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Prevalence of and risk factors for binge eating behaviour in 6930 adults starting a weight loss or maintenance programme

Published online by Cambridge University Press:  11 May 2015

Simona Bertoli ,
Alessandro Leone ,
Veronica Ponissi ,
Giorgio Bedogni ,
Valentina Beggio ,
Maria Grazia Strepparava  and
Alberto Battezzati
Simona Bertoli*
Affiliation:
International Center for the Assessment of Nutritional Status (ICANS), Department of Food, Environmental and Nutritional Sciences (DEFENS), University of Milan, Via Botticelli 21, 20133 Milan, Italy
Alessandro Leone
Affiliation:
International Center for the Assessment of Nutritional Status (ICANS), Department of Food, Environmental and Nutritional Sciences (DEFENS), University of Milan, Via Botticelli 21, 20133 Milan, Italy
Veronica Ponissi
Affiliation:
International Center for the Assessment of Nutritional Status (ICANS), Department of Food, Environmental and Nutritional Sciences (DEFENS), University of Milan, Via Botticelli 21, 20133 Milan, Italy
Giorgio Bedogni
Affiliation:
International Center for the Assessment of Nutritional Status (ICANS), Department of Food, Environmental and Nutritional Sciences (DEFENS), University of Milan, Via Botticelli 21, 20133 Milan, Italy Clinical Epidemiology Unit, Liver Research Center, Basovizza, Trieste, Italy
Valentina Beggio
Affiliation:
International Center for the Assessment of Nutritional Status (ICANS), Department of Food, Environmental and Nutritional Sciences (DEFENS), University of Milan, Via Botticelli 21, 20133 Milan, Italy
Maria Grazia Strepparava
Affiliation:
Department of Health Sciences, School of Medicine, University of Milan–Bicocca, Milan, Italy
Alberto Battezzati
Affiliation:
International Center for the Assessment of Nutritional Status (ICANS), Department of Food, Environmental and Nutritional Sciences (DEFENS), University of Milan, Via Botticelli 21, 20133 Milan, Italy
*
*Corresponding author: Email simona.bertoli@unimi.it
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Abstract

Objective

Conflicting data are available on the prevalence of binge eating behaviour (BE) in individuals seeking to lose or maintain weight. The present study aimed to estimate the prevalence of and the risk factors for BE in a large sample of men and women starting a weight loss or maintenance programme.

Design

Cross-sectional study. BE was defined as a Binge Eating Scale (BES) score ≥18. The State-Trait Anxiety Inventory and the Italian Depression Questionnaire were used to assess anxiety and depression. Besides sex, age and BMI, marital status, educational level, smoking and physical activity were evaluated as potential risk factors for BE. Uni- and multivariable Poisson working regression models were used to estimate prevalence ratios (PR) and marginal probabilities.

Setting

Nutritional research centre.

Subjects

Adults (n 6930; 72 % women) with a median age of 46 years (range 18–81 years) were consecutively studied.

Results

BE prevalence in the pooled sample was 17 %. At multivariable analysis, being a woman (PR=2·70), smoking (PR=1·15) and increasing BMI (PR=1·05 for 1 kg/m2 increase) were risk factors for BE. On the contrary, being older (PR=0·99 for 1-year increase), performing physical activity (PR=0·89) and being married (PR=0·88) were protective factors for BE. Anxiety and depression were more common in subjects with BE.

Conclusions

BE is common in individuals seeking to lose or maintain weight. The prevalence of BE is higher in young obese women. However, BE is present also in men, elders and normal-weight subjects.

Keywords

EpidemiologyCross-sectional studyObesityWeight lossBinge eatingAnxietyDepression
Type
Research Papers
Information
Public Health Nutrition , Volume 19 , Issue 1 , January 2016 , pp. 71 - 77
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Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/3.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
Copyright © The Authors 2015

Binge eating behaviour (BE) is characterized by: (i) eating, in a discrete period of time, an amount of food that is definitely larger than what most people would eat in a similar period of time under similar circumstances; and (ii) a sense of lack of control over eating( 1 ). BE is the primary diagnostic criterion of several disorders, i.e. binge eating disorder, bulimia nervosa, some subtypes of anorexia nervosa, and eating disorder not otherwise specified( 1 ).

