Hostname: page-component-586b7cd67f-dsjbd Total loading time: 0 Render date: 2024-11-27T19:24:52.276Z Has data issue: false hasContentIssue false

Evaluation of the first phase of a specialist weight management programme in the UK National Health Service: prospective cohort study

Published online by Cambridge University Press:  02 August 2011

David S Morrison*
Affiliation:
West of Scotland Cancer Surveillance Unit, 1 Lilybank Gardens, Glasgow G12 8RZ, UK
Susan Boyle
Affiliation:
Glasgow and Clyde Weight Management Service, Glasgow, UK
Caroline Morrison
Affiliation:
Greater Glasgow and Clyde NHS Board, Glasgow, UK
Gwen Allardice
Affiliation:
Greater Glasgow and Clyde NHS Board, Glasgow, UK
Nicola Greenlaw
Affiliation:
Greater Glasgow and Clyde NHS Board, Glasgow, UK
Lorna Forde
Affiliation:
Glasgow and Clyde Weight Management Service, Glasgow, UK
*
*Corresponding author: Email [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Objective

To evaluate the first phase of a specialist weight management programme provided entirely within the UK National Health Service.

Design

Prospective cohort study using multiple logistic regression analysis to report odds of ≥5 kg weight loss in all referrals and completers, and odds of completion, with 95 % confidence intervals. Anxiety and depression ‘caseness’ were measured by the Hospital Anxiety and Depression Scale.

Setting

Glasgow and Clyde Weight Management Service (GCWMS) is a specialist multidisciplinary service, with clinical psychology support, for patients with BMI ≥35 kg/m2 or BMI ≥30 kg/m2 with co-morbidities.

Subjects

All patients referred to GCWMS between 2004 and 2006.

Results

Of 2976 patients referred to GCWMS, 2156 (72·4 %) opted into the service and 809 completed phase 1. Among 809 completers, 35·5 % (n 287) lost ≥5 kg. Age ≥40 years, male sex (OR = 1·39, 95 % CI 1·05, 1·82), BMI ≥ 50 kg/m2 (OR = 1·70, 95 % CI 1·14, 2·54) and depression (OR = 1·81, 95 % CI 1·35, 2·44) increased the likelihood of losing ≥5 kg. Diabetes mellitus (OR = 0·55, 95 % CI 0·38, 0·81) and socio-economic deprivation were associated with poorer outcomes. Success in patients aged ≥40 years and with BMI ≥50 kg/m2 was associated with higher completion rates of the programme. Patients from the most deprived areas were less likely to lose ≥5 kg because of non-completion of the programme.

Conclusions

Further improvements in overall effectiveness might be achieved through targeting improvements in appropriateness of referrals, retention and effective interventions at specific populations of patients.

Type
Research paper
Copyright
Copyright © The Authors 2011

The prevalence of excess weight and obesity is increasing in the UK and is a major cause of morbidity and mortality from cardiovascular and respiratory diseases, non-insulin dependent diabetes, musculoskeletal disorders and many cancers(Reference Visscher and Seidell1, Reference Renehan, Tyson and Egger2). It has been estimated that 60 % of men and 50 % of women could be clinically obese (BMI ≥30 kg/m2) by 2050, costing the National Health Service £49·9 billion per year(3). In Scotland, the prevalence of obesity has increased consistently since 1995(46) such that, by 2008, about 26 % of men and 27·5 % of women were obese(7). Overweight in men is about 6 % less prevalent in the largest regional Health Board of Scotland, Greater Glasgow and Clyde, but the prevalences of obesity in men and both overweight and obesity in women are similar to the national figures(5).

Despite the broad public health concerns about the impacts of obesity, evidence for the effectiveness of interventions based on diet and physical activity alone has been sparse and inconsistent(Reference Lemmens, Oenema and Klepp8). Obesity is a complex problem that requires multi-modal approaches. Interventions incorporating an energy-deficit diet plus exercise, underpinned by behavioural interventions, are most clinically effective(Reference Avenell, Broom and Brown9, Reference Norris, Zhang and Avenell10) and recent treatment guidelines developed in the UK recommend multi-component approaches as an integral part of weight management(11, 12). Overweight or obese patients should also be offered a choice of individual or group-based weight management programmes(12). Moderate, sustained weight loss of 5–10 % (approximately 5–10 kg) has been shown to be associated with significant clinical benefits in individuals with obesity and is therefore considered a worthwhile treatment goal(Reference Avenell, Broom and Brown9, Reference Knowler, Barrett-Connor and Fowler1315). The majority of evidence is based on absolute, rather than percentage, weight reduction(12).

