Abstract
Purpose
To gain more insight into the optimal strategy to achieve weight loss and weight loss maintenance in overweight and obese cancer survivors after completion of initial treatment, this systematic review aimed to provide an overview of the literature on intervention effects on weight, to describe intervention components used in effective interventions, to identify and synthesize behaviour change techniques (BCTs) and to assess the frequency with which these BCTs were used in effective interventions.
Methods
Six databases were searched for original research articles describing weight changes in adult overweight cancer survivors after participation in a lifestyle intervention initiated after completion of initial treatment. Two researchers independently screened the retrieved papers and extracted BCTs using the BCT Taxonomy version 1.
Results
Thirty-two papers describing 27 interventions were included. Interventions that were evaluated with a robust study design (n = 8) generally showed <5% weight loss and did not evaluate effects at ≥12 months after intervention completion. Effective interventions promoted both diet and physical activity and used the BCTs ‘goal setting (behaviour)’, ‘action planning’, ‘social support (unspecified)’ and ‘instruction on how to perform the behaviour’.
Conclusions
The results of this first review on intervention components of effective interventions could be used to inform intervention development and showed a need for future publications to report long-term effects, a detailed intervention description and an extensive process evaluation.
Implications for cancer survivors
This study contributed to increasing knowledge on the optimal strategy to achieve weight loss, which is recommended for overweight cancer survivors to improve health outcomes.
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Introduction
A large proportion of cancer survivors (i.e. people who are living with a diagnosis of cancer, including those who have recovered from the disease [1]) are overweight or obese. Overweight and obesity have been related to an increased risk of cancer recurrence and decreased survival in cancer survivors [2–4]. In addition, compared with individuals without a history of cancer, cancer survivors have an increased risk for cancer [5], diabetes mellitus type II and cardiovascular disease [6, 7] and may experience a poorer health-related quality of life [8, 9].
Adherence to dietary, physical activity and body weight recommendations have been associated with a better health-related quality of life and overall well-being and a decreased risk of cardiovascular disease, diabetes mellitus type II and mortality in cancer survivors [10–14]. Although a reduction of body weight to a body mass index (BMI) in the normal range is advised for overweight and obese cancer survivors [15–17], such a weight-loss goal is unrealistic for most overweight and obese individuals. A more feasible weight-loss target, such as a decrease of 5 to 10% in body weight, has been shown to result in clinically relevant health benefits [18, 19].
Lifestyle changes needed for intentional weight loss are difficult to achieve and maintain, particularly for cancer survivors since they are coping with physical and emotional consequences of cancer and its treatment such as fatigue, neuropathy, anxiety and depression. Therefore, appropriate support is needed. A large body of evidence has shown that various lifestyle interventions are effective in reducing weight on the short-term in overweight individuals [20], including cancer survivors. However, intervention effects on weight loss are typically not maintained in the long-term [21]. Therefore, there is a need for evidence-based interventions that promote sustained health behaviour changes leading to long-term weight loss maintenance, which can be defined as ‘intentional weight loss of at least 10% of body weight and maintenance of this weight loss for at least 1 year’ [21]. Although the first long-term results of intervention studies among cancer survivors suggest that weight loss and improvements in diet and physical activity can be maintained for 1 year [22, 23], the optimal strategy for long-term weight loss maintenance remains unknown [24].
To gain more insight into the optimal strategy for weight loss and weight loss maintenance in overweight cancer survivors, knowledge on effective intervention components is needed. Behaviour change interventions are often complex and consist of many interacting components [25] (such as ‘who delivers the intervention’, ‘to whom’, ‘how often’, ‘for how long’, ‘in what format’, ‘in what context’ and ‘with what content’) [26], and they are often poorly described in the scientific literature [26, 27]. This hinders the accumulation of scientific evidence for their effectiveness and the identification of effective intervention components and underlying behaviour change mechanisms [26, 27]. To promote precise reporting of complex interventions, the content of an intervention can be described by its potentially active ingredients or behaviour change techniques (BCTs). BCTs can be defined as ‘observable, replicable and irreducible components of an intervention designed to alter or redirect causal processes that regulate behaviour’ [28]. The Behaviour Change Technique Taxonomy version 1 (BCTTv1) [28], a consensus-based, cross-domain hierarchically structured classificatory system, can be used as a reliable method to identify BCTs [29–31].
