Objective To systematically review evidence of primary outcomes from randomised controlled trials (RCTs) examining the effect of treatment strategies on quality of life (QoL) or psychosocial factors in individuals with knee osteoarthritis (OA).
Design Systematic review with meta-analysis.
Data sources Medline, Embase, SPORTDiscus, the Cumulative Index to Nursing and Allied Health Literature (CINAHL) and Web of Science were searched from inception to November 2017.
Eligibility criteria for selecting studies We included RCTs investigating the effect of conservative interventions on QoL or psychosocial factors in individuals with knee OA. Only RCTs considering these outcomes as primary were included.
Results Pooled data supported the use of exercise therapy compared with controls for improving health-related and knee-related QoL. There was limited evidence that a combined treatment of yoga, transcutaneous electrical stimulation and ultrasound may be effective in improving QoL. Limited evidence supported the use of cognitive behavioural therapies (with or without being combined with exercise therapy) for improving psychosocial factors such as self-efficacy, depression and psychological distress.
Summary/Conclusion Exercise therapy (with or without being combined with other interventions) seems to be effective in improving health-related and knee-related QoL or psychosocial factors of individuals with knee OA. In addition, evidence supports the use of cognitive behavioural therapies (with or without exercise therapy) for improving psychosocial factors such as self-efficacy, depression and psychological distress in individuals with knee OA.
PROSPERO registration number CRD42016047602.
- exercise rehabilitation
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Osteoarthritis (OA) is one of the leading causes of musculoskeletal pain and disability worldwide,1 with knee OA affecting up to one-third of people aged over 60 years.2 Overall, most individuals with knee OA have chronic pain,3 which is a multidimensional experience that influences their quality of life (QoL).4
Abnormalities on imaging do not account for all symptoms in individuals with knee OA.5 Biopsychosocial models suggest that pain is a complex interaction of factors such as structural damage, peripheral and central pain processing mechanisms, culture, sex, and psychosocial factors.6 According to the biopsychosocial model, chronic pain is influenced by a variety of physical and psychosocial factors, including individuals’ reaction to pain, which is a product of their thoughts and beliefs (cognitions).4 Recently, a systematic review (SR) found evidence for a relationship between psychosocial factors and knee OA.4 Individuals with knee OA can have psychological impairments related to coping, self-efficacy, somatising, pain catastrophising and helplessness.4
The physical and psychosocial impairments in individuals with knee OA have an impact on QoL due to their influence on social interactions, mental functioning and sleep quality.7 QoL refers to the physical, psychological and social domains of health that are influenced by a person’s experiences, beliefs, expectations and perceptions.8 Individuals with knee OA have inferior QoL compared with controls.7 9 Therefore, therapies that improve QoL in individuals with knee OA may mitigate the clinical, economic and social burden of this disorder.7 The purpose of this SR was to synthesise evidence of primary outcomes of randomised controlled trials (RCTs) examining the effect of treatment strategies on QoL or psychosocial factors in individuals with knee OA.
This SR has been completed and reported through consultation with the Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines for the reporting of SRs and meta-analyses,10 and the SR protocol was registered with PROSPERO (trial registration number: CRD42016047602).
Deviations from study protocol
Initially, we planned to investigate the effect of any intervention (surgical and conservative) on QoL or psychosocial factors. However, due to the vast differences in outcomes, patient recovery, and type and volume of healthcare utilisation between patients with knee pathology who received conservative care versus those who opt for surgery,11 we limited this SR to evaluating the effect of conservative (non-surgical) interventions to increase statistical homogeneity. In addition, applying the Template for Intervention Description and Replication (TIDieR) checklist and guide to evaluate how well the interventions were described in the RCTs was decided afterwards. This checklist can inform to what extent the description of the interventions applied in the RCTs was complete and any aspects that are missing. Lastly, the authors were initially interested in investigating the effect of interventions in two common knee disorders, knee OA and patellofemoral pain. However, since no studies were found for patellofemoral pain, this SR is limited to knee OA.