Glasgow and Clyde Weight Management Service (GCWMS) was developed in 2004 to offer equitable access and consistent treatment approaches and to optimise current resources already being directed towards weight management across the National Health Service (NHS) Board area. It forms the third tier between primary prevention and bariatric surgery in an overall strategy to reduce the prevalence and associated health-care costs of obesity and to provide a more structured pathway to surgery (Fig. 1). GCWMS piloted its treatment approaches and protocols within a small geographical area before incrementally extending its coverage to the entire Health Board population by 2008.

Fig. 1 Glasgow and Clyde Weight Management Service (GCWMS): hierarchy of services according to BMI (MDT, multidisciplinary team; GP, general practitioner)

The aim of the present study was to evaluate the effectiveness of phase 1 of the GCWMS weight management programme in achieving 5 kg or more weight loss. We explored the effects of age, sex and initial BMI as well as co-morbidities and medications with known metabolic effects.

Methods

Setting

Greater Glasgow and Clyde Health Board area in the West of Scotland, UK, has a population of 1·2 million individuals and includes a diverse mixture of urban and rural populations. Thirty-one per cent of the Board's population lives in very deprived areas compared with 15 % of Scotland's population as a whole(Reference De Caestecker and Lachlan16).

Glasgow and Clyde Weight Management Service

GCWMS is provided by a team that comprises dietitians, psychologists, physiotherapists and administrative staff. The unique integration of psychologists within the service ensures that all patients benefit from having psychosocial approaches incorporated throughout their journey as these interventions were included in the standard programme, delivered by dietitians but designed and supported by psychologists. Access to additional, timely psychological support was also provided if indicated. Patients were eligible for referral to the service if they had a BMI ≥ 30 kg/m2 with co-morbidities (including sleep apnoea, diabetes, poorly controlled hypertension or poor mobility) or a BMI ≥ 35 kg/m2 with no co-morbidities. Pregnancy(17), being unable to attend an outpatient clinic, in early stages of a quit smoking attempt or current poorly controlled psychiatric illness all indicate exclusion from the service. Re-referral is suggested when appropriate. At initial assessment, all patients complete the Hospital Anxiety and Depression Scale questionnaire. Evening groups are provided to increase accessibility to the service. Small groups are available for those with sensory impairment, literacy issues, anxiety, mild learning difficulties and where English is not the first language. Treatment pathways and goals were developed based on best evidence and national guidelines(18) and the service was provided in both NHS community and outpatient hospital settings. The service's goal was to support individuals to achieve weight loss at least 5 kg. In phase 1 all patients were treated with a 16-week group programme comprising nine fortnightly sessions with a combination of diet, exercise and behavioural interventions. The diet was a 2510 kJ (600 kcal) deficit diet(12) calculated for each patient with recommended portions from the five food groups. Psychological interventions for weight loss were incorporated into each part of the programme with the aim of supporting adherence to the diet and activity changes advised. These included a range of cognitive behavioural approaches that have been highlighted in guidelines(12) due to their beneficial effect, for example: goal setting, self-monitoring, cognitive restructuring and relapse prevention, among others. At the end of the first intervention phase those who do not succeed in losing at least 5 kg are offered further options (lower-energy structured diet or pharmacological treatment) in a second phase, which is not described here.