Although numerous reviews have been conducted on the effectiveness of lifestyle interventions in cancer survivors [32–40], little is known on the effectiveness of intervention components, including intervention content. Moreover, as all previous reviews focused on survivors of a single type of cancer, none of these reviews have focused on the effectiveness of lifestyle interventions for overweight survivors irrespective of cancer type, and none of these reviews have only included overweight cancer survivors and/or cancer survivors after completion of initial treatment. To gain more insight into the optimal strategy to achieve weight loss and weight loss maintenance in overweight and obese cancer survivors after completion of initial treatment, this systematic review aimed to provide an overview of the literature on intervention effects on weight, to describe intervention components used in effective interventions, to identify and synthesize BCTs and to assess the frequency with which these BCTs were used in effective interventions.
Methods
Literature search
A systematic review of the literature was conducted. Six databases (PubMed, Embase, Psychinfo, Web of Science, Cinahl and Central) were searched for relevant papers in January 2016. The following search terms were used: ((‘nutritional status’ OR (‘nutritional’ AND ‘status’) OR ‘nutrition’ OR ‘nutritional sciences’ OR (‘nutritional’ AND ‘sciences’) OR ‘diet’ OR ‘dietary’ OR ‘dietary supplements’)) AND (‘neoplasms’ OR ‘cancer’ OR ‘oncology’) AND (‘cancer patients’ OR ‘cancer survivors’) AND ((‘Intervention Studies’ OR ‘intervention’ OR ‘counselling’ OR ‘counseling’ OR ‘nutritional support’ OR (‘nutritional’ AND ‘support’) OR (‘nutrition’ AND ‘support’) OR ‘nutrition support’ OR ‘health promotion’)).
Selection procedure
References that were retrieved from the database searches were exported to Endnote X5 and combined into one database with all retrieved references. Of duplicate references one was deleted. Two researchers (STAJ and MH) simultaneously and independently screened and labelled the titles, abstracts and the full-texts of all retrieved papers. First, the titles of the retrieved papers were screened and labelled in Endnote. If at least one of the researchers indicated that an abstract should have been read based on screening the title, both researchers subsequently read the abstract. Second, abstracts were screened and labelled in Endnote. If at least one of the researchers indicated that a full-text should have been read based on screening the abstract, both researchers subsequently read the full-text of the article. Finally, full-texts were read and labelled independently by both researchers.
We included original research articles describing the results of a lifestyle intervention (including a diet component) in adult (≥18 years) overweight (BMI ≥ 25) cancer survivors. Since it is expected that readiness to adopt long-term health behaviour changes is enhanced after completion of initial treatment when patients are primarily coping with the treatment and its side effects, only interventions that have been applied after completion of initial treatment (i.e. surgery, chemotherapy and radiotherapy) were included. Hormonal therapy was not considered to be initial treatment.
Because lifestyle interventions without a diet component are not likely to be able to achieve long-term weight loss maintenance, lifestyle interventions aiming to promote exercise or physical activity alone were excluded. Furthermore, a paper was excluded when it described non-human research, when a paper was not written in the English language, when it did not involve a lifestyle intervention, when the study population did not consist of overweight cancer survivors only, when the paper did not involve original research, when the intervention was not delivered after completion of initial treatment, when the lifestyle intervention did not include a diet component, when no results of the intervention were described, when weight was not included as an outcome and when the study population was younger than 18 years of age. A paper was also excluded when no abstract or full-text was available (e.g. in case of a congress abstract).
Inconsistencies between the researchers with regard to whether or not a paper should have been included in the review were discussed until consensus on inclusion or exclusion of the paper was achieved.