Data sources and search strategy
Electronic searches of Medline via PubMed, Embase via Ovid, SPORTDiscus, the Cumulative Index to Nursing and Allied Health Literature (CINAHL) via Ebsco and Web of Science were performed from database inception to November 2017. An example of the search strategies can be seen in online supplementary appendix 1. The electronic search was complemented by hand searching the references of the retrieved articles.
Supplementary file 1
Inclusion and exclusion criteria
We included RCTs that investigated the effect of any conservative intervention on QoL or psychosocial factors (cognitive or behavioural) in individuals with knee OA. Cognitive factors include coping, self-efficacy, somatisation, pain catastrophising and helplessness; behavioural factors include kinesiophobia (pain-related fear of movement) and pain-related fear avoidance. The primary outcome of RCTs provides the basis for the estimation of sample size, and therefore increases the chances that the study is sufficiently powered to find differences in this specific outcome and the intervention has a higher chance of being targeted to the primary outcome.12 13 Thus, focusing on the primary outcome of RCTs is highly recommended as an improvement to methodological rigour.12 Therefore, only RCTs that have considered these outcomes as their primary outcome were included in our SR. Abstracts, posters, unpublished studies, non-RCTs, RCTs that did not include QoL or psychosocial factors as primary outcome, and RCTs that did not specify what was the primary outcome were excluded.
An outcome was considered to be ‘primary’ if the RCT described the outcome as a ‘primary’, ‘key’ or ‘main’ outcome in the publication (regardless of whether a power calculation was performed). For studies that did not specify a primary outcome, the outcome used in the power analysis was considered as the primary outcome. If there was no description of which outcome was the primary and a power analysis was not performed, the study was excluded.
Participants were limited to human, given an established diagnosis of knee OA (tibiofemoral and/or patellofemoral joints) according to accepted criteria.14 Participants were required to present with usual pain equal or higher than 3 on a 10-point scale for a duration of at least 6 months and with at least three of the following: (1) radiographically confirmed knee OA (ie, a score of more than 2 on the Kellgren-Lawrence Scale); (2) to be over 50 years of age with physician-diagnosed knee OA; (3) to suffer from morning stiffness that is relieved in less than 30 min; (4) to have crepitus during active motion; and (5) to show bony tenderness or enlargement without joint warmth.14 For studies that recruited mixed (symptomatic) populations, we included only those that reported separately the data on individuals with knee OA. The control group was composed of individuals with the same disorder as those included in the treatment group. There were no other restrictions on the comparison group. There was no restriction on sex, age and year of publication. Language was limited to English or Portuguese. In case of insufficient data, all the authors of the studies were contacted via email. If the authors could not provide the missing data or did not reply to the request after three attempts, the study was excluded.
A single investigator (RVB) exported all studies identified by the search strategy to EndNote V.X7.5 (Thomson Reuters, Philadelphia), then cross-referenced and deleted duplicates. Titles and abstracts were screened independently by two researchers (RVB and ASF) for eligibility. Full-text articles of potentially relevant abstracts were retrieved for further review. Any discrepancies were resolved during a consensus meeting, and a third reviewer was available (MFP) if needed.