Data and statistical methods

We obtained data for all referrals made to GCWMS from its inception in November 2004. Follow-up data on weight loss in phase 1 were available to December 2007 and we therefore selected referrals until December 2006 inclusive so that patients had sufficient time to be offered, to accept and to complete phase 1 of the GCWMS programme. Where the same individual was referred more than once, information on the earlier referral only was included. Records with a height of 1 m or less, a weight loss of more than 30 kg or a BMI below 20 kg/m2 were excluded as they were unlikely to be valid data. Co-morbidity information (binary data on the presence or absence of diabetes mellitus, chronic obstructive pulmonary disease, heart disease, hypertension, stroke, osteoarthritis and hypothyroidism) were obtained from patients’ general practitioner (GP) referral forms. Medications were recorded in free text and several electronic searches with partial search terms were made to identify drugs and classify them according to British National Formulary categories. Patients were classified as having diabetes mellitus if it was either recorded on their GP referral form or if they were prescribed biguanides. Anxiety and depression were assessed using the Hospital Anxiety and Depression Scale (HADS)(Reference Snaith19). The HADS was developed to screen for anxiety and depression in patients attending medical centres. It is widely used in clinical settings as it is recognised that these common forms of psychological disturbance can impact on patients’ response to medical interventions. The scale assesses for presence of morbidity and gives an indication of severity with a score of 10/11 indicating ‘probable anxiety’ and 14/15 being a ‘severe disorder’. A score of ≥12 for either anxiety or depression was used to indicate ‘caseness’ in the current sample. Patients’ socio-economic circumstances were estimated using the Scottish Index of Multiple Deprivation (SIMD)(20), an area-based index that uses seven domains (current income; employment; health; education, skills and training; geographic access to services; housing; and crime) to describe the level of deprivation in small geographic areas (data zones). All data zones in Scotland are ranked from 1 (most deprived) to 6505 (least deprived) and a variety of quantiles are available for their further categorisation. We used quintiles of the Scottish population, ranging from 1 (least deprived) to 5 (most deprived). Completion of phase 1 was defined before analysis as completion of programme with four or more sessions attended. This definition has both face validity, in that it defines completers as those who attended at least half of the sessions, and it is consistent with a definition of completion used in another weight management programme in the UK(21).

Data cleaning and analysis were carried out independently by N.G., G.A. and D.S.M. and compared for quality assurance. The two continuous variables (age and BMI) were analysed both in continuous and categorical forms. A conventional statistical significance cut-off of 5 % was used. All analyses were performed using the STATA statistical software package version 10·1 (StataCorp, College Station, TX, USA).

Three separate analyses were performed. The first looked at potential factors affecting weight loss among all referrals; the second looked at potential factors affecting weight loss among those referred who completed the programme; and the third looked at potential factors affecting completion of the programme. The potential factors examined were the same in all three analyses; age, sex, BMI, SIMD quintile, co-morbidities and drug regimens where weight changes were cited as side-effects in the British National Formulary(22).

Univariate logistic regression was used in each analysis to identify which factors were likely to influence the outcome variables of weight loss or completion. All variables with P value <0·3 in the univariate logistic regression were then entered into multivariate logistic regression analyses. The first stage of the multivariate logistic regression identified variables with a P value <0·1. These variables were then examined by Kendall's rank correlation coefficients with Bonferroni adjustments for possible correlations and where these were identified as significant (P < 0·05) they were subsequently entered as interaction terms into a second multivariate regression analysis. The final multivariate model was chosen to include all variables (and interactions) with P < 0·05. Many of the variables were found to be correlated with sex so it was decided to carry out additional analyses for males and females separately. Our study was principally an evaluation of the effectiveness of a service with the primary aim of improving its quality. A full report of our findings was provided to GCWMS and used to modify current practice. We did not seek ethics committee approval for this evaluation because it formed part of clinical audit rather than primary research.

Results

Between November 2004 and December 2006, 3170 referrals were made to GCWMS. After exclusion of 177 re-referrals and a further seventeen patients with non-valid data as defined above, data on 2976 individuals were included in the analysis. Figure 2 provides a flowchart of patients from referral to successful weight loss. Women were more likely than men to opt in (73·6 % v. 69·4 %, respectively; χ 2 = 5·174, P = 0·02) but among those who opted in there was no significant difference between the sexes in the proportion who completed the programme (χ 2 = 1·239, P = 0·27). An additional six patients, who are not shown, lost 5 kg or more but did not satisfy the criteria for completion of the programme. Three-quarters (2156, 72·4 %) of patients were female and the mean ages of men and women were 47·5 and 44·6 years, respectively (t test of independent samples, P < 0·01). The majority (n 1848, 62·1 %) of patients were from the most deprived areas (SIMD 5) with 3 % from the most affluent areas (SIMD 1; n 95, 3·2 %), reflecting the deprived catchment area for the service. Higher BMI was associated with ‘caseness’ for both anxiety ( = 18·83, P < 0·01) and depression ( = 22·67, P < 0·01). Two thousand one hundred and fifty-six patients (72·4 %) opted into the service of whom 809 (37·5 %) completed phase 1. Socio-economic deprivation was associated with higher prevalence of both anxiety and depression. The prevalence of ‘caseness’ for anxiety was 18·9 % in patients from the most affluent areas and increased to 24·2 % in patients from the most deprived areas ( = 6·526, P = 0·01). The prevalence of depression was 9·5 % in patients from the most affluent areas and 18·6 % in patients from the most deprived areas ( = 4·984, P = 0·03).