Data extraction
The following data were extracted from the included articles: first author, year of publication, country, study design, type of cancer, sample size (total sample size, and if applicable sample size of the intervention and the control group), sex (percentage of female participants), mean age with standard deviation (SD), time after diagnosis or treatment, dropout rate, duration and type of intervention (physical activity plus diet vs. diet only), follow-up after the end of the intervention, mean baseline BMI and body weight in kilogrammes (kg) with SD, mean weight change in kilogramme with SD and percent weight change from baseline (Table 1). Table 1 provides an overview of the effect of the included lifestyle interventions on weight loss and weight loss maintenance. An intervention was considered to be effective in inducing weight loss when mean weight loss from preintervention to postintervention was significantly (p < 0.05) higher in the intervention group compared with mean weight loss in the control group in a randomized controlled trial (RCT). In case an RCT compared two or more interventions (e.g. two different diets) or in single arm pretest-posttest studies, an intervention was considered to be effective when a significant difference (p < 0.05) in weight between preintervention and postintervention was found. An intervention was considered to be effective in inducing long-term weight loss maintenance when mean weight loss from preintervention to 1 year postintervention was significantly (p < 0.05) higher in the intervention group compared with mean weight loss in the control group or when significant (p < 0.05) weight loss was found from baseline to 1 year follow-up after the end of the intervention for single arm studies. Long-term weight loss maintenance was defined as weight loss of at least 10% of body weight maintained for at least 1 year [21]. Study results were interpreted in the context of study design. An RCT with a usual care control group, an attention control or a less intensive intervention control group was considered to be the preferred study design with regard to interpretation of the effectiveness of the study and is referred to as a robust study design.
The following characteristics of the included lifestyle interventions were extracted and described in Table 2: the aims of the intervention, the theoretical framework on which the intervention was based, a description of the control condition and details on intervention components [26], such as by whom the intervention was delivered, the frequency and length of intervention contacts, the format of intervention contacts, the context in which the intervention was delivered and the content of the intervention. BCTs were used to describe the content of the intervention.
Behaviour change technique coding
The Behaviour Change Technique Taxonomy version 1 (BCTTv1) was used to extract the BCTs that were used in the included interventions [28]. The BCTTv1 provides detailed definitions of 93 BCTs and includes examples of each BCT. This taxonomy has shown to be a reliable method for extracting information about intervention content and identifying potentially active ingredients associated with effectiveness [29, 30].
Two researchers (MH, MvS) independently coded intervention and control group content of all included interventions using the BCTTv1. Both coders were trained in applying the BCTTv1. When both coders independently coded the same BCT, the BCT was considered to be present. When only one of the coders coded a particular BCT, that BCT was discussed and only considered to be present if consensus was reached. When discrepancies could not be resolved through discussion, a third experienced coder was consulted (SM), and the BCT was considered to be present when two out of three coders deemed the BCT to be present.
When the authors of an included study referred to another publication for further details on intervention content, this other publication was also used to code BCTs. When authors of an included study mentioned that the content of their intervention was (partly) described elsewhere, but no reference was provided, only the description of the intervention content as mentioned in the included publication was used to code BCTs.
BCTs were identified and synthesized across interventions that were found to be effective after evaluation in an RCT with a usual care control, an attention control or a less intensive intervention control group. The frequency of identified BCTs was quantified across these effective interventions (see Table 3).
Results
A flow diagram of the number of included and excluded papers is depicted in Fig. 1. In total, the database searches yielded 7594 references. After the removal of 2744 duplicates, 4850 titles and 415 abstracts were assessed for eligibility. Of the 135 full-texts that were screened, 103 references were excluded. See Fig. 1 for reasons for exclusion. Finally, 32 papers describing 27 interventions were included.