Methodological quality assessment
The Physiotherapy Evidence Database (PEDro) was used to evaluate the quality of the studies. This is a validated and reliable appraisal tool designed to assess the risk of bias in clinical trials consisting of 11 items.15 Based on this scale, studies were rated as high-quality (≥7/10), moderate-quality (4–6/10) and low-quality (≤3/10).16 When available, the score was obtained from PEDro database. When not available, two reviewers (RVB and ASF) independently assessed the quality of the included studies. Then, the TIDieR checklist and guide was used to evaluate how well the interventions were described.17 The TIDieR checklist and guide was developed to improve the reporting of interventions across different designs of studies, such as trials, case–control and cohort studies.17 In order to adapt it to the study’s purpose, a template similar to the PEDro scale was created. Therefore, based on this scale, studies were rated as good intervention description (≥9/12), moderate intervention description (6–8/12) and poor intervention description (≤5/12).17 18 It is important to acknowledge that this was a customised rating classification since there is currently no rating classification in the literature. For both scales, any discrepancies were resolved during a consensus meeting, and a third reviewer was available (MFP) if needed. We did not evaluate the publication bias domain in this SR as it is not recommended to assess funnel plot asymmetry with a meta-analysis of fewer than 10 trials.19
Assessment of risk of bias
Two authors (RVB and ASF) independently assessed the risk of bias of the included studies using the Cochrane risk of bias tool.19 Any disagreements were resolved during a consensus meeting, adjudicated if necessary by a third reviewer (MFP). The following domains were assessed: random sequence generation; allocation concealment; blinding of participants and personnel; blinding of outcome assessment; incomplete outcome data; selective reporting; and other bias. Other sources of bias were imbalances in baseline characteristics; lack of comparability in clinicians’ experience with the interventions under test; and compliance with the intervention. The domains were classified as low risk of bias, high risk of bias and unclear risk of bias (where ‘unclear’ relates to lack of information or uncertainty over the potential for bias).19
Study characteristics including publication details (author and year), participant characteristics (age, sex, body mass index (BMI) and number of participants in each group), outcome measure (QoL, self-efficacy, coping strategies, helplessness and pain catastrophising), treatments applied in the intervention and control groups, and a summary of main findings were extracted from each included study. In terms of QoL, health-related (eg, 36-Item Short-Form Health Survey, SF-36) and knee-related (eg, Knee Injury and Osteoarthritis Outcome Score) instruments were considered as outcomes according to recommendations.8 20 Incorporating generic and disease-specific outcome measurements is important to study the health status when evaluating the effect of treatments on QoL.21 All outcomes included in this SR have been previously validated (with their psychometric properties tested) as per the validation studies.22–34 For meta-analysis of data, means and SD post treatment were sourced from the original papers when available, or by contacting the authors via email when these data were missing.
Data management and statistical analysis
Data analysis was completed using the Review Manager Software Package RevMan V.5.3. Data were pooled where studies investigated similar interventions (ie, intervention with the same purpose, eg, muscle strengthening) using comparable outcome measures (eg, SF-36 and Assessment of Quality of Life). Data that could not be pooled were summarised in forest plots (without an overall pooled estimate of effect) to allow easy visualisation of the results. We calculated the standardised mean differences (SMD) with 95% CIs for both pooled and unpooled continuous data from the end of treatment. Meta-analyses were performed using a random-effects model for analyses and pooled point estimate and 95% CIs were calculated with tests of heterogeneity. The impact of heterogeneity on meta-analysis results was quantified by the I² statistic. Also, when appropriate, sensitivity analyses were performed considering the effects of risk of bias by excluding trials with high risk of bias. Following methodology proposed by Hume et al,35 calculated individual or pooled SMDs were categorised as small (≤0.59), medium (0.60–1.19) or large (≥1.20). These criteria were chosen to increase rigour compared with traditional criteria.36 Levels of evidence for each finding were established based on an updated version of van Tulder’s criteria37:
strong: provided by pooled results derived from three or more studies, including a minimum of two high-quality studies, which were statistically homogeneous (P>0.05); may be associated with a statistically significant or non-significant pooled result
moderate: provided by statistically significant pooled results derived from multiple studies that were statistically heterogeneous (P<0.05), including at least one high-quality study; or from multiple low-quality studies, which were statistically homogeneous (P>0.05)
limited: provided by results from one high-quality study or multiple low-quality studies that are statistically heterogeneous (P<0.05)
very limited: provided by results from one low-quality study
conflicting evidence: provided by inconsistent findings among multiple trials and derived from multiple studies regardless of quality that are statistically heterogeneous.