BE is associated with excess energy intake, contributing to obesity and its complications( Reference Raymond, Bartholome and Lee 2 ). Diet therapy is the first-line treatment for obesity but about three-quarters of obese people under dietary treatment regain weight within one year( Reference Wing and Phelan 3 ). BE is associated with weight regain( Reference Elfhag and Rossner 4 Reference Keranen, Savolainen and Reponen 6 ), failed weight loss( Reference de Zwaan, Nutzinger and Schoenbeck 7 Reference Moroshko, Brennan and O’Brien 9 ) and anxiety and depression( Reference Bulik, Sullivan and Kendler 10 , Reference Pagoto, Bodenlos and Kantor 11 ). Early identification of BE is thus important in persons seeking to lose or maintain weight( Reference Andrade, Coutinho and Silva 12 ).

The prevalence of BE among individuals participating in weight-loss programmes has been reported to vary from 23 to 55 %( Reference Linde, Jeffery and Levy 13 ), but recent studies report lower estimates (17–19 %)( Reference Pacanowski, Senso and Oriogun 14 , Reference de Man Lapidoth, Ghaderi and Norring 15 ). The high variability of these estimates is partly explained by the heterogeneity of the study populations, the generally low sample sizes and the use of different methods to detect BE. Moreover, few and conflicting data are available on the association of BE with sex, age and nutritional status as most of the available studies have been performed in young obese women( Reference Presnell, Pells and Stout 5 , Reference de Zwaan, Nutzinger and Schoenbeck 7 , Reference de Man Lapidoth, Ghaderi and Norring 15 Reference Loh and Chan 17 ).

The present study, performed in a large sample of participants to a weight loss or maintenance programme, aimed to: (i) estimate the prevalence of BE; and (ii) test whether sex, age, BMI, educational level, smoking, physical activity and marital status are risk factors for BE.

Methods

Study design

We performed a cross-sectional study on 7524 consecutive adults who self-referred to the International Center for the Assessment of Nutritional Status (ICANS, University of Milan) from July 2008 to April 2014, in order to participate to a structured weight-loss or weight-maintenance programme. On the same day, they underwent a clinical examination, an anthropometric assessment and a structured interview by a trained dietitian, in order to obtain information about marital status, educational level, smoking and structured physical activity. The latter was investigated by asking subjects the following questions: ‘Do you practise any structured physical activity?’ and ‘How many hours per week do you spend on this activity?’ Individuals who devoted ≥2 h/week to any structured physical activity were considered as active. Moreover, all subjects filled in four questionnaires to evaluate the presence of BE and anxious and depressive symptoms. In order to be eligible for the study, the subjects had to be at least 18 years old and free of major organ disease (e.g. heart failure, cancer, neurological disease).

Anthropometric assessment

Anthropometric measurements were performed following international guidelines( Reference Lohman, Roche and Reynaldo 18 ). Body weight was measured to the nearest 100 g using a SECA 700 scale and height was measured to the nearest 0·1 cm using a SECA 217 vertical stadiometer (SECA, Hamburg, Germany). BMI was calculated as [weight (kg)]/[height (m)]2 and classified according to the WHO cut-offs (BMI=18·5–24·9 kg/m2, normal weight; BMI=25·0–29·9 kg/m2, overweight; BMI=30·0–34·9 kg/m2, obesity class 1; BMI=35·0–39·9 kg/m2, obesity class 2; and BMI≥40· kg/m2, obesity class 3)( 19 ).

Psychological assessment

Eating behaviour was evaluated using the Italian version of the Binge Eating Scale (BES)( Reference Gormally, Black and Daston 20 , Reference Di Bernardo, Barciulli and Ricca 21 ). BE was defined as a BES score ≥18( Reference Marcus, Wing and Hopkins 8 ). Anxious symptoms were evaluated using the Italian version of Spielberg et al.’s State-Trait Anxiety Inventory (STAI)( Reference Spielberg, Gorsuch and Lushene 22 ). Individuals with a STAI-X1 (state anxiety) score ≥99th percentile (raw score ≥65 for men and ≥71 for women) were excluded from the study. Anxiety was defined as a STAI-X2 (trait anxiety) score ≥95th percentile (raw score ≥56 for men and ≥62 for women)( Reference Sanavio 23 ). Depression was evaluated using the Italian Depression Questionnaire (DQ) and defined as a DQ score ≥95th percentile (raw score ≥10 for men and ≥15 for women)( Reference Sanavio 23 , Reference Balsamo and Saggino 24 ). Questionnaires were considered invalid when more of 10 % of items were missing( Reference Sanavio 23 ).