General characteristics of the included intervention studies
Most of the included interventions were conducted in the USA (n = 22) [42–44, 46–59, 61–63, 65, 66, 69–72]. The other interventions were conducted in Canada [45], Spain [67], Italy [60], Australia [64] and the Netherlands [49] (see Table 1). The majority of the included interventions were offered to overweight breast cancer survivors (n = 17) [44–66, 68, 69, 79], of which five were offered to postmenopausal overweight breast cancer survivors [44–49]. The other interventions were offered to overweight endometrial cancer survivors (n = 2) [71, 72], overweight colorectal cancer survivors (n = 1) [41], a mixed study sample of overweight breast and endometrial cancer survivors (n = 1) [70] and a mixed study sample of overweight colorectal, breast and prostate cancer survivors (n = 1) [42, 43]. The number of participants varied from 10 [57] to 1510 [62] but was relatively low (n < 50) in the majority of the interventions (n = 16) [41, 44, 45, 48, 51–53, 55–57, 63–66, 68, 69, 71, 79]. Fifteen papers described 13 feasibility or pilot studies [41, 44, 45, 49–51, 55–57, 63, 64, 68–70, 79]. Intervention effects were assessed using an RCT (n = 16) [42, 43, 48–56, 58, 59, 61–63, 66, 71, 72], a single arm pretest-posttest design (n = 10) [41, 44, 45, 57, 60, 64, 65, 68–70, 79] or a three-arm non-RCT (n = 1) [46, 47]. Two of the 16 RCTs had a wait-list control design [42, 43, 53], two compared the effect of two different diets [48, 52], one assessed the additional effect of spirituality counselling in addition to a combined dietary and physical activity intervention [51], 10 had a usual care control, an attention control or a less intensive intervention control group (i.e. a robust study design) [50, 54–56, 58, 59, 61–63, 66, 71, 72] and in one RCT, no details about the control group was mentioned [49]. The three-arm non-RCT had a usual care control group [46, 47]. Effects were mostly assessed directly after the end of the intervention only (n = 19). However, in 8 out of the 27 intervention studies, a follow-up assessment after the end of the intervention was conducted, at 12 weeks [45], 6 months [53, 54, 64, 71, 72], 12 months [43] and 2 years after the end of the intervention [49].
Effects on weight and weight loss maintenance
In 22 out of the 27 interventions, a statistically significant decrease in body weight was found directly after intervention completion [42–50, 53–61, 64–66, 68–72, 79], with a weight loss of <5% of baseline body weight after half of the effective interventions, a weight loss of 5–10% after 7 interventions [48, 54–56, 58–60, 64, 69] and a weight loss of ≥10% after 3 interventions [44, 46, 47, 68, 79]. Percent weight loss from baseline could not be calculated for one effective intervention, since mean baseline body weight was not reported [49]. Seven out of the eight intervention studies with a follow-up assessment after intervention completion showed a significant decrease in body weight at follow-up of 2.07 to 5.84% of baseline weight [43, 45, 49, 53, 64, 71, 72] (Table 1).
After exclusion of non-randomized studies and feasibility or pilot studies, nine robust studies describing eight interventions reported a statistically significant higher reduction in body weight in the intervention group compared with the control group directly after intervention completion [42, 43, 53, 54, 58, 59, 61, 66, 71, 72]. Contrary, one intervention was not found to be effective in inducing weight loss directly after intervention completion [62]. The amount of weight loss in the intervention group varied across these eight effective interventions from 2.4% [42] to 6.8% loss of baseline weight [58, 59]. A loss of <5% of baseline weight was found after intervention completion in six interventions [42, 53, 61, 66, 71, 72, 80], whereas weight loss of 5–10% was found after two interventions [54, 58, 59]. Two robust studies reported a significant higher reduction in body weight in the intervention group compared with the control group at 6-month follow-up after the end of two 6-month interventions [71, 72]. Both studies reported a mean decrease of ~3% of baseline body weight at follow-up in the intervention group [71, 72].