Search results and a flow diagram of study selection are summarised in figure 1. Initially, 24 studies were eligible for inclusion in this SR. However, one data set was duplicated and published in two different manuscripts38 39; therefore, the later one was excluded.38 From the 23 studies included in this SR, most studies (n=19) evaluated QoL,39–57 one study evaluated self-efficacy,56 one study evaluated helplessness,58 one evaluated pain catastrophising,56 two evaluated coping strategies,56 59 one evaluated depression and psychological distress,60 and one evaluated cognitive symptom management (CSM)61 in individuals with knee OA. The study of Broderick et al 56 considered more than one outcome as primary.
Participants’ characteristics of included studies
Across all studies, there were 3668 participants with knee OA (2607 women: 71.1%). The mean age ranged from 56.8 to 67.0 years old and the BMI ranged from 26.4 to 33.7. Of the 3668 participants, 1991 (54.3 %) were included in the intervention groups and 1677 (45.7 %) were included in the control groups. Details of characteristics of each study are outlined in online supplementary appendix 2, and the overall characteristics of the excluded studies are presented in online supplementary appendix 3 .
Supplementary file 2
Supplementary file 3
Methodological quality assessment
The agreements between raters in terms of PEDro scale and TIDieR checklist were 83.3% and 80.5%, respectively. Quality assessment results are presented in online supplementary appendices 4 and 5. Twelve studies were classified as high quality41 43 44 46 48 49 52 53 55 56 59 60 and 11 studies were classified as moderate quality.39 40 42 45 48 50 51 54 57 58 61 Inadequate blinding of subjects and therapists, and concealed allocation to groups, were the most common methodological limitations. Regarding TIDieR checklist, 11 studies had a good description of the interventions,40 43–45 47 51 53 54 56 59 60 11 studies had a moderate description39 42 46 48–50 52 55 57 58 61 and 1 study had a poor description.41 The most common items lacking were (1) describing the intervention provider and their expertise, background and any specific training given; (2) providing information on where physical or informational materials used in the intervention can be accessed; and (3) describing if intervention adherence or fidelity was assessed, how and by whom, and if any strategies were used to maintain or improve fidelity.
Risk of bias in included studies
Full descriptions of the risk of bias for the 23 trials are provided in online supplementary appendix 6 and in figures 2 and 3. Overall, the domains with the highest risk of bias were (1) blinding of participants, (2) clinicians’ experience and (3) blinding of outcome assessment.
Supplementary file 6
Effects of interventions
Meta-analyses could only be performed for QoL due to the low number of studies investigating psychosocial outcomes. A detailed description of each intervention of all studies included in this SR is presented in online supplementary appendix 7.
Supplementary file 7
Effects of interventions on QoL
Exercise therapy versus control on health-related QoL
There was moderate evidence with medium effect from four studies (532 participants) favouring exercise therapy to improve QoL of individuals with knee OA compared with no treatment, self-management or anti-inflammatory drugs (SMD=0.70, CI 0.20 to 1.20, P=0.006, I²=84%)39 42 45 51 (figure 4A). Exercise therapy was superior in improving health-related QoL compared with self-management booklets (SMD=0.39, CI 0.05 to 0.73)51 and anti-inflammatory drugs (SMD=0.47, CI 0.11 to 0.83).45 Pooled data from two studies (249 participants)39 42 showed that exercise therapy was as effective as no treatment in improving health-related QoL (SMD=1.68, CI −1.04 to 4.40). However, on removal of Aglamiş et al’s study39 due to the high risk of bias (presented high risk of bias in six out of nine domains), the results were in favour of exercise therapy in improving health-related QoL compared with no treatment (SMD=0.36, CI 0.11 to 0.36), and the high heterogeneity of the overall effect was reduced to I²=0%.