Statistical analysis

Most continuous variables had non-Gaussian distributions and all are reported as 25th, 50th and 75th percentiles. Discrete variables are reported as counts and percentages. A Poisson working regression model (PWRM) with robust 95 % confidence interval was used to estimate prevalence and prevalence ratios (PR)( Reference Lumley, Kronmal and Ma 25 , Reference Barros and Hirakata 26 ). A PWRM was used because a binomial regression model (BRM) failed to converge for some of the regressions of interest( Reference Lumley, Kronmal and Ma 25 , Reference Barros and Hirakata 26 ). Expectedly, the PR estimated by the PWRM and by the BRM were similar in all cases where both could computed( Reference Lumley, Kronmal and Ma 25 , Reference Barros and Hirakata 26 ). Uni- and multivariable PWRM were used to evaluate the associations of BE with sex, age, BMI, educational level, smoking status, physical activity and marital status. Univariable PWRM were used to model the association of anxiety and depression with sex, age and BMI. The outcome variables of all models (BE, anxiety, depression) were discrete (0=no; 1=yes). The covariates were coded as follows: (i) sex (discrete, 0=male; 1=female); (ii) age (continuous, years); (iii) BMI (continuous, kg/m2); (iv) educational level (discrete, 0=<high school; 1=≥high school); (v) smoking status (discrete, 0=no; 1=yes); (vi) physical activity (discrete, 0=no; 1=yes); and (vii) marital status (discrete, 0=unmarried; 1=married). Prevalence ratios and marginal probabilities were calculated from PWRM( Reference Williams 27 , Reference Muller and MacLehose 28 ). Univariable and multivariable fractional polynomials were used to test whether the relationships of continuous predictors with the outcomes were non-linear( Reference Royston and Sauerbrei 29 ). As there was a statistically significant but practically irrelevant improvement in model fit following an inverse transformation of BMI in the multivariable PWRM having BE as outcome, BMI was kept linear with the benefit of making the relationships more understandable to a clinical audience( Reference Hosmer, Lemeshow and Sturdivant 30 ).

Results

Study population

Out of 7524 eligible subjects, seventy-one had a STAI-XI score ≥99th percentile and were excluded from analysis as specified by the study protocol. Moreover, 523 subjects had at least one invalid questionnaire. In particular, 396 did not complete the BES questionnaire, seventy-six had missing answers in the STAI-X2 questionnaire and fifty-one had missing answers in the DQ. Thus data from 6930 subjects were available for analysis and their measurements are given in Table 1. The participants were mostly women (72 %) and aged 18–81 years (median age=46 years).

Table 1 Anthropometric and psychological measurements of the study subjects; men and women (median age 46 years) starting a weight loss or maintenance programme, Milan, Italy, July 2008 to April 2014

n, number of subjects; P50, 50th percentile; P25, 25th percentile; P75, 75th percentile; STAI-X1, State-Trait Anxiety Inventory (state anxiety) score; SDS, standard deviation score; STAI-X2, State-Trait Anxiety Inventory (trait anxiety) score; DQ, Italian Depression Questionnaire score; BES, Binge Eating Scale score.

Table 2 reports the anthropometric status, marital status, educational level, smoking status, physical activity, and the frequency of BE, anxiety and depression in all subjects as well as stratified by sex.

Table 2 Anthropometric, lifestyle and psychological features of the study subjects; men and women (median age 46 years) starting a weight loss or maintenance programme, Milan, Italy, July 2008 to April 2014

n, number of subjects; %, percentage of subjects; BES, Binge Eating Scale score; STAI-X1, State-Trait Anxiety Inventory (state anxiety) score; STAI-X2, State-Trait Anxiety Inventory (trait anxiety) score; DQ, Italian Depression Questionnaire score.

