Psychological therapies for the management of chronic pain (excluding headache) in adults Edited (no change to conclusions)
Chronic non‐cancer pain, a disabling and distressing condition, is common in adults. It is a global public health problem and economic burden on health and social care systems and on people with chronic pain. Psychological treatments aim to reduce pain, disability and distress. This review updates and extends its previous version, published in 2012.
To determine the clinical efficacy and safety of psychological interventions for chronic pain in adults (age 18 years) compared with active controls, or waiting list/treatment as usual (TAU).
We identified randomised controlled trials (RCTs) of psychological therapies by searching CENTRAL, MEDLINE, Embase and PsycINFO to 16 April 2020. We also examined reference lists and trial registries, and searched for studies citing retrieved trials.
RCTs of psychological treatments compared with active control or TAU of face‐to‐face therapies for adults with chronic pain. We excluded studies of headache or malignant disease, and those with fewer than 20 participants in any arm at treatment end.
Data collection and analysis
Two or more authors rated risk of bias, extracted data, and judged quality of evidence (GRADE). We compared cognitive behavioural therapy (CBT), behavioural therapy (BT), and acceptance and commitment therapy (ACT) with active control or TAU at treatment end, and at six month to 12 month follow‐up. We did not analyse the few trials of other psychological treatments. We assessed treatment effectiveness for pain intensity, disability, and distress. We extracted data on adverse events (AEs) associated with treatment.
We added 41 studies (6255 participants) to 34 of the previous review's 42 studies, and now have 75 studies in total (9401 participants at treatment end). Most participants had fibromyalgia, chronic low back pain, rheumatoid arthritis, or mixed chronic pain. Most risk of bias domains were at high or unclear risk of bias, with selective reporting and treatment expectations mostly at unclear risk of bias. AEs were inadequately recorded and/or reported across studies.
The largest evidence base was for CBT (59 studies). CBT versus active control showed very small benefit at treatment end for pain (standardised mean difference (SMD) ‐0.09, 95% confidence interval (CI) ‐0.17 to ‐0.01; 3235 participants; 23 studies; moderate‐quality evidence), disability (SMD ‐0.12, 95% CI ‐0.20 to ‐0.04; 2543 participants; 19 studies; moderate‐quality evidence), and distress (SMD ‐0.09, 95% CI ‐0.18 to ‐0.00; 3297 participants; 24 studies; moderate‐quality evidence). We found small benefits for CBT over TAU at treatment end for pain (SMD ‐0.22, 95% CI ‐0.33 to ‐0.10; 2572 participants; 29 studies; moderate‐quality evidence), disability (SMD ‐0.32, 95% CI ‐0.45 to ‐0.19; 2524 participants; 28 studies; low‐quality evidence), and distress (SMD ‐0.34, 95% CI ‐0.44 to ‐0.24; 2559 participants; 27 studies; moderate‐quality evidence). Effects were largely maintained at follow‐up for CBT versus TAU, but not for CBT versus active control.
Evidence quality for CBT outcomes ranged from moderate to low. We rated evidence for AEs as very low quality for both comparisons.
We analysed eight studies (647 participants). We found no evidence of difference between BT and active control at treatment end (pain SMD ‐0.67, 95% CI ‐2.54 to 1.20, very low‐quality evidence; disability SMD ‐0.65, 95% CI ‐1.85 to 0.54, very low‐quality evidence; or distress SMD ‐0.73, 95% CI ‐1.47 to 0.01, very low‐quality evidence). At follow‐up, effects were similar. We found no evidence of difference between BT and TAU (pain SMD ‐0.08, 95% CI ‐0.33 to 0.17, low‐quality evidence; disability SMD ‐0.02, 95% CI ‐0.24 to 0.19, moderate‐quality evidence; distress SMD 0.22, 95% CI ‐0.10 to 0.54, low‐quality evidence) at treatment end. At follow‐up, we found one to three studies with no evidence of difference between BT and TAU.
