (risk ratio (RR) = 0.61, 95% CI 0.44 to 0.86); (b) psychoeducation, given alone or in combination with CBT reduced non-adherence with medication (RR = 0.27, 95% CI 0.14 to 0.53 and 0.14, 0.02–0.85 respectively); and (c) the combination of psychoeducation and CBT reduced manic symptoms and increased global functioning (standardised mean difference (SMD) = −0.95, 95% CI −1.47 to −0.43).

None of the interventions were found to be effective in reducing depressive symptoms. This is unexpected: one of the main justifications for developing and using structured psychotherapy in conjunction with medications for bipolar disorder has been that the latter are less effective in controlling depression than mania. Several of the best-studied approaches to bipolar disorder were derived from treatments for patients with unipolar depression. Moreover, the Systematic Treatment Enhancement Program for Bipolar Disorder (STEP-BD), a relatively large-scale multicentre RCT (n = 293), directly compared three active, evidence-based psychosocial interventions (CBT, IPSRT and family-focused therapy) with a brief psychoeducational control in adults with bipolar disorder recovering from a major depressive episode. Reference Miklowitz, Otto, Frank, Reilly-Harrington, Wisniewski and Kogan7 The three intensive therapies were more effective than the brief psychoeducation in decreasing time to depression recovery and increasing likelihood of being well over the study year. However, the STEP-BD trial was excluded from this NMA.

In the Chatterton et al analysis, the network of studies that were included is very sparse: there are few direct comparisons of one active intervention to another, so the conclusions are drawn primarily from indirect comparisons between active treatments and TAU. Moreover, few trials adequately specified the TAU condition, which varied from pharmacotherapy only (with no clarification of visit frequency) to pharmacotherapy with case management, to pharmacotherapy with supportive individual therapy, to waitlist controls.

The inclusion/exclusion decisions were at times puzzling. The authors explain that many studies were excluded ‘owing to the lack of reporting of extractable data’. Reference Chatterton, Stockings, Berk, Barendregt, Carter and Mihalopoulos6 As the authors acknowledge, no studies of IPSRT were included, even though there are at least four trials testing its effects against inactive or active control conditions. Apparently, only one of these trials made outcome data available for the NMA, and that study was excluded. The investigators also excluded a study of collaborative care with 306 patients treated at US Veterans Administration facilities, Reference Bauer, McBride, Williford, Glick, Kinosian and Altshuler8 but included a similarly designed study of 441 patients in a health management organisation who received a nearly identical collaborative care treatment. Reference Simon, Ludman, Bauer, Unutzer and Operskalski9 Further, the authors excluded a large Canadian pragmatic trial (n = 204) that provided a direct comparison of CBT with group psychoeducation. Reference Parikh, Zaretsky, Beaulieu, Yatham, Young and Patelis-Siotis10 Large-scale pragmatic trials that compare two or more evidence-based psychosocial treatments are especially relevant to the direct networks being tested in NMAs.

One limitation of NMA methodology, then, is that the decision rules on which studies to include or exclude may strongly influence the results. Indeed, the eligibility criteria for this NMA seemed to favour smaller studies that test innovations in CBT or group psychoeducational treatment compared with usual care. One is left to wonder how to translate the findings into recommendations for clinical practice given the exclusion of key studies. At minimum, sensitivity analyses should be performed to determine how including or excluding specific studies changes the results.

In this NMA, risk of bias was examined using the Cochrane Collaboration tool and a total quality score was calculated as the sum of all components (a value between 0 and 1, calculated for each study by dividing the total quality score by the highest scoring study in the group). Rating the risk of bias of individual studies is important but not enough. Guidance exists on how to properly rate the quality of evidence supporting treatment effect estimates obtained from NMAs. Reference Hutton, Salanti, Caldwell, Chaimani, Schmid and Cameron11 GRADE (or another reliable rating system) should become mandatory for NMAs published in high-quality, peer-reviewed journals. Reference Puhan, Schünemann, Murad, Li, Brignardello-Petersen and Singh12,Reference Salanti, Del Giovane, Chaimani, Caldwell and Higgins13