* Subjects with STAI-X1≥99th percentile were excluded from the study.

Prevalence of and risk factors for binge eating

The prevalence of BE in the pooled sample was 17 % (95 % CI 16 %, 18 %). Such prevalence was higher in women compared with men (PR=2·49, 95 % CI 2·12, 2·92, P<0·001; corresponding to probabilities of 20 % v. 8 %), decreased with increasing age (PR=0·99, 95 % CI 0·98, 0·99 for each 1-year increase, P<0·001) and increased with increasing BMI (PR=1·03, 95 % CI 1·03, 1·04 for each 1-kg/m2 increase, P<0·001; univariable PWRM).

Table 3 reports the PR obtained from the multivariable PWRM. As educational level was not associated with BE prevalence (model 1 of Table 3), it was removed from the final model (model 2 of Table 3). The PR of the remaining covariates changed very little from model 2 to model 1. In the final model (model 2 of Table 3), age (PR=0·99 for each 1-year increase), physical activity (PR=0·89) and being married (PR=0·88) were inversely associated with BE prevalence. On the contrary, being a woman (PR=2·70) and smoking (PR=1·15) were directly associated with the prevalence of BE. It should be noted that the 95 % CI of the PR associated with smoking (1·02, 1·29), physical activity (0·80, 0·99) and marital status (0·79, 0·99) were wide, suggesting that larger samples of subjects are needed to estimate these effects with acceptable precision.

Table 3 Predictors of binge eating prevalence among men and women (n 6930; median age 46 years) starting a weight loss or maintenance programme, Milan, Italy, July 2008 to April 2014

Values are prevalence ratios (PR) with robust 95 % confidence intervals obtained from a multivariable Poisson working model; n, number of subjects.

*P<0·05, **P<0·001.

Figure 1 plots the prevalence of BE estimated from model 2 of Table 3 as a function of age and BMI in married and non-smoking men and women. It can be seen that the prevalence of BE is higher in females across all ages and BMI levels.

Fig. 1 Prevalence of binge eating (BE) as a function of sex (a, men; b, women), age and BMI (, 18·5 kg/m2; , 24·9 kg/m2; , 30·0 kg/m2) among 6930 subjects (median age 46 years) starting a weight loss or maintenance programme, Milan, Italy, July 2008 to April 2014. Values are point estimates of marginal probabilities, with 95 % confidence intervals indicated by vertical bars, estimated for married, non-smoking and physically active individuals

Prevalence of anxiety

The prevalence of anxiety in the pooled sample was 4 % (95 % CI 3 %, 4 %). Such prevalence was similar for women v. men (PR=1·04, 95 % CI 0·80, 1·36, P=0·75) but increased with increasing age (PR=1·03, 95 % CI 1·01, 1·04, P<0·001 for 1-year increase) and BMI (PR=1·05, 95 % CI 1·03, 1·07, P<0·001 for 1-kg/m2 increase; univariable PWRM). Expectedly, the prevalence of anxiety was higher in subjects with than in those without BE (PR=4·20, 95 % CI 3·40, 5·40, P<0·001; corresponding to probabilities of 11 % v. 3 %).

Prevalence of depression

The prevalence of depression in the pooled sample was 3 % (95 % CI 3 %, 4 %). It was lower in women compared with men (PR=0·57, 95 % CI 0·43, 0·75, P<0·001), did not change with age (PR=0·99, 95 % CI 0·99, 1·00, P=0·24 for 1-year increase) and increased with BMI (PR=1·06, 95 % CI 1·04, 1·08, P<0·001 for 1-kg/m2 increase; univariable PWRM). The prevalence of depression was higher subjects with than in those without BE (PR=5·00, 95 % CI 3·90, 6·50, P<0·001; corresponding to probabilities of 9 % v. 2 %).

Lastly, the prevalence of both anxious and depressive symptoms was higher in BE than in non-BE subjects (5 %, 95 % CI 3 %, 7 % v. 1 %, 95 % CI 0 %, 1 %, P<0·001; univariable PWRM).

Discussion

To our knowledge, the present study is the largest performed so far to estimate the prevalence of and the risk factors for BE in men and women enrolling into a weight loss or maintenance programme and the first study to systematically evaluate potential risk factors for BE besides sex, age and BMI.