Characteristics and intervention components of effective interventions
Characteristics and intervention components are described for the eight interventions that were effective in inducing weight loss after evaluation in a robust study [42, 43, 53, 54, 58, 59, 61, 66, 71, 72] (Table 2).
All interventions promoted both diet and physical activity to induce weight loss. Weight loss goals of these effective interventions varied across studies: five studies aimed for a specific weight loss goal (5–10%) [42, 43, 61, 75, 78], one study more generally aimed to facilitate a modest sustained weight loss without prescribing a percentage of weight loss [58, 59] and in three studies, no specific weight loss goal was mentioned [53, 54, 66].
A theoretical framework on which the intervention was based was reported in six out of eight interventions. Most interventions (n = 5) [42, 43, 54, 61, 71, 72] were based on ‘social cognitive theory’ [73]. Other theoretical frameworks included the ‘transtheoretical model’ [42, 43, 74], behavioural determinants model [61, 76], motivational interviewing [61, 77], cognitive behavioural therapy [58, 59, 61, 75, 78] and standard behavioural treatment for obesity [58, 59].
In most interventions, registered dieticians were involved in applying the intervention [54, 61, 66, 71, 72]. In one study, the intervention was applied by a dietician trained in exercise physiology and behaviour modification counselling alone [54]. In other studies, the dietician applied the intervention together with a ‘primary investigator’ [71], counsellors with backgrounds psychology and exercise physiology [61], exercise physiologists trained in medical rehabilitation [66] and with a ‘physician, a psychologist and a physical therapist’ [72]. Other interventions were applied by a ‘health counsellor’ [42, 43], an ‘instructor’ and a ‘trainer’ [53], as well as ‘trained investigators and research staff’ [58, 59].
Intervention duration varied from 12 weeks [66] to 24 months [61]. Duration of most interventions was 6 months (n = 4) [53, 54, 71, 72]. Frequency of intervention contacts decreased over time in the majority of these effective interventions [42, 43, 54, 58, 59, 61, 71, 72], mostly from weekly contacts in the first weeks or months of the intervention to monthly contacts towards the end of the intervention.
Five out of the eight interventions consisted of both individual and group counselling [53, 58, 59, 61, 71, 72], and three consisted of individual counselling only [42, 43, 54, 66]. Most interventions consisted of a combination of face-to-face and telephone counselling (n = 5) [53, 58, 59, 61, 71, 72]. Three of these interventions also included contacts via e-mail and/or newsletters [61, 71, 72]. One intervention consisted of contacts through telephone and mailed print materials only [42, 43], and in one study, it was determined by group assignment whether participants received face-to-face counselling only or telephone counselling only [54].
In three interventions, it was not mentioned where the intervention took place [58, 59, 71, 72]. One intervention was fully home-based [42, 43]. Three interventions where partly home-based [54, 61, 66] and also involved face-to-face meetings (e.g. at an exercise facility) [66]. One intervention was clinic based and included exercise sessions at a commercial fitness centre [53].
Content of effective interventions
Overall, 30 BCTs were used in the 8 effective interventions that were found to be effective after evaluation in a robust study (n = 8). The number of BCTs that were used in each effective intervention varied from 8 [54] to 18 [58, 59, 61], with a median number of 12.5 BCTs per intervention (Table 2). The BCTs ‘goal setting (behaviour)’, ‘action planning’, ‘social support (unspecified)’ and ‘instruction on how to perform the behaviour’ were used in all eight interventions. Other BCTs that were used in most of these effective interventions include the following: ‘self-monitoring of behaviour’ (n = 7), ‘adding objects to the environment’ (n = 7) and ‘goal setting (outcome)’ (n = 6) (Table 3).