We rated evidence for all BT versus active control outcomes as very low quality; for BT versus TAU. Evidence quality ranged from moderate to very low. We rated evidence for AEs as very low quality for BT versus active control. No studies of BT versus TAU reported AEs.
We analysed five studies (443 participants). There was no evidence of difference between ACT and active control for pain (SMD ‐0.25, 95% CI ‐0.63 to 0.12, very low‐quality evidence), disability (SMD ‐0.67, 95% CI ‐1.56 to 0.22, very low‐quality evidence) or distress (SMD ‐0.30, 95% CI ‐0.70 to 0.10, very low‐quality evidence) at treatment end. At follow‐up, there was no evidence of effect for pain or distress (both very low‐quality evidence), but two studies showed a large benefit for reducing disability (SMD ‐1.22, 95% CI ‐2.28 to ‐0.17, very low‐quality evidence). Two studies compared ACT to TAU at treatment end. Results should be interpreted with caution. We found large benefits of ACT for pain (SMD ‐0.83, 95% CI ‐1.57 to ‐0.09, very low‐quality evidence), but none for disability (SMD ‐1.39, 95% CI ‐3.20 to 0.41, very low‐quality evidence), or distress (SMD ‐1.16, 95% CI ‐2.51 to 0.20, very low‐quality evidence). Lack of data precluded analysis at follow‐up.
We rated evidence quality for AEs to be very low. We encourage caution when interpreting very low‐quality evidence because the estimates are uncertain and could be easily overturned.
We found sufficient evidence across a large evidence base (59 studies, over 5000 participants) that CBT has small or very small beneficial effects for reducing pain, disability, and distress in chronic pain, but we found insufficient evidence to assess AEs. Quality of evidence for CBT was mostly moderate, except for disability, which we rated as low quality. Further trials may provide more precise estimates of treatment effects, but to inform improvements, research should explore sources of variation in treatment effects. Evidence from trials of BT and ACT was of moderate to very low quality, so we are very uncertain about benefits or lack of benefits of these treatments for adults with chronic pain; other treatments were not analysed. These conclusions are similar to our 2012 review, apart from the separate analysis of ACT.
Amanda C de C Williams, Emma Fisher, Leslie Hearn, Christopher Eccleston
Plain language summary
What are the benefits and risks of psychological therapies for adults with persistent and distressing pain that is neither cancer‐related nor a headache?
Why this question is important
Many people experience pain that lasts more than three months that is neither cancer‐related nor a headache. The search for a diagnosis and pain relief is often long and can be discouraging. For some, persistent pain leads to disability, depression, anxiety and social isolation.
Psychological treatments (talking and behaviour therapies) aim to help people change the way they manage pain, to minimise disability and distress. To find out how effective these treatments are when delivered by a trained psychologist, and whether they cause any unwanted (adverse) effects, we reviewed the research evidence.
How we identified and assessed the evidence
First, we searched for all relevant studies in the medical literature. We then compared the results, and summarised the evidence from all the studies. Finally, we assessed the quality of the evidence. We considered factors such as the way studies were conducted, study sizes, and consistency of findings across studies. Based on our assessments, we rated the evidence as being of very low, low, moderate or high certain quality.
What we found
We found 75 studies that included 9401 people with a range of chronic pain conditions, including fibromyalgia, chronic low back pain, rheumatoid arthritis, and a mixture of persistent pain conditions. The average age of participants was 50, and the average duration of their pain was nine years. In the studies, people were followed for up to three years after the end of their treatment.
Studies evaluated the following psychological treatments: cognitive behavioural therapy (CBT, 59 studies), behavioural therapy (BT, eight studies), acceptance and commitment therapy (ACT, five studies) or another psychological therapy (six studies). We report the findings for the main treatment that was evaluated, CBT. CBT focuses on changing the way someone thinks and behaves, to help them manage their symptoms better. Results are averages for the whole population studied: individuals within the population may change more or less than the average.