The study adds to the available literature in that it was performed on a large sample of men and women with wide variation in both age (18 to 81 years) and BMI (from normal weight to class 3 obesity). However, it has several limitations. First, as it was performed in subjects enrolled at a nutritional research centre, its findings are unlikely to extend to the general population. Second, because of its cross-sectional nature, it cannot test whether changes in BE are associated with changes in body weight and a cohort study is needed to test this hypothesis. Third, we did not separate moderate from severe BE, as it is sometimes done using BES, as in our view this is more coherent with the screening psychometric properties of BES.

Our estimate of 17 % for the prevalence of BE is in agreement with recent studies( Reference Pacanowski, Senso and Oriogun 14 , Reference de Man Lapidoth, Ghaderi and Norring 15 ) but lower than that reported by other studies( Reference Linde, Jeffery and Levy 13 , Reference de Zwaan and Mitchell 31 ). The most likely explanation for this difference is that we did not restrict our analysis to young obese women as done by most studies( Reference de Zwaan, Nutzinger and Schoenbeck 7 , Reference de Zwaan and Mitchell 31 , Reference Skinner, Haines and Austin 32 ). Including males, elders and normal-weight subjects, as we deliberately did here, is expected to decrease the overall prevalence of BE. Up to now, few studies have evaluated men( Reference Presnell, Pells and Stout 5 , Reference Pacanowski, Senso and Oriogun 14 Reference Loh and Chan 17 ) and normal-weight subjects( Reference Pacanowski, Senso and Oriogun 14 , Reference Loh and Chan 17 ). In order to allow a comparison with the available studies, performed mostly on obese women, the prevalence of BE in women in the present study was 14 % (95 % CI 12 %, 16 %) for normal-weight, 18 % (95 % CI 17 %, 20 %) for overweight, 24 % (95 % CI 22 %, 27 %) for class 1 obesity, 31 % (95 % CI 27, 35 %) for class 2 obesity and 32 % (95 % CI 26, 39 %) for class 3 obesity. On the other hand, in men we found a prevalence of BE of 1 % (95 % CI 1 %, 2 %), 5 % (95 % CI 3 %, 7 %), 10 % (95 % CI 8 %, 13 %), 12 % (95 % CI 8 %, 16 %), 17 % (95 % CI 9 %, 24 %) in normal-weight, overweight and 1, 2, 3 obesity classes, respectively. Our estimate of 17 % for the prevalence of BE is also lower than what we reported in a smaller sample of the same population (n 1472)( Reference Bertoli, Spadafranca and Bes-Rastrollo 33 ). Much of this difference stems from the fact that we defined BE as a BES score ≥18 instead of a BES score ≥17, as we did in our previous analysis. The reason for this choice is that, even though the BES≥17 cut-off point is used by most Italian studies, the BES≥18 cut-off point allows international comparisons( Reference Marcus, Wing and Hopkins 8 , Reference Dalle Grave, Calugi and Petroni 34 ). It is noteworthy how a small change in the cut-off point used to diagnose BE can make its prevalence to vary so widely.

In agreement with other studies( Reference Hudson, Hiripi and Pope 35 , Reference Preti, Girolamo and Vilagut 36 ), the prevalence of BE was higher in women than in men, decreased with increasing age and increased with increasing BMI. Although some studies did not detect between-sex differences in the prevalence of BE( Reference de Man Lapidoth, Ghaderi and Norring 15 , Reference Kelly-Weeder, Phillips and Leonard 37 ), other studies reported a greater prevalence of BE among women( Reference Presnell, Pells and Stout 5 , Reference Bertoli, Spadafranca and Bes-Rastrollo 33 , Reference Dalle Grave, Calugi and Petroni 34 ). Interestingly, there was virtually no change in the association of sex with BE after correction for confounders. In keeping with other studies( Reference de Zwaan, Nutzinger and Schoenbeck 7 , Reference de Zwaan and Mitchell 31 ), we found that the prevalence of BE decreased with increasing age. The effect of age on BE prevalence was similar at univariable and multivariable analysis, with an increase of 1 year in age associated with decrease of 1 % in BE prevalence. As expected( Reference Presnell, Pells and Stout 5 , Reference Pacanowski, Senso and Oriogun 14 ), the prevalence of BE was directly associated with BMI. After correction for multiple confounders, an increase of 1 kg/m2 in BMI was associated with an increase of 5 % in BE prevalence. Very few data are presently available on the prevalence of BE in normal-weight subjects( Reference Goldschmidt, Le Grange and Powers 38 , Reference Dingemans and van Furth 39 ). We found that BE was present also among normal-weight subjects, especially among women, although to a much lesser extent than among overweight and obese subjects.