Discussion
This systematic review of the literature was the first to provide an overview of the effectiveness of lifestyle interventions for overweight survivors of any cancer type after completion of initial treatment. Although the majority of the included lifestyle interventions (22 out of 27) were found to be effective in reducing weight directly after intervention completion, relatively few of these interventions (n = 8) were evaluated in a robust study design. These robust studies generally showed a modest effect on weight (<5% loss of baseline body weight) and did not evaluate intervention effects on weight at long-term follow-up (≥12 months) after intervention completion. None of the interventions resulted in long-term weight loss maintenance. Our review was also the first to provide an overview of intervention components and characteristics of lifestyle interventions that have been found to be effective in reducing weight in overweight survivors of any cancer type after completion of initial treatment. Our review showed that all interventions that were found to be effective after evaluation in a robust study design promoted both diet and physical activity and used the BCTs goal setting (behaviour), action planning, social support (unspecified) and instruction on how to perform the behaviour. It also showed that effective interventions mostly combined group and individual counselling, had a duration of ≥6 months, combined face-to-face with non-face to face modalities (e.g. telephone counselling), were (co)applied by a registered dietician and were based on social cognitive theory.
Although our review is the first to report on the effects on weight of lifestyle interventions in overweight cancer survivors of any cancer type after completion of initial treatment, previous reviews have reported on the effects of lifestyle interventions in cancer survivors [32, 33, 35–38, 40, 81–83] and on effects on body weight in particular [35, 38, 81, 82]. However, these studies did not only include overweight cancer survivors and/or cancer survivors after completion of initial treatment and all included survivors of a specific cancer type only (breast cancer [35, 38, 82] and prostate cancer [81]). Additionally, other reviews on intervention effects among cancer survivors did not report effects on body weight [36, 37] or did not primarily focus on effects on body weight [32, 33, 40, 83].
Our finding that the vast majority of lifestyle interventions were effective in reducing weight in cancer survivors directly after intervention completion confirms the findings of previous reviews in breast cancer survivors [35, 38]. However, in these previous reviews, a larger proportion of effective interventions showed a weight loss of ≥5% of baseline weight directly after intervention completion (76.9% [38]; 61.5% [35]) compared with our review (25% of the 8 effective robust studies, and 47.6% out of all 22 effective interventions). The discrepancy between our finding on the proportion of effective interventions with a weight loss of ≥5% of baseline weight and the findings from these previous reviews in breast cancer survivors may be explained by the <5% weight loss observed directly after all effective interventions among survivors of other types of cancer than breast cancer (n = 5) and the <5% weight loss in all included interventions published after publication of the most recent review in 2014 [35] (n = 4). In addition, compared with reviews on intervention effects on weight among overweight or obese adults in the general population (showing a mean weight loss from baseline of 8.5–13%) [84–86], a lower percentage of weight loss from baseline was observed in our review (2.4–6.8%). The weight loss observed in our review is more in line with a recent review on the effects of weight loss interventions in overweight or obese adults with type II diabetes mellitus (17 of the 19 study groups reporting weight loss of <5%; mean of 3.2%) [87]. The authors suggested that it is generally more difficult for individuals with diabetes to lose weight and to maintain weight loss compared with individuals without diabetes [87]. Findings from our review may suggest that this might also be true for overweight cancer survivors. Disease- and treatment-related factors may hamper adherence to lifestyle recommendations in individuals diagnosed with an obesity-related disease, implying the need for a different behavioural strategy to reach sustained health behaviour changes.
As in our review, other reviews on the effects of lifestyle interventions in cancer survivors also found that few studies assessed weight at follow-up after intervention completion [35–37, 40]. Our findings on weight loss at follow-up after intervention completion are difficult to compare with these other reviews since effects on weight at follow-up after intervention completion were only briefly mentioned in these reviews, results were generally not expressed in percent weight loss from baseline, and either a different (less stringent) definition of long-term weight-loss maintenance was used or a definition of long-term weight-loss maintenance was not mentioned. In the literature on the effects of lifestyle interventions in overweight or obese adults, assessment of weight at long-term (≥1 year) follow-up after intervention completion is more common [86, 88]. Intervention studies in overweight and obese adults have generally shown that about half of initial weight loss is regained at ≥1 year follow-up after intervention completion [84–86, 88].