What of the conclusions that are reached? The most contentious was: if the primary goal is the prevention of relapse in bipolar disorder, educating and supporting caregivers is the most effective intervention. This conclusion suggests that the patient with bipolar disorder need not be involved in psychosocial sessions in order for treatment to be effective. When unpacking this finding, we learn that there were only five studies of caregiver-only treatments, and of those, only two were included in the network for relapse-as-outcome. One of the five studies was excluded because the carer-focused intervention was compared with an attention control treatment. One of the two included caregiver-focused trials tested the effects of one 2 h educational session for caregivers compared with TAU in reducing relapse rates. Reference Bordbar, Soltanifar and Talaei14 It is not clear what other treatments the patients received during this trial. The only other study that met the inclusion criteria was a trial that found lower rates of manic (not depressive) relapse in patients whose caregivers received psychoeducation in groups. Reference Reinares, Sánchez-Moreno and Fountoulakis15 Finally – and paradoxically – caregiver-focused interventions were ranked as the most effective in preventing relapse and the least effective in reducing non-adherence to medications; yet preventing manic episodes usually requires consistent adherence to medication. Thus, we remain unconvinced by inferences that are based on a limited number of studies tested in a sparse network.

Guidelines for publishing NMAs

NMA has the potential to draw treatment recommendations from existing data, rather than require more RCTs to answer direct questions about specific contrasts. However, drawing conclusions in NMAs based on non-connected networks is challenging. Careful attention should be paid to the consistency between direct and indirect evidence, when available. Thus, if treatment A beats treatment B and B beats C, the loop is consistent only if A beats C. If, instead, C beats A, the loop is inconsistent. In the study protocol, all NMAs should describe a clear strategy for identifying and addressing such inconsistencies. Reference Mavridis, Giannatsi, Cipriani and Salanti16 Inconsistency between direct and indirect sources of evidence should be statistically assessed both globally (by comparison of the fit and parsimony of consistency and inconsistency models) and locally (by calculation of the difference between direct and indirect estimates in all closed loops in the network). Even when the global test of consistency is acceptable, there may be important local inconsistencies that must be appraised in order to evaluate how the combination of direct and indirect evidence – the so-called mixed estimate – is affected. The node splitting method should also be used to calculate the inconsistency of the model, which separates evidence on a particular comparison into direct and indirect evidence. Reference Mavridis, Giannatsi, Cipriani and Salanti16

Conclusions

We join Chatterton et al in emphasising several directions for future research but also caution against the misuse of NMA. First, we need to develop more effective approaches to bipolar depressive symptoms, which remain the primary residual and enduring burden of illness between acute episodes. Second, we need a common assessment battery for studies in bipolar disorder (analogous to the MATRIX battery in schizophrenia, but learning from its limitations) so that treatment effects can be more directly compared in NMAs. Third, trial investigators need to anticipate that individual-level data will be requested to develop or update meta-analyses. Reference Ioannidis17

The end goal of meta-analysis is to provide evidence to support treatment decision-making relevant to individual patients with bipolar disorder in a variety of clinical states. Reference Ioannidis17 In evaluating results, we must keep in mind the individual variables that may affect response to various psychosocial and pharmacological treatments (for example a history of non-adherence), and the matching between the clinician's setting or type of practice and the menu of reasonable options now available for treating patients with bipolar disorder.

Footnotes

Declaration of interest

A.C. and D.J.M. are currently carrying out a network meta-analysis of psychological interventions in bipolar disorder (CRD42015016085). D.J.M. receives grant funding from the National Institute of Mental Health and private funding from the Deutsch Foundation, Kayne Foundation, Dan and Diana Attias Foundation, and Max Gray Foundation. A.C. is supported by the National Institute for Health Research (NIHR) Oxford Cognitive Health Clinical Research Facility. G.M.G is a NIHR senior investigator, holds a grant from the Wellcome Trust, holds shares in P1vital and has served as consultant, advisor or continuing medical education speaker for Angelini, Compass pathways, MSD, Lundbeck (/Otsuka or /Takeda), Medscape, P1vital, Pfizer, Servier and Shire. The views expressed are those of the author(s) and not necessarily those of the NHS, the NIHR or the Department of Health.

References

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