Contrarily to other researchers( Reference Pacanowski, Senso and Oriogun 14 , Reference de Man Lapidoth, Ghaderi and Norring 15 , Reference Reagan and Hersch 40 ), we found that being married was a protective factor for BE. Other variables being equal, a married subject in our study had in fact a decrease of 12 % in BE prevalence. A direct association of BE with smoking was reported by other researchers( Reference Kelly-Weeder, Phillips and Leonard 37 , Reference Anzengruber, Klump and Thornton 41 ). In the present study, smoking was associated with a 15 % increase in the prevalence of BE. Interestingly, and contrarily to other researchers( Reference Burmeister and Carels 42 ), we found an inverse association between BE and physical activity. Being active was in fact associated with an 11 % lower prevalence of BE. In agreement with most( Reference Linde, Jeffery and Levy 13 , Reference Pacanowski, Senso and Oriogun 14 , Reference Loh and Chan 17 , Reference de Zwaan and Mitchell 31 ) but not all( Reference Presnell, Pells and Stout 5 , Reference de Zwaan, Nutzinger and Schoenbeck 7 ) studies, we found that anxiety and depression were more prevalent in subjects with than in those without BE.

In conclusion, BE is common in individuals seeking to lose or maintain weight. The prevalence of BE is higher in young obese women. However, BE is present also in men, elders and normal-weight subjects. These findings reinforce the need to evaluate the eating behaviour of individuals starting weight loss or maintenance programmes.

Acknowledgements

Acknowledgements: The authors wish to thank the ICANS research staff, and especially Maria Cazzulani, Diana Osio, Lidia Lewandowski, Valentina Giustizieri, Silvia Filippini, Anna Pirovano and Giovanna Croce, for their help during this study. Financial support: This work was supported by ICANS internal grants. Conflict of interest: None. Authorship: S.B., M.G.S. and A.B. conceived the study; S.B., V.P., V.B. and A.L. carried out the study; G.B. and A.L. performed statistical analysis; S.B., A.L. and V.P. drafted the manuscript; all authors had final approval of the submitted and published versions. Ethics of human subject participation: The study was carried out according to the Declaration of Helsinki and each participant gave written informed consent to participate.

