Long term maintenance of weight loss with non-surgical interventions in obese adults: systematic review and meta-analyses of randomised controlled trials
BMJ 2014; 348 doi: https://doi.org/10.1136/bmj.g2646 (Published 14 May 2014) Cite this as: BMJ 2014;348:g2646- S U Dombrowski, lecturer in health psychology12,
- K Knittle, health psychology research associate13,
- A Avenell, clinical chair in health services research4,
- V Araújo-Soares, senior lecturer in health psychology1,
- F F Sniehotta, reader in health psychology1
- 1Institute of Health and Society, Newcastle University, Baddiley-Clark Building, Newcastle upon Tyne NE2 4AX, UK
- 2School of Natural Sciences, University of Stirling, Cottrell Building, Stirling FK9 4LA, UK
- 3MoveLab - Physical Activity and Exercise Research Group, Institute of Cellular Medicine, Newcastle University, Newcastle upon Tyne NE2 4HH, UK
- 4Health Services Research Unit, Health Sciences Building, University of Aberdeen, Aberdeen AB25 2ZD, UK
- Correspondence to: F F Sniehotta falko.sniehotta{at}ncl.ac.uk
- Accepted 24 March 2014
Abstract
Objective To systematically review and describe currently available approaches to supporting maintenance of weight loss in obese adults and to assess the evidence for the effectiveness of these interventions.
Design Systematic review with meta-analysis.
Data sources Medline, PsycINFO, Embase, and the Cochrane Central Register of Controlled Trials.
Study selection Studies were identified through to January 2014. Randomised trials of interventions to maintain weight loss provided to initially obese adults (aged ≥18) after weight loss of ≥5% body weight with long term (≥12 months) follow-up of weight change (main outcome) were included.
Study appraisal and synthesis Potential studies were screened independently and in duplicate; study characteristics and outcomes were extracted. Meta-analyses were conducted to estimate the effects of interventions on weight loss maintenance with the inverse variance method and a random effects model. Results are presented as mean differences in weight change, with 95% confidence intervals.
Results 45 trials involving 7788 individuals were included. Behavioural interventions focusing on both food intake and physical activity resulted in an average difference of −1.56 kg (95% confidence interval −2.27 to −0.86 kg; 25 comparisons, 2949 participants) in weight regain compared with controls at 12 months. Orlistat combined with behavioural interventions resulted in a −1.80 kg (−2.54 to −1.06; eight comparisons, 1738 participants) difference compared with placebo at 12 months. All orlistat studies reported higher frequencies of adverse gastrointestinal events in the experimental compared with placebo control groups. A dose-response relation for orlistat treatment was found, with 120 mg doses three times a day leading to greater weight loss maintenance (−2.34 kg, −3.03 to −1.65) compared with 60 mg and 30 mg three times a day (−0.70 kg, 95% confidence interval −1.92 to 0.52), P=0.02.
Conclusions Behavioural interventions that deal with both diet and physical activity show small but significant benefits on weight loss maintenance.
Introduction
Obesity is one of the greatest causes of preventable morbidity and mortality worldwide,1 with weight loss associated with reductions in risk of morbidity and mortality.2 Evidence from systematic reviews suggests that long term weight loss through changes in eating and physical activity is possible,3 even in adults who have already acquired obesity related illness,4 and effective weight loss programmes are now available.5 Wardle and colleagues reported that 28% of adults in the United Kingdom claimed to be actively trying to lose weight.6 In a population survey based in the United States, Nicklas and colleagues found that that 63% of obese participants had attempted to lose weight over the past 12 months, of whom 40% had succeeded in losing ≥5% of their initial weight and 20% had succeeded in losing ≥10%.7 Though formal behaviour change interventions and self guided efforts at individual behaviour change are successful in inducing weight loss, however, few people manage to maintain these changes in weight over the long term.8 Weight loss from behavioural interventions typically peaks at around six months into the weight loss attempt, followed by gradual regain of weight in most individuals.3 4 As maintenance of the weight loss is crucial to uphold health benefits,9 understanding how best to support people in sustaining weight loss is paramount to controlling the obesity epidemic and its consequences.