Exercise therapy versus control on knee-related QoL
Overall, there was moderate evidence with small effect from two studies (149 participants) that exercise therapy was superior in improving knee-related QoL compared with no treatment or self-management booklet (SMD=0.43, CI 0.10 to 0.75) (figure 4B). Specifically, exercise therapy was superior in improving knee-related QoL compared with self-management booklet (SMD=0.59, CI 0.16 to 1.02).53 Exercise therapy was as effective as no treatment (SMD=0.21, CI −0.30 to 0.71).54
Physical activity plus self-management booklet versus self-management booklet alone
There was moderate evidence from two studies40 48 (395 participants) that physical activity plus self-management booklet was as effective as a self-management booklet alone in improving QoL of individuals with knee OA (SMD=0.00, CI −0.20 to 0.20, P=0.98, I²=0%) (figure 5A).
Self-management programme (meetings) versus control (no treatment or self-management booklet)
There was strong evidence from three studies41 56 57 (1143 participants) that self-management programmes (meetings) were as effective as a self-management booklet in improving QoL in individuals with knee OA (SMD=0.01, CI −0.18 to 0.21, P=0.89, I2=46%) (figure 5B). There was limited evidence from one study (136 participants)43 that a self-management programme was as effective as no treatment in improving QoL in individuals with knee OA (SMD=0.33, CI −0.01 to 0.67, P=0.06). There was strong evidence from four studies (1279 participants) that self-management programmes (meetings) were as effective as control (self-management booklet or no treatment) in improving QoL of individuals with knee OA (SMD=0.07, CI −0.12 to 0.26, P=0.47, I2=51%).
Effects of other interventions on QoL
There was limited evidence with medium effect favouring the experimental group that an integrated approach of yoga, transcutaneous electrical stimulation and ultrasound compared with exercise therapy, transcutaneous electrical stimulation and ultrasound (SMD=0.65, CI 0.40 to 0.90)46 was superior in improving QoL in individuals with knee OA (figure 6).
There was limited evidence that (1) moxibustion treatment compared with placebo (SMD=0.09, CI −0.24 to 0.43)52; (2) short-term monochromatic infrared energy compared with placebo (SMD=−0.09, CI −0.55 to 0.37)47; (3) methylsulfonylmethane supplementation compared with placebo (SMD=0.42, CI −0.14 to 0.98)44; (4) Tai Chi Qigong compared with no treatment (SMD=0.46, CI −0.17 to 1.09)49; and (5) enzymatic hydrolysed collagen compared with glucosamine sulfate (SMD=0.12, CI −0.28 to 0.53)55 were as effective in improving QoL of individuals with knee OA (figure 6).
There was very limited evidence with small effect that a telephone-monitored exercise was as effective as clinic-based exercise (SMD=0.03, CI −0.52 to 0.59)50 in improving QoL in individuals with knee OA (figure 6).
Effects of interventions on psychosocial factors
Effects of interventions on CSM
There was very limited evidence from one study61 with small effect in favour of a combined self-management programme and exercise intervention to improve CSM of individuals with knee OA compared with self-management programme only (SMD=0.52, CI 0.03 to 1.01) (figure 6).
Effects of interventions on helplessness
There was limited evidence from one study58 that a care-based, nurse-led education programme was as effective as an education booklet in improving helplessness in individuals with knee OA (SMD=−0.20, CI −0.54 to 0.14) (figure 6).
Effects of interventions on coping strategies
Two studies evaluated the effect of interventions on coping strategies. There was limited evidence from two studies56 59 that a 10-week physiotherapist-delivered, combined exercise and pain-coping skills training intervention was as effective as 10 weeks of exercise integrated with non-directive counselling (SMD=0.39, CI −0.50 to 1.28),59 and a coping skills training programme was as effective as usual care (SMD=0.24, CI −0.00 to 0.49)56 in improving coping strategies in individuals with knee OA (figure 6).
Effects of interventions on self-efficacy
There was limited evidence from one study56 with medium effect in favour of coping skills training to improve self-efficacy in individuals with knee OA compared with usual care (SMD=0.62, CI 0.37 to 0.87) (figure 6).