References

1. American Psychiatric Association (2013) Diagnostic and Statistical Manual of Mental Disorders, 5th ed. Arlington, VA: American Psychiatric Publishing.Google Scholar
2. Raymond, NC, Bartholome, LT, Lee, SS et al. (2007) A comparison of energy intake and food selection during laboratory binge eating episodes in obese women with and without a binge eating disorder diagnosis. Int J Eat Disord 40, 6771.CrossRefGoogle ScholarPubMed
3. Wing, RR & Phelan, S (2005) Long-term weight loss maintenance. Am J Clin Nutr 82, 1 Suppl., 222S225S.CrossRefGoogle ScholarPubMed
4. Elfhag, K & Rossner, S (2005) Who succeeds in maintaining weight loss? A conceptual review of factors associated with weight loss maintenance and weight regain. Obes Rev 6, 6785.CrossRefGoogle ScholarPubMed
5. Presnell, K, Pells, J, Stout, A et al. (2008) Sex differences in the relation of weight loss self-efficacy, binge eating, and depressive symptoms to weight loss success in a residential obesity treatment program. Eat Behav 9, 170180.CrossRefGoogle Scholar
6. Keranen, AM, Savolainen, MJ, Reponen, AH et al. (2009) The effect of eating behavior on weight loss and maintenance during a lifestyle intervention. Prev Med 49, 3238.CrossRefGoogle ScholarPubMed
7. de Zwaan, M, Nutzinger, DO & Schoenbeck, G (1992) Binge eating in overweight women. Compr Psychiatry 33, 256261.Google Scholar
8. Marcus, MD, Wing, RR & Hopkins, J (1988) Obese binge eaters: affect, cognitions, and response to behavioural weight control. J Consult Clin Psychol 56, 433439.Google Scholar
9. Moroshko, I, Brennan, L & O’Brien, P (2011) Predictors of dropout in weight loss interventions: a systematic review of the literature. Obes Rev 12, 912934.CrossRefGoogle Scholar
10. Bulik, CM, Sullivan, PF & Kendler, KS (2002) Medical and psychiatric morbidity in obese women with and without binge eating. Int J Eat Disord 32, 7278.Google Scholar
11. Pagoto, S, Bodenlos, JS, Kantor, L et al. (2007) Association of major depression and binge eating disorder with weight loss in a clinical setting. Obesity (Silver Spring) 15, 25572559.Google Scholar
12. Andrade, AM, Coutinho, SR, Silva, MN et al. (2010) The effect of physical activity on weight loss is mediated by eating self-regulation. Patient Educ Couns 79, 320326.Google Scholar
13. Linde, JA, Jeffery, RW, Levy, RL et al. (2004) Binge eating disorder, weight control self-efficacy, and depression in overweight men and women. Int J Obes Relat Metab Disord 28, 418425.CrossRefGoogle ScholarPubMed
14. Pacanowski, CR, Senso, MM, Oriogun, K et al. (2014) Binge eating behavior and weight loss maintenance over a 2-year period. J Obes 2014, 249315.Google Scholar
15. de Man Lapidoth, J, Ghaderi, A & Norring, C (2006) Eating disorders and disordered eating among patients seeking non-surgical weight-loss treatment in Sweden. Eat Behav 7, 1526.CrossRefGoogle ScholarPubMed
16. Imperatori, C, Innamorati, M, Contardi, A et al. (2014) The association among food addiction, binge eating severity and psychopathology in obese and overweight patients attending low-energy-diet therapy. Compr Psychiatry 55, 13581362.Google Scholar
17. Loh, CB & Chan, YH (2010) Psychological symptoms in people presenting for weight management. Ann Acad Med Singapore 39, 778782.Google Scholar
18. Lohman, TG, Roche, AF & Reynaldo, M (1988) Anthropometric Standardization Reference Manual, 3rd ed. Champaign, IL: Human Kinetics Books.Google Scholar
19. World Health Organization (2000) Obesity: Preventing and Managing the Global Epidemic. Report of a WHO Consultation. WHO Technical Report Series no. 894. Geneva: WHO.Google Scholar
20. Gormally, J, Black, S, Daston, S et al. (1982) The assessment of binge eating severity among obese persons. Addict Behav 7, 4755.CrossRefGoogle ScholarPubMed
21. Di Bernardo, M, Barciulli, E, Ricca, V et al. (1998) Validazione della versione italiana della Binge Eating Scale in pazienti obesi. Minerva Psichiatr 39, 125130.Google Scholar
22. Spielberg, CD, Gorsuch, RL & Lushene, RE (1970) Manual for the State-Trait Anxiety Inventory (self-evaluation questionnaire). Palo Alto, CA: Consulting Psychologists Press.Google Scholar
23. Sanavio, E (2002) Le scale CBA. Cognitive Behavioural Assessment: un modello di indagine psicologica multidimensionale, 1st ed. Milano: Raffaello Cortina.Google Scholar
24. Balsamo, M & Saggino, A (2007) Test per l’assessment della depressione nel contesto italiano: un’analisi critica. Psicoterapia Cognitiva e Comportamentale 13, 167199.Google Scholar