Fig. 2 Flowchart showing all referrals to Glasgow and Clyde Weight Management Service (GCWMS) between November 2004 and December 2006

Two hundred and ninety-three patients lost the target weight of 5 kg or more and this proportion was not significantly different in 2004, 2005 or 2006 ( = 1·05, P = 0·31). This represents 9·8 % of all patients referred and 13·6 % of those who opted into the service. Among 809 patients who completed phase 1, 287 (35·5 %) lost at least 5 kg. Table 1 gives numbers, proportions and odds ratios, respectively, for ≥5 kg weight loss among all referrals in different strata. After adjustment in both sexes combined, age ≥40 years, male sex, BMI ≥50 kg/m2 and depression were associated with greater likelihood of ≥5 kg weight loss in phase 1 of GCWMS. Patients from the most deprived areas were significantly less likely to succeed but there was no clear trend across other socio-economic groups. Presence of diabetes mellitus about halved the odds of significant weight loss. In sex-specific adjusted models, men with histories of osteoarthritis and depression were significantly more likely to lose weight while heart disease reduced likelihood of weight loss by about two-thirds. In women, age ≥40 years, BMI ≥ 50 kg/m2 and anxiety increased the odds of success while diabetes mellitus halved it.

Table 1 Univariate and multivariate logistic regression on odds of weight loss of 5 kg or more in phase 1 of GCWMS. First referrals from November 2004 to December 2006 inclusive (n 2976)

GCWMS, Glasgow and Clyde Weight Management Service; ref., referent category; COPD, chronic obstructive pulmonary disease; SSRI, selective serotonin reuptake inhibitors; SIMD, Scottish Index of Multiple Deprivation.

Overall success in phase 1 is likely to reflect a mixture of compliance with, or completion of, the programme as well as its efficacy. We therefore analysed separately determinants of weight loss among completers (Table 2) and determinants of completion itself – defined as attending four or more sessions with GCWMS – among patients who had opted in (Table 3).

Table 2 Univariate and multivariate logistic regression results for odds of weight loss of 5 kg or more in phase 1 of GCWMS. First referrals from November 2004 to December 2006 inclusive (completers only, n 809)

GCWMS, Glasgow and Clyde Weight Management Service; ref., referent category; COPD, chronic obstructive pulmonary disease; SSRI, selective serotonin reuptake inhibitors; SIMD, Scottish Index of Multiple Deprivation.

Table 3 Determinants of completion (≥4 visits and ≥4 weights recorded) in phase 1 of GCWMS. First referrals from November 2004 to December 2006 inclusive (patients who opted-in, n 2156)

GCWMS, Glasgow and Clyde Weight Management Service; ref., referent category; COPD, chronic obstructive pulmonary disease; SSRI, selective serotonin reuptake inhibitors; SIMD, Scottish Index of Multiple Deprivation.

Among all 809 completers (Table 2) men were nearly twice as likely as women to lose the target weight of at least 5 kg, while diabetes reduced odds of success by 55 % (P < 0·01). In sex-specific analyses, the effect of diabetes was more pronounced in men (OR = 0·37, 95 % CI 0·18, 0·76) than women (OR = 0·49, 95 % CI 0·29, 0·82).

Determinants of completion of phase 1 of GCWMS are shown in Table 3. In both sexes combined, age ≥40 years and BMI ≥ 50 kg/m2 were associated with greater likelihood of completion. Chronic obstructive pulmonary disease (COPD) and living in the most socio-economically deprived areas were associated with lower likelihood of completion although no overall socio-economic trend was apparent. In sex-specific models, a clearer socio-economic pattern was evident in men, with those from the most affluent areas being nearly four times (OR = 3·74, 95 % CI 1·41, 9·95) more likely to complete the programme compared with patients from the most deprived areas. Among women, those aged ≥40 years were more likely to lose at least 5 kg, while the higher odds of weight loss in those with BMI ≥ 50 kg/m2 was of borderline significance. Women with histories of COPD and stroke were at reduced likelihood of completion of the programme.