Compared with initiation of weight loss, the evidence base for maintenance of weight loss is in its infancy. A recent systematic review of 13 randomised controlled trials examining effects of “extended care” for weight loss maintenance reported an average 3.2 kg difference in weight regain between extended care and no or minimal additional contact.10 Other reviews that have examined weight loss maintenance studies confirm the potential of successful maintenance treatment, although there is considerable heterogeneity between studies. Currently available reviews are limited by not using meta-analyses,11 12 13 14 no separation of studies focused on weight loss or maintenance,11 12 the use of restrictive inclusion criteria focusing on specific subsets of non-surgical studies,10 11 12 inclusion of non-randomised trials,12 13 or a lack of systematic identification of studies.13 To date, no comprehensive systematic review of long term effects of non-surgical treatments for maintenance of weight loss tested in randomised controlled trials is available to examine the effects of different treatments in the prevention of weight regain. We describe currently available non-surgical interventions for weight loss maintenance and have synthesised the randomised controlled evidence for the effectiveness of interventions and intervention delivery features.
Methods
The systematic review was conducted in line with Cochrane recommendations15 following a pre-specified protocol.
Eligibility criteria
Types of studies—We included randomised controlled trials or cluster randomised controlled trials with participants randomised to a weight maintenance intervention compared with a control condition or another intervention, or both, and ≥12 months’ follow-up of weight outcomes from inception of the maintenance intervention.
Types of participants—Participants were adults (aged ≥18, no upper age limit) who had, or had had, an average BMI of ≥30 and lost ≥5% of their body weight/mass within 24 months before weight loss maintenance treatment. We excluded studies that recruited participants with established mental health conditions, including eating disorders, and conditions requiring treatment with antipsychotic drugs.
Type of interventions—Any behavioural/lifestyle, pharmacological (with European Medicines Agency approval for weight loss), food replacement/supplement, or alternative interventions, singly or in combination were included. We excluded surgical interventions.
Types of outcomes—Primary outcome was weight at 12 months from randomisation to the weight loss maintenance intervention. Weight could be reported as absolute weight change during the trial including the weight loss phase, weight change during the maintenance treatment period, or final weight values.
Types of reports—Full text reports in any language from 1946 to January 2014.
Electronic searches
We searched the electronic databases Medline, PsycINFO, Embase, and Cochrane Central Register of Controlled Trials (CENTRAL) using a comprehensive search strategy. We also conducted hand searches of all references of included studies and those of previous relevant reviews.10 13 14
Study selection
Three authors (SUD, FFS, and VA-S) double scanned all references identified through the search strategy for initial selection. Full texts of potentially eligible studies were obtained, and two authors (SUD, FFS) verified inclusion using a prespecified eligibility form.
Data extraction
We extracted risk of bias items, modes of intervention delivery, study design, study flow, participant details, outcome measures, and funding source. Risk of bias was assessed based on the Cochrane Collaboration’s tool.15 Intervention delivery was assessed based on the criteria of Davidson and colleagues,16 including intervention provider, format and delivery, setting, duration and intensity, and materials. Two researchers per study (from SUD, KK, VAS) coded intervention delivery based on published articles as well as publicly and freely available protocols and full manuals. Disagreements were resolved by a third researcher (FFS). One researcher (SUD) extracted study information and modes of intervention delivery, which were checked by another (KK). Two researchers (SUD, KK) independently assessed risk of bias. Disagreements were resolved by a third researcher (FFS).
Data analysis
All inter-rater agreements for risk of bias items were assessed with Krippendorf’s α (which ranges from 1 (perfect agreement) to 0 (no agreement) and has been found to be superior to other reliability coefficients17). Studies reporting sufficient data to calculate mean differences in weight change in kg with 95% confidence intervals were considered for meta-analysis (RevMan version 5.1). Meta-analyses combined weight changes overall (that is, including an initial weight loss phase) or weight change of the maintenance phase only. When a choice of weight related outcome measures was available (such as completer only versus baseline observation carried forward) we chose the most conservative effect estimate provided. When studies reported average weight at baseline and follow-up we calculated weight change by subtracting the final from the initial weight at the start of maintenance. Standard deviations for weight change were imputed according to the formula provided Avenell and colleagues.3 Data that were reported only in graphical form18 19 20 were digitised with Engauge Digitizer, version 4.1 (http://sourceforge.net), to extract data in the most precise and replicable manner possible. All pooled effects were calculated as mean difference in weight change by using random effects model (inverse-variance approach). Mean differences were calculated for 12, 18, 24, 30, and 36 after the start of the maintenance intervention (outcomes at ≥3 months were integrated into the closest respective time points).15 Consistency across study effects was assessed with I2.21 I2 >25% and >50% were interpreted as an indicator for moderate and substantial heterogeneity, respectively. Publication bias was assessed by plotting the inverse of the standard errors of effect estimates with funnel plots to explore symmetry, which were assessed visually, as well as with use of Egger’s regression test using the “metabias” macros in STATA 13. The test for subgroup differences available in RevMan 5.1 was used to determine whether there was evidence for a difference in treatment effect between groups.