25. Lumley, T, Kronmal, R & Ma, S (2006) Relative Risk Regression in Medical Research: Models, Contrasts, Estimators, and Algorithms. UW Biostatistics Working Paper Series no. 293; available at http://biostats.bepress.com/uwbiostat/paper293 Google Scholar
26. Barros, AJ & Hirakata, VN (2003) Alternatives for logistic regression in cross-sectional studies: an empirical comparison of models that directly estimate the prevalence ratio. BMC Med Res Methodol 3, 21.Google Scholar
27. Williams, R (2012) Using the margins command to estimate and interpret adjusted predictions and marginal effects. Stata J 12, 308331.Google Scholar
28. Muller, CJ & MacLehose, RF (2014) Estimating predicted probabilities from logistic regression: different methods correspond to different target populations. Int J Epidemiol 43, 962970.Google Scholar
29. Royston, P & Sauerbrei, W (2008) Multivariable Model-Building: A Pragmatic Approach to Regression Analysis Based on Fractional Polynomials for Modelling Continuous Variables. Chichester: John Wiley & Sons.Google Scholar
30. Hosmer, DW Jr, Lemeshow, S & Sturdivant, R (2013) Applied Logistic Regression, 3rd ed. Hoboken, NJ: John Wiley & Sons Inc.Google Scholar
31. de Zwaan, M & Mitchell, JE (1992) Binge eating in the obese. Ann Med 24, 303308.Google Scholar
32. Skinner, HH, Haines, J, Austin, SB et al. (2012) A prospective study of overeating, binge eating, and depressive symptoms among adolescent and young adult women. J Adolesc Health 50, 478483.Google Scholar
33. Bertoli, S, Spadafranca, A, Bes-Rastrollo, M et al. (2015) Adherence to the Mediterranean diet is inversely related to binge eating disorder in patients seeking a weight loss program. Clin Nutr 34, 107114.Google Scholar
34. Dalle Grave, R, Calugi, S, Petroni, ML et al. (2010) Weight management, psychological distress and binge eating in obesity. A reappraisal of the problem. Appetite 54, 269273.CrossRefGoogle ScholarPubMed
35. Hudson, JI, Hiripi, E, Pope, HG Jr et al. (2007) The prevalence and correlates of eating disorders in the National Comorbidity Survey Replication. Biol Psychiatry 61, 348358.Google Scholar
36. Preti, A, Girolamo, G, Vilagut, G et al. (2009) The epidemiology of eating disorders in six European countries: results of the ESEMeD-WMH project. J Psychiatr Res 43, 11251132.CrossRefGoogle ScholarPubMed
37. Kelly-Weeder, S, Phillips, K, Leonard, K et al. (2014) Binge eating and weight loss behaviors of overweight and obese college students. J Am Assoc Nurse Pract 26, 445451.CrossRefGoogle ScholarPubMed
38. Goldschmidt, AB, Le Grange, D, Powers, P et al. (2011) Eating disorder symptomatology in normal-weight vs. obese individuals with binge eating disorder. Obesity (Silver Spring) 19, 15151518.Google Scholar
39. Dingemans, AE & van Furth, EF (2012) Binge eating disorder psychopathology in normal weight and obese individuals. Int J Eat Disord 45, 135138.Google Scholar
40. Reagan, P & Hersch, J (2005) Influence of race, gender, and socioeconomic status on binge eating frequency in a population-based sample. Int J Eat Disord 38, 252256.Google Scholar
41. Anzengruber, D, Klump, KL, Thornton, L et al. (2006) Smoking in eating disorders. Eat Behav 7, 291299.Google Scholar
42. Burmeister, JM & Carels, RA (2014) Television use and binge eating in adults seeking weight loss treatment. Eat Behav 15, 8386.Google Scholar
Figure 0

Table 1 Anthropometric and psychological measurements of the study subjects; men and women (median age 46 years) starting a weight loss or maintenance programme, Milan, Italy, July 2008 to April 2014

Figure 1

Table 2 Anthropometric, lifestyle and psychological features of the study subjects; men and women (median age 46 years) starting a weight loss or maintenance programme, Milan, Italy, July 2008 to April 2014

Figure 2

Table 3 Predictors of binge eating prevalence among men and women (n 6930; median age 46 years) starting a weight loss or maintenance programme, Milan, Italy, July 2008 to April 2014

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Fig. 1 Prevalence of binge eating (BE) as a function of sex (a, men; b, women), age and BMI (, 18·5 kg/m2; , 24·9 kg/m2; , 30·0 kg/m2) among 6930 subjects (median age 46 years) starting a weight loss or maintenance programme, Milan, Italy, July 2008 to April 2014. Values are point estimates of marginal probabilities, with 95 % confidence intervals indicated by vertical bars, estimated for married, non-smoking and physically active individuals