The evidence suggests that:
‐ On average, compared to people who receive no treatment for their pain, people treated with CBT probably experience slightly less pain and distress by the end of the treatment and six to 12 months later (moderate‐quality evidence). They may also experience slightly less disability on average (low‐quality evidence).
‐ On average, compared to people who receive a non‐psychological treatment for their pain (such as an exercise programme, or education about managing pain), people treated with CBT probably experience very slightly less pain, disability and distress by the end of the treatment (moderate‐quality evidence). On average, six to 12 months later, they probably experience very slightly less pain and distress (moderate‐quality evidence), but levels of disability may be similar to those of people who received a non‐psychological treatment (low‐quality evidence).
We do not know if CBT causes more, fewer or similar numbers of adverse effects than no treatment or another treatment, because the evidence is of very low quality.
What this means
CBT has the largest evidence base of all the psychological therapies for persistent pain that we reviewed. The evidence indicates that :
‐ On average, when compared to no treatment or a non‐psychological treatment, CBT probably reduces pain and distress by small or very small amounts;
‐ On average, compared to no treatment, CBT may reduce levels of disability at the end of the treatment by a small amount. Compared to a non‐psychological treatment, CBT probably reduces disability at the end of the treatment by a very small amount on average.
‐ On average, compared to no treatment, CBT may make a small difference to disability six to 12 months after the treatment. Compared to a non‐psychological treatment, however, it may make little to no difference on average.
There is insufficient evidence to draw conclusions about the risks of CBT, and psychological therapies in general, for treating persistent pain.
How‐up‐to date is this review?
The evidence in this Cochrane Review is current to April 2020.
Amanda C de C Williams, Emma Fisher, Leslie Hearn, Christopher Eccleston
Implications for practice
For adults with chronic pain (excluding headache and migraine)
We have reasonable certainty from a large evidence base that cognitive behavioural therapy (CBT) can improve patient‐relevant outcomes for some adults with chronic pain, reducing pain and disability and improving distress. These findings were immediately after treatment and at follow‐up, when compared to active control (AC) or treatment as usual (TAU). The evidence overall is for small or very small beneficial effects. There is no evidence of a difference between behavioural therapy (BT) and control, or acceptance and commitment therapy (ACT) and control, for most outcomes, and the quality of the evidence for these treatments is mostly low or very low. There are other psychological treatments being investigated and offered but there is no evidence to support or refute claims made about their efficacy. We are not able to determine the safety of the treatments as adverse event reporting was low.
We have sufficient evidence to conclude that CBT has small beneficial effects for the management of chronic pain, although we have insufficient evidence on adverse effects. There is experimental development in other treatments such as ACT, emotional expression, and psychodynamic psychotherapy, but the evidence is insubstantial on either benefits or adverse effects.
For those commissioning psychologically‐based interventions for chronic pain in adults, or including such interventions in policy determinations, it is important to recognise that not all psychological treatments are the same. There is variety in the content, delivery, and clinical intentions of treatments, depending on their theoretical provenance. Interventions aim to reduce distress and disability, with or without a reduction in pain. The largest body of evidence we have supports the use, by trained psychologists, of CBT to produce benefits immediately after treatment and at follow‐up of at least six months, rather than providing no treatment. The evidence is sufficient (i.e. large and of moderate quality) and unlikely to change with future studies. The overall effects are small or very small, meaning that the population benefit may be large, but more work is needed to identify which patients will individually benefit. There is development in other treatments such as ACT, emotional expression, and psychodynamic psychotherapy, but these remain experimental and monitoring of positive and negative outcomes is advisable.
For funders of interventions
The evidence supports continuing to provide CBT for chronic pain, delivered by trained psychologists. There are no data here on health care reduction but an extension of the previous systematic review and meta‐analysis showed fewer consultations and interventions after psychologically‐based treatment (Pike 2016). Other psychological treatments, ACT, BT, and psychodynamic psychotherapy, should be monitored for the primary outcomes analysed here ‐ pain, disability, distress, and adverse effects ‐ and additionally, for health care use after intervention.