Types of comparisons
Comparisons were made for the following intervention types: behavioural/lifestyle based on both dietary and physical activity approaches; dietary, physical activity; pharmacological; food supplement; and meal replacement. Control conditions included no intervention, standard or minimal care or placebo controlled conditions, or conditions that controlled for a relevant intervention component to allow comparison. In addition, we examined three delivery modes (intensive v less intensive; internet v control; person v remote delivery—that is, internet or phone).
When studies tested multiple interventions against a comparison condition, we split the comparison group sample size by the number of intervention groups to capture heterogeneity across maintenance intervention arms. Studies that used a factorial design were treated as separate studies for the relevant factors. Findings for comparisons that could not be included in any meta-analyses are summarised narratively.
Sensitivity analyses
To examine the robustness of findings we conducted several sensitivity analyses:
Strength related sensitivity analyses—when studies contributed multiple study arms for a meta-analysis we examined the most intensive intervention arm. When judgment of intervention intensity was not possible, we combined both intervention arms with the methods outlined above
Dose-response related sensitivity analyses—when studies provided the intervention components in different doses these were analysed in separate subgroups
Focus related sensitivity analyses—when studies were combined for a particular general feature (such as physical activity), we examined the impact of specific focus areas (such as walking) separately when possible
Risk of bias analyses—we examined whether allocation concealment (adequate v unclear/no) and outcome assessment (adequate v unclear/no) influenced outcomes for the main findings.
Results
Study selection
The search identified 3735 potentially relevant records, of which 127 were selected as potentially eligible; 42 papers describing 45 studies met inclusion criteria (fig 1⇓). The table summarises overall details of the studies, with full details provided in appendix 1.⇓
Risk of bias
The average inter-rater agreement for risk of bias indicators was good (Krippendorf’s α =0.82). Allocation concealment was judged to be adequate in 10 studies and unclear in 35 (fig 2)⇓. Seventeen studies reported blinding, including descriptions of blinding of participants (n=14), interveners (n=13), data analysts (n=4), and outcome assessors (n=9). Blinding of participants, interveners, data analysts, and outcome assessors was judged to be adequate for three, none, one, and four studies, respectively. Data analysis of all participants (for example, last entry carried forward or baseline observation carried forward) was reported by 23 studies, and incomplete outcome data was judged to be adequately dealt with in 25 studies.
Study characteristics—intervention descriptions
Studies were published in 1984-2013. Most studies (n=28) were conducted in the US; other locations were Europe (15), New Zealand (n=1), and Australia (n=1). The weighted average age of participants was 47.3 and the weighted average BMI before weight loss was 35.2. Trials included a mix of overweight and obese women and men (n=29) or only women (n=13) or men (n=3). Studies sampling both women and men included a weighted average of 73.3% women.