The findings from our review on characteristics and components used in effective weight loss interventions confirm previous research. Both Reeves et al. [35] and Playdon et al. [38] also reported that most interventions that led to clinically meaningful weight loss in breast cancer survivors combined counselling on diet, physical activity and behaviour modification. Furthermore, previous research in the general population has shown that combined diet and physical activity interventions are more often effective and provide a greater weight loss compared with a diet-only intervention [89–91]. Our finding that most effective interventions consisted of both group and individual counselling corresponds to previous findings that support both group and individual counselling for promoting weight loss for breast cancer survivors [38]. In line with our finding that most effective interventions used a combination of both face-to-face and non-face-to-face modalities including telephone counselling, Playdon et al. [38] reported that a greater proportion of interventions in breast cancer survivors resulting in ≥5% weight loss used both face-to-face counselling and telephone counselling. Our finding that the duration of most effective interventions was ≥6 months is in line with previous findings from Reeves et al. [35] suggesting that longer interventions (>6 months) achieved greater weight loss in breast cancer survivors. In addition, longer interventions have been associated with greater weight loss in obese or overweight adults [90].
Although the use of a theoretical framework has been reported to aid intervention development and evaluation and to promote insight into determinants of health behaviour change, no studies have directly tested different behavioural theories for weight loss in cancer survivors. Nevertheless, theory-based interventions are commonly used in cancer survivors. Findings from other reviews on the relation between the use of a theoretical framework and intervention effectiveness have been conflicting [29, 89, 92]. In line with our review, Stacey et al. [36] reported that SCT-based interventions appear effective in improving physical activity and a healthy diet in cancer survivors. In contrast, Playdon et al. [38] reported that few studies that resulted in >5% weight loss in breast cancer survivors based their intervention on a theoretical framework. Moreover, findings from Spark et al. [37] suggest that successful maintenance of physical activity and dietary outcomes in breast cancer survivors was more common in trials that were not based on a theoretical model. These conflicting findings may be due to an inadequate description of how theory is used in interventions. To promote a precise description of the theoretical base of interventions, a theory coding scheme can be used [93].
Although three other reviews on the effects of lifestyle interventions in cancer survivors have briefly reported on the BCTs used in these interventions [51, 56, 81], our review is the first to report on the BCTs used in each of the included interventions and to report on both the type and the number of BCTs that were used in effective interventions in cancer survivors. Moreover, our review is the first to report on the BCTs used in interventions that have been found to be effective in reducing weight in overweight survivors of different types of cancer after completion of treatment. These other reviews all used older versions of the BCT taxonomy [94, 95], used the BCT taxonomy with a different purpose [36], focused on physical activity and dietary outcomes rather than on weight [36, 37] and did not report on BCTs used in effective interventions [81]. Compared with our review, the only other review that reported on the number of BCTs used in effective interventions in cancer survivors found that less BCTs (median 5) were used in trials achieving successful maintenance of behaviour change outcomes [37]. Our findings with regard to the type of BCTs used in effective interventions confirm the finding of Stacey et al. [36] that the BCTs goal setting and self-monitoring of behaviour were commonly used in lifestyle interventions for cancer survivors. Findings from our review on the type of BCTs used in effective interventions confirm the results of previous research in the general overweight or obese population reporting that the BCTs social support, goal setting, self-monitoring of behaviour and ‘self-monitoring of outcomes of behaviour’ have been associated with intervention effectiveness [29, 89, 96]. Moreover, the BCTs self-monitoring of behaviour and self-monitoring of outcomes of behaviour have been associated with long-term weight loss maintenance [21, 97, 98].
Methodological considerations
We comprehensively searched for relevant publications in six databases. However, we did not include non-English publications or unpublished literature, possibly resulting in a selection bias. During the database search, we excluded a considerable number of congress abstracts (n = 50). Half of these congress abstracts were not published as full-text papers at a later point in time, which may suggest a publication bias.