Discussion

The results of the present study outline the functioning of the first two years of the first phase of a larger weight management programme provided under routine publicly funded health-care conditions. About one in seven patients (13·6 %) who opted into GCWMS lost at least 5 kg in phase 1 of the programme. Among patients who completed phase 1, over a third (35·5 %) lost their target weight. Overall effectiveness was determined by greater efficacy of the programme for some patient groups and by greater likelihood of completing the programme in others. Thus, although there was no significant difference in completion rates between the sexes, men who did complete the programme were more likely to lose their target weight. In contrast, patients with a BMI ≥ 50 kg/m2 were more likely than those with a BMI between 35 and 39 kg/m2 to complete the programme but no more likely to lose weight when they did. Diabetes mellitus reduced the likelihood of achieving the ≥5 kg target weight loss irrespective of attendance. The association between diabetes and poorer weight loss has been previously reported(11). Heart disease reduced likelihood of weight loss in men only, but as it was neither a predictor of weight loss among completers nor of completion, the significance of this association remains uncertain.

Weight management programmes are consistently poorly taken up by men(Reference Gray, Anderson and Clarke23). This may be because the service fails to recognise gender-specific issues or because of differences in concern with body weight and physical appearance between men and women(Reference Pliner, Chaiken and Flett24, Reference Wardle and Johnson25). Developing more gender-focused approaches may help to improve uptake and retention by men in weight loss programmes and preliminary findings from such initiatives are promising(Reference Gray, Anderson and Clarke23). We are considering possible ways to make GCWMS appeal specifically to men. Such modifications might involve increased emphasis on the ‘masculinisation’ of advice about exercise; use of humour which has been found to be more important to men; and spending more time on specific nutrition information such as portion size and alcohol use and less emphasis on the link between food and emotions(Reference Gray, Anderson and Clarke23). The lower referral rate of men to the service is consistent with others’ findings. Men are less likely to consult their doctor over signs of illness and are less likely to engage with health services generally for many conditions(Reference Kraemer26, Reference Mansfield, Addis and Mahalik27). Even when they are referred for weight management there is further poorer uptake by men to weight loss programmes(Reference Wolfe and Smith28). These combinations of men seeking help less and poorer engagement in health services may account for some of the apparent reluctance of men to engage in GCWMS. We found that women were less likely than men to succeed in losing weight in GCWMS, suggesting that further work is needed to make the programme more efficacious in women rather than to improve retention. Attrition rates in lifestyle interventions are often high and present a challenge for services that require long-term behaviour change before improvements are noticed in the presenting problem. Bradshaw et al.(Reference Bradshaw, Horwath and Katzer29) reported completion rates of 58 % among women (compared with 38 % in our study) in a non-dieting intervention in New Zealand, using a higher threshold than ours to define programme completion. Higher educational attainment and healthier nutritional behaviours were found to predict greater completion(Reference Bradshaw, Horwath and Katzer29). The poorer completion rates in patients from more deprived circumstances that we found are consistent with an association between lower educational attainment and poorer attendance.

Our finding that severe psychopathology is associated with higher levels of obesity is consistent with previous reports(Reference Carpenter, Hasin and Allison30Reference Onyike, Crum and Lee32). The associations between depression in men and anxiety in women and greater likelihood of target weight loss might be explained by the high level of psychological support provided in GCWMS. Psychological support aims to facilitate attendance by overcoming potential barriers. A multidisciplinary team infrastructure with immediate direct access to clinical psychology facilitates this process. Furthermore, a significant minority of obese clients attending specialist weight loss services will have more serious problems with disordered eating patterns, describing episodes of binging associated with feelings of loss of control and significant distress(Reference Yanovski, Nelson and Dubbert33). Problems of this kind can be a potential barrier to engaging with and remaining in treatment if not actively managed(Reference Jirik-Babb and Geliebter34). While the ultimate goal for programmes such as this is weight loss, the service also encompasses supporting clients to change habits surrounding their use of food. We are developing an innovative treatment approach to address severe disordered eating in combination with the standard weight loss programme. Achieving long-term behaviour change is necessary to reduce the health risks and psychosocial and economic costs associated with obesity.