Three studies recruited individuals who had lost weight in the community,22 23 24 with the 42 remaining providing weight loss treatment before weight loss maintenance. The 42 studies including a weight loss induction phase initially recruited 9451 individuals, of whom 7788 were included in the maintenance phase (average dropout of 28.4% before maintenance). Initial attrition was mainly because of study dropout, although failure to meet weight loss and/or adherence criteria prevented entry into the maintenance phase for individuals in 17 studies. A total of 6278 individuals completed weight maintenance treatment (additional average dropout of 20%). Fourteen studies disclosed funding from industry.18 19 25 26 27 28 29 30 31 32 33 34 35
Initial weight loss phases
Of the 42 studies that included a formal weight loss phase, the average weight loss across studies ranged from −4.03 kg36 to −21.3 kg,29 with a weighted average of averages of −10.8 kg. The length of weight loss treatment before the maintenance phase ranged from two to 12 months (median 4.0). Most advocated change in behaviour/lifestyle, diet, and physical activity (n=26), commonly referred to as “standard behavioural therapy.” Other studies used a diet only (n=11) or physical activity only (n=1) approach. Some studies used a combination of pharmacotherapy in addition to behavioural/lifestyle change (n=3) or placebo treatment for pharmacotherapy and behavioural/lifestyle change (n=1). The dietary approaches advocated were described as general energy deficit diets (n=14), very low energy diets (defined as ≤800 kcal (3344 kJ)/day, n=11), low energy diets (defined as ≤1500 kcal (6270 kJ)/day, n=7), and a combination of the two (n=4). Some studies provided no detail (n=6) or explicitly stated not using a dietary approach for weight loss (n=1).
The physical activity recommendations for weight loss varied considerably, with walking as the most commonly recommended activity (n=4). Intensity of recommended physical activity varied from 20-30 minutes three to five times a week27 to 60 minutes every day.23 Two studies provided exercise classes.26 37 Most studies provided no details of recommendations for physical activity.
Several studies (n=17) reported a formal weight loss criterion for entry into the weight loss maintenance treatment. Entry criteria ranged from 5% to 10% of original body weight or 4-8 kg of initial weight loss. Three studies recruiting from the community without a formal weight loss phase required objective evidence of either 5% weight loss in the previous six months22 or 10% weight loss in the previous one24 or two years.23
Weight loss maintenance phase
For maintenance of weight loss, most studies examined behavioural/lifestyle interventions for diet and physical activity (n=22). Some studies focused on dietary (n=3) or exercise approaches (n=2) only. Other interventions included pharmacological (n=5), meal replacement (n=5), food supplement (n=3), or other (n=2) interventions.
Most study arms for which dietary approaches were reported continuing to prescribe energy deficit diets (n=23), while others prescribed diets to maintain body weight (n=14). Some arms were not prescribed any diet (n=7), and others were prescribed a mixture of weight loss and weight loss maintenance diets, depending on weight maintenance goals (n=3). Most descriptions of interventions, however, were unclear or provided no detail as to whether dietary approaches targeted further weight loss or maintenance of existing weight loss.
Recommendations for physical activity mostly promoted a general increase in physical activity (n=22). Some interventions provided specific recommendations, including walking (n=8) or resistance training (n=1) or provided exercise classes (n=2). Nine studies advocated maintenance of the physical activity levels recommended in the previous weight loss phase. Many studies did not provide details of physical activity to maintain weight loss, were unclear, or did not provide physical activity recommendations.
The five studies prescribing pharmacotherapy used orlistat at different doses (30, 60, or 120 mg three times daily). The three studies examining dietary supplements included conjugated linoleic acid (n=1), fibre (n=1), carbohydrate, or a combination of carbohydrate, fibre, chromium picolinate, and caffeine (n=1). The five studies examining meal replacements included Optifast (n=2), Nutrilet (n=1), the Cambridge diet (n=1), or the option of food boxes containing food in line with the recommended diet (n=1). The two studies examining alternative treatments included the use of a corset (n=1) and acupressure (n=1).
Modes of delivery
Intervention provider—Intervention arms delivered in person were facilitated by one (n=59) or multiple (n=23) types of providers, including “therapists” (n=21), dietitians (n=21), general practitioners/physicians (n=14), nurses (n=11), nutritionists (n=11), physiotherapist/exercise instructors (n=6), peer support (n=3), students (n=3), peers (n=3), or acupressure practitioner (n=1).
Format and delivery—Most studies were delivered either in a group (n=42) or combined group and individual (n=17) format. Other delivery formats included individual (n=5), internet (n=5), mail (n=5), telephone (n=3), mail and telephone (n=2), or group, mail, and telephone (n=1).
Setting—Research settings were generally poorly described. Those that reported study settings included home, often through the internet or phone (n=19), clinics (n=15), community (n=3), interactive television studio (n=2), or gym based settings (n=1).