Effects of interventions on pain catastrophising
There was limited evidence from one study56 that coping skills training was as effective as usual care in improving pain catastrophising in individuals with knee OA (SMD=0.19, CI 0.43 to −0.06) (figure 6).
Effects of interventions on depression
There was limited evidence from one study60 with medium effect that an internet-based cognitive behaviour therapy on depression improves depression in individuals with knee OA compared with treatment as usual (SMD=1.01, CI 1.55 to 0.47) (figure 6).
This SR identified 23 RCTs that considered QoL or psychosocial factors as primary outcomes.39–61 Exercise therapy was more effective than control (no treatment, self-management booklet or anti-inflammatory drugs) in improving QoL in individuals with knee OA. Individual data demonstrated limited evidence that a combined treatment of yoga, transcutaneous electrical stimulation and ultrasound46 may be effective in improving QoL of individuals with knee OA. Limited evidence supports the use of cognitive behavioural therapies (with or without being combined with exercise therapy) for improving psychosocial factors such as self-efficacy, depression and psychological distress.56 60
Our findings support the last Osteoarthritis Research Society International (OARSI) guidelines for the non-surgical management of knee OA,62 which recommend exercise therapy (land-based and/or water-based) for improving pain63 64 and function.65 We found that exercise therapy also improved health-related and knee-related QoL. The OARSI recommendations are based on four meta-analyses,63–66 in which the duration and type of exercise programmes varied widely, but interventions included a combination of elements such as strength training, active range of motion exercises and aerobic activity.62 Similarly, studies from this SR reported that hip and quadriceps strength training, walking programmes, functional exercises, endurance and balance training improved health-related and knee-related QoL. Additionally, a recent study provided an overview of Cochrane reviews to determine the effectiveness of different exercise interventions on pain, physical function and QoL in adults with chronic pain.67 Twenty-one Cochrane reviews were included, and the available evidence suggests that exercise therapy is an intervention with few adverse events that improves pain severity and physical function, and subsequently QoL.67 Our findings extend these findings, demonstrating that exercise therapy has positive effects on health-related and knee-related QoL in individuals with knee OA when compared with no treatment, education and anti-inflammatory drugs.
Self-management programmes (meetings) did not improve health-related QoL when compared with a self-management booklet. Despite recommending self-management as appropriate for reducing pain in individuals with knee OA, OARSI guidelines62 express reservations about the efficacy and practicality of such interventions. Findings from our SR do not support the recommendation of self-management alone to improve QoL in individuals with knee OA. However, caution in interpreting this finding should be exercised due to the lack of studies considering QoL as a primary outcome.
Adding physical activity to self-management education (booklet) did not improve health-related QoL when compared with self-management booklet only. The intensity of the physical activity performed in these studies was lower than in those entered in the exercise therapy meta-analysis, which may explain the conflicting findings.68 A recent SR investigated the benefits and harms of high-intensity versus low-intensity physical activity or exercise programmes in individuals with knee OA.68 No conclusive evidence could be drawn due to the small number of studies. However, individuals with knee OA who perform high-intensity exercise may experience slight improvements in knee pain and function at the end of the exercise programme when compared with a low-intensity exercise programme.68 Regarding QoL, the high-intensity exercise led to small but superior improvements in QoL.69 However, caution in interpreting this finding should be taken since only one study investigated this outcome.