Individuals from the most deprived areas were about half as likely to lose weight and complete phase 1 as those from the most affluent areas, with a clearer association seen in men compared with women. Lower socio-economic status has consistently been found to predict non-attendance and early termination from health services although the underlying reasons are not clear(Reference Reid35). They include greater practical obstacles to attending(Reference Reid35). The group programme was delivered as geographically close as possible for the lighter clients (those <120 kg were seen in local community venues which represents 60 % of the overall client group) with the heavier clients attending our base within a main city centre hospital location where an adapted environment had been created(11). Therefore equity of access in terms of geographical location is unlikely to be a major factor for this group of clients. In an effort to further support this group of patients in accessing this service we are working in partnership with the anticipatory care programme Keep Well, GCWMS being one of a menu of choices offered to this targeted population(36). It has also been found that there is a higher prevalence of psychological problems among the poorest sections of society yet these are the patients who are least likely to continue in and benefit from health services(Reference Jenkins, Bebbington and Brugha37). We found that weight loss among completers did not vary by socio-economic circumstances and therefore an emphasis should now be placed on improving retention within the service for patients who have opted in from more deprived areas.

Strengths and limitations

A particular strength of our study is that we report on outcomes among all patients referred to the GCWMS rather than only on those who completed the programme. Our study benefits from a relatively large sample size, a diverse socio-economic catchment population, and objective measures of height and weight. However, there are a number of limitations. At the time of writing, data were only available on outcomes for phase 1 of the GCWMS's two-phase weight loss programme; the true effectiveness of the service in achieving at least 5 kg weight loss will be higher than 10 % of initial referrals or 14 % of opted-in patients. Changes to information technology systems should provide both more recent data and information on outcomes for phase 2 in the future. GCWMS is managed with a cycle of continuous improvement, adopting new evidence-based practices over time, and it might be expected that more recent data may indicate improvements in retention and efficacy. Health-care professionals need to consider the willingness of a patient to undertake the necessary behaviour change required for effective weight management(12) before they refer to a specialist service. Over a quarter (27·6 %) of patients who are referred do not opt into the treatment programme. Assessment of willingness to change weight-related behaviour is an integral part of the GCWMS model, but uptake rates might be improved if the referrer raised the issue of motivation for weight loss prior to referring on any individual who alleges a commitment to weight loss. Further work is needed to educate and inform GP so that patients who are motivated to change their behaviour – and therefore likely to benefit from a specialist weight management service – are most effectively identified. Further work is also needed to evaluate weight loss, and weight loss maintenance, over longer time scales.

Conclusions

Strategies to reduce overweight and obesity require both primary and secondary preventive interventions and we have described an effective, replicable, multidisciplinary approach to treating obesity within routine health services. Most evaluations of secondary interventions have been within commercial or trial settings. The model described is the first phase of a much broader weight management pathway that comprises several phases and a full evaluation with a longer follow-up period is needed to determine its overall effectiveness. GCWMS outcomes are similar to those of a primary-care-based weight management programme(38). However, because GCWMS is delivered through group rather than individual sessions, it is likely to be more cost-effective. Further work is required to carry out a formal economic evaluation of the service once more data become available.

The first phase of the GCWMS programme is clinically effective for those who engage in treatment and complete the programme, among whom 36 % will be successful in losing at least 5 kg. The service can be provided under routine clinical conditions.

Acknowledgements

This study required no external funding and all authors were paid by their respective employers: S.B., C.M., N.G., G.A. and L.F. – NHS Greater Glasgow and Clyde; D.S.M. – NHS Greater Glasgow and Clyde and the University of Glasgow. None of the authors has any conflicts of interest to declare. All authors contributed to the design, interpretation and drafting of the manuscript. D.S.M., G.A. and N.G. also conducted statistical analyses.