Duration and intensity—Most weight loss maintenance interventions lasted 12 months (n=42) and ranged from 3-36 months (median 12.0). Intensity of intervention arms ranged from a minimum of once every three months27 to a maximum of 17 intervention contacts a month,26 with a mean of 3.2 (SD 3.19) contacts a month. Longer interventions tended to offer more intervention contacts, r=0.45, P<0.001.
Materials—Most provided materials were paper based such as session handouts or self monitoring cards/booklets (n=35). Other materials included the provision of pharmacological agents and corresponding placebos, food supplements, or meal replacements (n=20). Some studies offered incentives and refunded money, provided lottery tickets, or coupons (n=6); one study provided participants with corsets (n=1).34 One trial provided two study arms with scales for regular self weighing and a toolbox of materials that were accessed depending on progress (n=2).23
Meta-analysis—intervention effectiveness
Table A in appendix 2 provides a summary of all meta-analytic findings.
Behavioural/lifestyle v control
At 12 months, 15 behavioural/lifestyle studies including 25 comparisons20 23 24 36 38 39 40 41 42 43 44 45 46 47 48 showed a mean difference in weight change of −1.56 kg (95% confidence interval −2.27 to −0.86 kg; I2=36%; fig 3⇓).
Though Egger’s test was non-significant (P=0.14), inspection of the funnel plots does suggest small study bias (see fig A in appendix 2). Removal of four outlier comparisons with small numbers of participants and large effects that all came from a single study45 decreased the mean difference to −1.37 kg (95% confidence interval −2.02 to −0.73 kg; I2=27%). Sensitivity analysis including only the most intensive intervention arms from multi-arm trials found a mean difference of −1.69 kg (−2.47 to −0.92 kg; I2=40%) compared with controls. Sensitivity analysis by risk of bias items showed no differences between subgroups in relation to adequate allocation concealment or outcome assessment.
At 18 months, seven studies including 13 comparisons could be meta-analysed.20 23 24 42 44 45 49 The overall mean difference in weight change was −1.96 kg (95% confidence interval −2.73 to −1.20 kg; I2=15%). Sensitivity analysis including only the most intensive intervention arms from multi-arm studies found a mean difference in weight change of −2.22 kg (−3.18 to −1.26 kg; I2=26%). Sensitivity analysis for risk of bias items showed no significant differences in mean differences between subgroups in relation to adequate allocation concealment (adequate −1.49 kg (−2.24 to −0.73 kg) v unclear −2.92 kg (−4.31 to −1.54 kg), test for subgroup differences P=0.07; I2=69%) and outcome assessment (adequate −1.64 kg (−2.31 to −0.96 kg) v unclear −3.74 kg (−5.80 to −1.67 kg), test for subgroup differences P=0.06; I2=72%). At 24 and 30 months two studies reported outcomes.18 23 Overall mean differences in weight change remained significant at 24 months (−1.48 kg, −2.27 to −0.69 kg; I2=0%) but not at 30 months (−0.85 kg, −1.81 to 0.11 kg; I2=0%). No adverse events were reported for any behavioural/lifestyle weight loss maintenance treatments.20 24
Pharmacological interventions
At 12 months, four pharmacological intervention studies including eight comparisons examined the effects of orlistat combined with lifestyle change compared with placebo and lifestyle change.18 19 27 50 The overall mean difference was −1.80 kg (95% confidence interval −2.54 to −1.06 kg; I2=34%) (fig 4⇓). Subgroup analyses by dose of orlistat (120 mg v 60/30 mg three times daily) showed a dose-response relation, with studies that used 120 mg of orlistat displaying a mean difference of −2.34 kg (−3.03 to −1.65 kg, I2=0%) compared with −0.70 kg (−1.92 to 0.52 kg; I2=13%) in studies that used a 60/30 mg dose. The treatment effect was significantly greater in the subgroup of studies that used a 120 mg dose of orlistat (test for subgroup differences P=0.02; I2=81%).