Yoga combined with transcutaneous electrical stimulation and ultrasound, compared with exercise therapy, transcutaneous electrical stimulation and ultrasound, improved QoL in individuals with knee OA.46 Mind-body exercises are promising approaches to reduce pain and improve physical function in individuals with knee OA,70 although conflicting findings were reported for QoL.71 Similar to our findings, two reviews reported that yoga interventions have positive effects on QoL.70 71 However, more RCTs with adequate sample sizes should be conducted before stronger recommendations can be made.70 71
In terms of psychosocial outcomes, there was a beneficial effect of pain-coping skills training (10 individual weekly sessions at the doctor’s office)56 on self-efficacy. An internet-based cognitive behavioural therapy (six online lessons) was also effective in improving depression and psychological distress,60 which may negate the necessity of meetings at the clinician’s office for educational interventions. For many, accessing specialist clinicians to prescribe and supervise these treatments may be difficult due to cost, transportation issues or geographical location. In this context, a recent RCT found that, for individuals with chronic knee pain, an internet-delivered, physiotherapist-prescribed exercise and pain-coping skills training provides clinically meaningful improvements in pain and function that are sustained for at least 6 months.72 Therefore, internet-delivered treatment may be also effective in improving psychosocial outcomes, although more research is needed in this emerging area of research.
There are limitations that need to be considered when interpreting the findings of this SR. We included only RCTs that considered QoL or psychosocial factors as primary outcome to enhance methodological rigour. However, some effective interventions to psychosocial factors or QoL could be missed in RCTs that evaluated psychosocial factors or QoL as secondary outcomes. Publications in languages other than English or Portuguese were not included in our SR, meaning there is a risk for publication bias. The vast majority of studies in other languages tested a pharmaceutical intervention on knee OA, and based on the abstract most did not meet the inclusion criteria. Care should be taken in interpreting the results of this SR since blinding of personnel and outcome assessment was rated as high risk of bias in several studies. Due to the nature of the interventions (eg, exercise therapy compared with no treatment), blinding of personnel and outcome assessment was impractical in many studies.
Despite the evidence presented in this SR, there is a need for further studies investigating the effects of interventions on psychosocial factors in individuals with knee OA. In addition, our findings indicate that the description of the interventions performed in RCTs must be improved as clinicians may not be able to replicate the applied interventions in a clinical environment and researchers cannot replicate them in further RCTs. For instance, from the studies of exercise therapy included in the meta-analyses, two studies39 42 scored less than 8 (moderate description) in the TIDieR checklist. This makes the findings of the studies difficult to replicate as clinicians are not able to reproduce the interventions in a clinical environment. Also, half of the studies included in our SR were classified as moderate quality in the PEDro checklist, suggesting much of the published data could be biased.
Exercise therapy may be an effective intervention to improve health-related and knee-related QoL in individuals with knee OA. Limited evidence supported the use of exercise therapy alongside self-management programmes to improve psychosocial factors such as CSM. There was limited evidence that combined yoga, transcutaneous electrical stimulation and ultrasound may improve QoL in individuals with knee OA; however, further research is still needed. Limited evidence supported the use of cognitive behavioural therapies (with or without exercise therapy) for improving psychosocial factors such as self-efficacy, depression and psychological distress.
What is already known on this subject?
Knee osteoarthritis (OA) is highly prevalent and challenging to manage.
Individuals with knee OA frequently report poor quality of life (QoL).
Individuals with knee OA frequently report impaired psychosocial function.
Interventions that can improve QoL and psychosocial factors are fundamental to managing knee OA.
What are the findings?
Exercise therapy improves health-related and knee-related QoL in individuals with knee OA.
Self-management meetings are as effective as booklets in improving QoL in individuals with knee OA.
Limited evidence supports the use of cognitive behavioural therapies (with or without exercise therapy) for improving psychosocial factors in individuals with knee OA.
Supplementary file 4
Supplementary file 5
Contributors RVB and ASF were responsible for the systematic search, data extraction and methodological quality appraisals. All authors were involved in the study design, drafting and manuscript editing.
Funding This research did not receive any specific grant from funding agencies in the public, commercial or not-for-profit sectors. RVB, ASF, MFP, and DOS are funded by São Paulo Research Foundation (FAPESP) with scholarships (numbers: 2017/483-7, 2016/02357-1, 2016/19784-0, 2015/17777-3). FMA is funded by FAPESP with a grant (number: 2014/24939-7).
Competing interests None declared.
Patient consent Not required.
Provenance and peer review Not commissioned; externally peer reviewed.
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