In line with recent reviews on the effects of lifestyle interventions in cancer survivors with mixed diagnosis [34, 40], the vast majority of the included interventions were offered to female cancer survivors. Therefore, our results may not be generalisable to male cancer survivors. Since our review aimed to provide a broad overview of the scientific literature on lifestyle interventions in overweight cancer survivors after completion of initial treatment, we did not only include high-quality studies. Of the included studies in our review, a relatively small proportion had a robust study design. Moreover, in line with other reviews on the effects of lifestyle interventions in cancer survivors [35, 36, 38, 81], sample sizes of the included studies were generally small. We did not conduct a quality assessment of the included studies. We did, however, focus on the studies with a robust study design in the interpretation of our findings.
Due to heterogeneity across included studies in timing, duration, intensity and content of the intervention, we did not conduct a meta-analysis to estimate a mean overall intervention effect on weight. Moreover, since only one out of the nine studies with a robust study design did not report a significant intervention effect, we could not compare components of effective and ineffective interventions. Although it is possible to detect patterns and generate testable hypotheses about likely effective components, there is not the power to be able to draw conclusions about effective intervention components. Therefore, our findings with regard to the intervention components used in effective interventions should be interpreted with caution. Finally, due to inadequate or incomplete description of intervention content in the included publications, the number and the variety of BCTs used in each intervention may have been underestimated.
Recommendations
To gain more insight into how long-term weight loss maintenance can be reached in overweight cancer survivors after completion of initial treatment, future robust studies should assess intervention effects at long-term follow-up (≥12 months) after intervention completion. A detailed description of the intervention should be part of systematic intervention development [99] and should be provided along with scientific publications regarding the intervention. This would be an important first step to be able to accumulate scientific evidence for effective intervention components and underlying behaviour change mechanisms. Furthermore, to promote comparability across intervention studies, we encourage researchers to use a BCT taxonomy [28] to describe the content of their intervention. Also, as part of systematic intervention evaluation [99], an extensive process evaluation should be conducted to gain more insight into effective intervention components and underlying behaviour change mechanisms [100]. These recommendations are particularly relevant for future studies, but may also, to some extent, be incorporated in current ongoing studies.
Although further research is needed on how to achieve long-term weight loss maintenance, oncologists and other healthcare professionals do not need to await these results and can refer to existing evidence-based lifestyle interventions to promote weight loss in overweight cancer survivors.
Conclusions
Of the numerous studies that have shown that lifestyle interventions are effective in reducing weight in overweight cancer survivors after completion of initial treatment, the few studies with a robust study design generally showed a modest weight loss (<5% of baseline body weight) directly after intervention completion. There is a lack of knowledge on long-term effectiveness. All interventions that were found to be effective after evaluation in a robust study design promoted both diet and physical activity and used the BCTs goal setting (behaviour), action planning, social support (unspecified) and instruction on how to perform the behaviour. Our results on intervention components and characteristics of effective interventions could be used to inform intervention development or selection. To gain more insight into how long-term weight loss maintenance can be reached in overweight cancer survivors after completion of initial treatment, future publications should report on intervention effects on weight at ≥12 months after intervention completion and should include a detailed description of the intervention and an extensive process evaluation.
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This study was funded by the Dutch Cancer Society/Alpe D’HuZes (VUL 2011-5234).
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This study was funded by the Dutch Cancer Society/Alpe D’HuZes (VUL 2011-5234).
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Prof. Dr. Ellen Kampman received a grant from the Dutch Cancer Society/Alpe D’HuZes (VUL 2011-5234). Dr. Meeke Hoedjes is supported by this grant. Other than that, the authors declare that they have no conflict of interest.
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Hoedjes, M., van Stralen, M.M., Joe, S.T.A. et al. Toward the optimal strategy for sustained weight loss in overweight cancer survivors: a systematic review of the literature. J Cancer Surviv 11, 360–385 (2017). https://doi.org/10.1007/s11764-016-0594-8
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DOI: https://doi.org/10.1007/s11764-016-0594-8