One study testing the 120 mg dose provided long term follow-up at 18 and 36 months, with mean differences of −2.10 kg (95% confidence interval −4.09 to −0.11 kg) and −2.20 kg (−4.01 to −0.39 kg), respectively.18
All pharmacological studies reported increased adverse events in those taking orlistat compared with placebo groups (see table B in appendix 2). There was an increased frequency of gastrointestinal events in participants taking orlistat, with some studies reporting increased numbers withdrawing for this reason16 50. Gastrointestinal events were described as mild to moderate in intensity16 50 and occurring in the early phase of the intervention.16 19 50 No differences in other types of adverse events were reported. Two studies report minimal systemic absorption of orlistat.16 43 Two studies reported small significant decreases in vitamin status in participants taking orlistat, which remained within the normal clinical ranges and were treatable through vitamin supplementation.16 19
Other interventions
There was no evidence of effectiveness for the following interventions: dietary interventions versus control condition,35 37 high carbohydrate and low fat diets versus other types of diets,22 33 51 physical activity interventions versus control conditions,35 37 42 adding aerobic exercise to a dietary intervention versus diet alone,42 45 adding physical activity (such as walking and resistance training) to a dietary intervention versus diet alone,26 28 or adding meal replacements to dietary recommendations versus dietary recommendations alone.25 48 52 53 54 Details are in table A, appendix 2.
Other studies found no evidence for the effectiveness of nutritional supplements in addition to a dietary regimen versus the diet itself and placebo supplements55 or no supplements,30 31 Tapas acupressure technique versus social support,56 mailing computer generated individualised reports based on the “transtheoretical” model versus generic action oriented information,57 gourmet cooking versus neurolinguistic programming based therapy,32 a motivation focused versus a skill focused intervention,58 or providing participants with a corset over nine months versus no corset.34 One study reported that wearing a corset was perceived as uncomfortable34—no other comments about weight loss maintenance treatments were reported.
Mode of delivery of intervention
There was no evidence of effectiveness for more intensive interventions in terms of frequency of contact22 or number of intervention components59 versus less intensive versions of the intervention,22 59 internet delivered lifestyle/behavioural interventions versus control groups,20 23 38 39 40 43 or the delivery of a lifestyle/behavioural intervention through face to face contact versus remote delivery (such as phone/internet) of the same intervention.20 23 39 40 43
Discussion
Principal findings
This comprehensive systematic review of interventions for maintenance of non-surgical weight loss suggests that it is possible to reduce weight regain through behavioural and pharmacological means. Lifestyle interventions targeting both dietary intake and physical activity are effective in reducing weight regain after initial weight loss in obese adults within 12 months of weight loss. There is some evidence that these effects can be further sustained at 24 months and limited evidence beyond 24 months. The strength of the evidence, however, is limited; there was moderate heterogeneity and some evidence for potential risk of bias in terms of allocation concealment and outcome assessment as well as publication bias. All but 23 trials reported results only for those participants who completed the interventions, so results should be interpreted with caution.
Orlistat added to a lifestyle intervention seemed to be more effective than placebo and lifestyle intervention. Heterogeneity of effects was explained by a dose-response effect, with a dose of 120 mg three times a day reaching an effect estimate of −2.34 kg and treatment with lower doses a non-significant effect estimate of −0.70 kg. There was also evidence for sustainable effectiveness with orlistat 120 mg three times daily over 36 months. All orlistat studies report significant increases in adverse effects in the form of an increased number of gastrointestinal events in participants taking orlistat compared with placebo, with some studies also reporting slight decreases in vitamin concentrations, which were small and treatable with supplementation. Undesirable gastrointestinal side effects could limit acceptability at the individual level and therefore the impact of the treatment at population level.60, Orlistat, however, is normally prescribed alongside behaviour change. The behavioural interventions in orlistat trials included in our review provided extremely limited detail about the behaviour change components, and it is unclear if effects could be further optimised by pairing orlistat with the best evidence based behavioural interventions.
For interventions focused on diet or physical activity alone, using nutritional supplements or food replacements, we found no evidence for effectiveness of these interventions. Only a few studies tested these specific intervention components, and further research is required to confirm this finding. We found no significant evidence that specific modes of intervention delivery were more effective, although face to face interventions displayed a tendency to be more effective than remotely delivered ones (such as internet or telephone). Face to face interventions have limited scalability for population use, and it is highly desirable to use new technologies and methods for intervention design to develop methods that are both effective and scalable.
Strengths and limitations
The main strength of this review is the comprehensive and rigorous search and the meta-analytic synthesis of available evidence from randomised trials of non-surgical interventions for weight loss maintenance. Our findings, however, are applicable only to the contexts in which the studies have been conducted. Most included studies were conducted in the US and Scandinavia. Research in different countries and cultural settings would add to the generalisability.