References

1.Visscher, T & Seidell, JC (2001) The public health impact of obesity. Annu Rev Public Health 22, 355375.CrossRefGoogle ScholarPubMed
2.Renehan, AG, Tyson, M, Egger, M et al. (2008) Body-mass index and incidence of cancer: a systematic review and meta-analysis of prospective observational studies. Lancet 371, 569578.CrossRefGoogle Scholar
3.Government Office for Science (2008) Foresight Tackling Obesities: Future Choices, Project Report 2nd Edition. http://www.foresight.gov.uk/obesity/12.pdf (accessed May 2011).Google Scholar
4.The Scottish Office Department of Health (1997) The Scottish Health Survey 1995. http://www.sehd.scot.nhs.uk/publications/sh5/sh5-00.htm (accessed May 2011).Google Scholar
5.The Scottish Executive Department of Health (2000) The Scottish Health Survey 1998. http://www.sehd.scot.nhs.uk/scottishhealthsurvey/sh8-00.html (accessed May 2011).Google Scholar
6.The Scottish Executive (2005) The Scottish Health Survey 2003. http://www.scotland.gov.uk/Publications/2005/11/25145024/50251 (accessed May 2011).Google Scholar
7.The Scottish Government (2009) The Scottish Health Survey 2008. http://www.scotland.gov.uk/Publications/2009/09/28102003/76 (accessed May 2011).Google Scholar
8.Lemmens, VE, Oenema, A, Klepp, KI et al. (2008) A systematic review of the evidence regarding efficacy of obesity prevention interventions among adults. Obes Rev 9, 446455.CrossRefGoogle ScholarPubMed
9.Avenell, A, Broom, J, Brown, TJ et al. (2004) Systematic review of the long-term effects and economic consequences of treatments for obesity and implications for health improvement. Health Technol Assess 8, 21, 1458.CrossRefGoogle ScholarPubMed
10.Norris, SL, Zhang, X, Avenell, A et al. (2004) Long-term effectiveness of lifestyle and behavioural weight loss interventions in adults with type 2 diabetes: a meta-analysis. Am J Med 117, 762774.CrossRefGoogle ScholarPubMed
11.National Institute for Health and Clinical Excellence (2006) Obesity: The Prevention, Identification, Assessment and Management of Overweight and Obesity in Adults and Children. London: NICE; available at http://guidance.nice.org.uk/CG43Google Scholar
12.Scottish Intercollegiate Guidelines Network (2010) Management of Obesity: A National Clinical Guideline, no. 115. Edinburgh: SIGN; available at http://www.sign.ac.uk/guidelines/fulltext/115/indexhtmGoogle Scholar
13.Knowler, WC, Barrett-Connor, E, Fowler, SE et al. (2002) Reduction in the incidence of type 2 diabetes with lifestyle intervention or metformin. N Engl J Med 346, 393403.Google ScholarPubMed
14.Tuomilehto, J, Lindström, J, Eriksson, J et al. (2001) Prevention of type 2 diabetes mellitus by changes in lifestyle among subjects with impaired glucose tolerance. N Engl J Med 44, 13431349.CrossRefGoogle Scholar
15.National Heart, Lung, and Blood Institute (2000) The Practical Guide. Identification, Evaluation and Treatment of Overweight and Obesity in Adults. Bethesda, MD: National Institutes of Health; available at http://www.nhlbi.nih.gov/guidelines/obesity/prctgd_c.pdfGoogle Scholar
16.De Caestecker, L & Lachlan, M (editors) (2008) A Call to Debate: A Call to Action. A Report on the Health of the Population of NHS Greater Glasgow and Clyde 2007–2008. Glasgow: NHS Greater Glasgow and Clyde.Google Scholar
17.National Institute for Health and Clinical Excellence (2010) Weight Management Before, During and after Pregnancy: Guidance. NICE Public Health Guidance PH27. http://guidance.nice.org.uk/PH27/Guidance/ (accessed May 2011).Google Scholar
18.Scottish Intercollegiate Guidelines Network (1996) Obesity in Scotland: Integrating Prevention with Weight Management. Edinburgh: SIGN.Google Scholar
19.Snaith, RP (2003) The hospital anxiety and depression scale. Health Qual Life Outcomes 1, 29.CrossRefGoogle ScholarPubMed
20.Scottish Executive National Statistics (2006) Scottish Index of Multiple Deprivation 2006. General Report. Edinburgh: Scottish Executive National Statistics.Google Scholar
21.Counterweight Project Team (2004) A new evidence-based model for weight management in primary care: the Counterweight Programme. J Hum Nutr Diet 17, 191208.CrossRefGoogle Scholar