Implications for research
Given the quality of evidence, and the number of trials of CBT, there is no imperative for further randomised controlled trials (RCTs) of standard CBT. Funding should not be allocated to small trials investigating the efficacy of CBT in people with chronic pain, regardless of condition (Ioannidis 2005), since there is a high risk of research waste (Glasziou 2018). Funders should instead focus efforts on investing in large, multi‐centre studies investigating different types of psychological therapies for people with chronic pain, including extension of established CBT methods for those with psychiatric co‐morbidities, mild cognitive deficits or learning disabilities, opioid overuse, and those otherwise under‐represented in populations studied. All trials should make individual patient data available to enable individual patient analysis and to allow data pooling to identify sources of variance, since some may suggest ways to maximise treatment benefits. There is extensive interest and pre‐clinical study in behavioural treatment content but its translation into clinical studies has been small scale. There is much enthusiasm for ACT as shown in non‐Cochrane reviews which include many small trials, and which report beneficial outcomes, but there is no high quality evidence to support such findings. High quality, adequately powered trials are needed, preferably multi‐centre and run by investigators with equipoise. There is a need for better translation of discovery research in experimental psychology into clinical development to guide therapy content and delivery, and single case methods may be particularly appropriate here (Morley 2017). There is also a need for high quality trials in novel treatments for which there is insufficient evidence: behavioural interventions such as graded activity and exposure, psychodynamic psychotherapy, and emotion focused psychotherapy.
A substantial minority of studies recruited volunteer participants from the community, with self‐reported chronic pain, rather than from clinical populations. While not denying the widespread extent of chronic pain and related disability in the community, baseline scores tended to be low on clinical scales such as for disability and distress, with possible floor effects for change. Separate analysis of clinical and community populations would be worthwhile in a future update. Many trials claim to deliver CBT or other psychological interventions, but without evidence that the treatment was authentic. Here we have used the level of training of therapists delivering it as some guarantee of internal validity but, where therapists are untrained or minimally trained, and treatment content and process are not independently validated by expert observers, there can be no assumption of benefit until demonstrated.
A good study design will have: a clear rationale for the treatment that hypothesises how the intervention is thought to work, and how therapy content, described in detail (Hoffmann 2014), might affect the outcomes of interest (Montgomery 2018), and for the choice of comparator; a protocol with power analysis; prespecified outcomes, including adverse effects, and justification for the choice of measurement instruments; adequate power with sufficient participants to allow for attrition over the trial and follow‐up periods and to detect clinically meaningful differences in the selected outcomes. Standard corrections for known biases should be made, and triallists should aim for equipoise and independence from therapist allegiance to the treatment delivered.
Use of standard measures would improve comparability across studies. Many studies adopt the Initiative on Methods, Measurement, and Pain Assessment in Clinical Trials (IMMPACT) criteria (Dworkin 2005), but there remains a plethora of heterogeneous measurement tools for subjective experiences, with varied content within domains, and few behavioural measures supplementing self‐report. It is a particular problem of some experimental therapies that the primary outcome is a psychological abstraction that characterises presumed process rather than outcome (such as ‘acceptance’); these abstractions are variably understood or misunderstood by patients (Biguet 2016). They are also hard to translate into metrics of clinical benefits (Morley 2008). Additionally, people with chronic pain identify a far wider range of outcomes than are conventionally assessed (Beale 2011), including patient‐reported experience scales (PREMs). Assessment of treatment benefits in terms of reduced costs, in health and social care, and incurred by patients, is generally lacking. Although their identification and standardised assessment is a high priority, adverse effects are poorly assessed across interventions (Palermo 2020). Adverse effects including worsening of distress and other reasons for dropout.Get full text at The Cochrane Library
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