Although energy prescriptions were poorly described in some weight loss maintenance intervention arms, participants seemed to receive advice to follow a regimen that continued to create an energy deficit, which was perhaps an unrealistic expectation for the long term. This obscures the important distinction between weight loss and weight loss maintenance.
All but three trials in this review provided a standardised weight loss treatment before allocating participants to different weight loss maintenance arms. While this practice might be sensible in terms of trial management, it could limit the generalisability of the findings to those who respond well to the initial weight loss treatment and does not provide an evidence base for weight loss maintenance that takes into account the many ways in which individuals initially lose weight.
Comparison with other studies
This systematic review adds to our knowledge of weight loss maintenance by providing a comprehensive evaluation of the evidence base to identify what works in helping patients to keep weight off after initial weight loss. Previous reviews have focused on a narrow set of methods for weight loss maintenance,10 criteria for inclusion of study by weight loss and follow-up periods of limited clinical relevance,14 and narrative rather than systematic reviews methods.13 While the overall findings of our review might be seen as encouraging, further research is needed to provide more rigorous evaluations of well described replicable interventions with an explicit theoretical underpinning over periods of more than 24 months.
Conclusions and policy implications
Comprehensive behavioural interventions targeting dietary and physical activity behaviours are moderately effective in slowing regain of weight in obese adults after initial weight loss for follow-up periods of up to 24 months. Orlistat treatment in addition to behaviour change is effective in reducing weight regain, with clear evidence of a dose-response relation and some evidence for effectiveness over 36 months. Side effects of this drug should be considered and discussed with patients before it is prescribed.
What is already known on this topic
Behaviour change leads to moderate clinically meaningful changes in weight
After initial weight loss, most people regain lost weight
Maintenance of weight loss is crucial to uphold the health benefits of initial weight loss
What this study adds
Behavioural interventions dealing with diet and physical activity show small but significant benefits on weight loss maintenance for up to 24 months
Pharmacological support from orlistat 120 mg three times daily also shows small but significant benefits on weight loss maintenance for up to 36 months
Overall effects of behavioural/lifestyle interventions, both with and without orlistat, on weight loss maintenance are small, and further research needs to focus on increasing effectiveness of interventions
Notes
Cite this as: BMJ 2014;348:g2646
Footnotes
Contributors: FFS and AA conceived the review. FFS, SUD, AA, and VAS developed the review protocol. All authors were involved in data extraction. SUD and FFS analysed the data. All authors reviewed and contributed to the manuscript drafted by SUD. All authors read and agreed the final version. FFS is guarantor.
Funding: FFS is funded by Fuse, the Centre for Translational Research in Public Health, a UKCRC Public Health Research Centre of Excellence. Fuse gratefully acknowledges funding from the British Heart Foundation, Cancer Research UK, Economic and Social Research Council, Medical Research Council, and the National Institute for Health Research, under the auspices of the UK Clinical Research Collaboration. The Health Services Research Unit, University of Aberdeen, is funded by the Chief Scientist Office of the Scottish Government Health and Social Care Directorate. The views expressed are not necessarily those of the funding bodies. This research was conducted independently of the funders, and the funders had no influence on the research process.
Competing interests: All authors have completed the ICMJE uniform disclosure form at www.icmje.org/coi_disclosure.pdf and declare: no support from any organisation for the submitted work; no financial relationships with any organisations that might have an interest in the submitted work in the previous three years; no other relationships or activities that could appear to have influenced the submitted work.
Ethical approval: Not required.
Data sharing: No additional data available.
Transparency: The lead author (the manuscript’s guarantor) affirms that the manuscript is an honest, accurate, and transparent account of the review being reported; that no important aspects of the review have been omitted; and that any discrepancies from the study as planned have been explained.
This is an Open Access article distributed in accordance with the Creative Commons Attribution Non Commercial (CC BY-NC 3.0) license, which permits others to distribute, remix, adapt, build upon this work non-commercially, and license their derivative works on different terms, provided the original work is properly cited and the use is non-commercial. See: http://creativecommons.org/licenses/by-nc/3.0/.