22.British Medical Association & Royal Pharmaceutical Society of Great Britain (2010) British National Formulary 59. London: BMJ Publishing.Google Scholar
23.Gray, CM, Anderson, A, Clarke, AM et al. (2009) Addressing male obesity: an evaluation of a group-based weight management intervention for Scottish men. J Mens Health 6, 7081.CrossRefGoogle Scholar
24.Pliner, P, Chaiken, S & Flett, GL (1990) Gender differences in concern with body weight and physical appearance over the life span. Pers Soc Psychol Bull 16, 263273.CrossRefGoogle Scholar
25.Wardle, J & Johnson, F (2002) Weight and dieting: examining levels of weight concern in British adults. Int J Obes Relat Metab Disord 26, 11441149.CrossRefGoogle Scholar
26.Kraemer, S (2000) The fragile male. BMJ 321, 16091612.CrossRefGoogle ScholarPubMed
27.Mansfield, A, Addis, M & Mahalik, JR (2003) Why won't he go to the doctor?: the psychology of men's help seeking. Int J Mens Health 2, 93109.CrossRefGoogle Scholar
28.Wolfe, BL & Smith, JE (2002) Different strokes for different folks: why overweight men do not seek weight loss treatment. J Eat Disord 10, 115124.CrossRefGoogle Scholar
29.Bradshaw, AJ, Horwath, CC, Katzer, L et al. (2009) Non-dieting group interventions for overweight and obese women: what predicts non-completion and does completion improve outcomes. Public Health Nutr 13, 16221628.CrossRefGoogle ScholarPubMed
30.Carpenter, KM, Hasin, DS, Allison, DB et al. (2000) Relationships between obesity and DSM-IV major depressive disorder, suicide ideation, and suicide attempts: results from a general population study. Am J Public Health 90, 251257.Google ScholarPubMed
31.Tuthill, A, Slawik, H, O'Rahilly, S et al. (2006) Psychiatric co-morbidities in patients attending specialist obesity services in the UK. Q J Med 99, 317325.CrossRefGoogle ScholarPubMed
32.Onyike, CU, Crum, RM, Lee, HB et al. (2003) Is obesity associated with major depression? Results from the Third National Health and Nutrition Examination Survey. Am J Epidemiol 158, 11391147.CrossRefGoogle ScholarPubMed
33.Yanovski, SZ, Nelson, JE, Dubbert, BK et al. (1993) Association of binge eating disorder and psychiatric comorbidity in obese subjects. Am J Psychiatry 150, 14721479.Google ScholarPubMed
34.Jirik-Babb, P & Geliebter, A (2003) Comparison of psychological characteristics of binging and nonbinging obese, adult, female outpatients. Eat Weight Disord 8, 173177.CrossRefGoogle ScholarPubMed
35.Reid, M (2009) Report of research to explore motivators and barriers to engagement with Health Checks. http://www.healthscotland.com (accessed May 2011).Google Scholar
36.NHS Health Scotland (2011) About Keep Well. http://www.keepwellscotland.org.uk/ (accessed May 2011).Google Scholar
37.Jenkins, R, Bebbington, P, Brugha, T et al. (1998) The British Psychiatric Morbidity Survey. Br J Psychiatry 1773, 47.CrossRefGoogle Scholar
38.The Counterweight Project Team (2008) Evaluation of the Counterweight Programme for obesity management in primary care: a starting point for continuous improvement. Br J Gen Pract 58, 548554.CrossRefGoogle Scholar
Figure 0

Fig. 1 Glasgow and Clyde Weight Management Service (GCWMS): hierarchy of services according to BMI (MDT, multidisciplinary team; GP, general practitioner)

Figure 1

Fig. 2 Flowchart showing all referrals to Glasgow and Clyde Weight Management Service (GCWMS) between November 2004 and December 2006

Figure 2

Table 1 Univariate and multivariate logistic regression on odds of weight loss of 5 kg or more in phase 1 of GCWMS. First referrals from November 2004 to December 2006 inclusive (n 2976)

Figure 3

Table 2 Univariate and multivariate logistic regression results for odds of weight loss of 5 kg or more in phase 1 of GCWMS. First referrals from November 2004 to December 2006 inclusive (completers only, n 809)

Figure 4

Table 3 Determinants of completion (≥4 visits and ≥4 weights recorded) in phase 1 of GCWMS. First referrals from November 2004 to December 2006 inclusive (patients who opted-in, n 2156)