Abstract
Background
Obesity is a global public health concern. The goal of this study was to see if eating habits could mediate the relationship between psychological distress and weight maintenance in a population with a history of weight cycling.
Methods
A 3-month outpatient intervention consisting of a diet and exercise program was provided to 153 participants. Psychological distress, appetite, and behavior were assessed at the beginning and end of the study. Anthropometric measurements were taken at baseline and six months.
Results
After the structural equation model was developed, it was discovered that the psychological status of people with obesity and weight cycling histories correlated with the weight loss outcome effect (three and six months). This effect was mediated by factors related to eating behavior. Associative psychological factors had a direct effect on eating behavior (three months: β = 0.181, 95% CI: 0.055–0.310; six months: β = 0.182, 95% CI: 0.039–0.332) and appetite had a direct effect on eating behavior (three months: β = 0.600, 95% CI: 0.514–0.717; six months: β = 0.581, 95% CI: 0.457–0.713), both of which were significant (p < 0.01). At three months, psychological distress has a more substantial positive impact on weight change, with eating behavior acting as a partial mediator. At six months, there was no support for appetite’s moderating role in eating behavior.
Conclusions
The findings suggest that psychological interventions should be strengthened to improve weight loss effectiveness, particularly in participants with a history of weight cycling, making weight loss more complicated and prone to rebound.
Clinical trial registration
The study has been registered in Clinical Trials (NCT05311462).
Similar content being viewed by others
Introduction
The obesity epidemic is a global public health issue. In 2016, approximately 1.9 billion adults were people with overweight, and over 650 million adults were people with obesity [1]. According to the World Health Organization (WHO), approximately 60% of European adults were people with overweight or obesity as of 2022 [2]. Severe obesity increases the risk of various diseases, including adverse cardiovascular events, non-alcoholic fatty liver disease, and cancer, thereby endangering the lives of the population with obesity [3,4,5]. However, research indicates that even when using the same weight loss strategy, there is significant individual variation in the degree of weight loss among people with obesity. This often results in a cycle of losing weight and regaining it, complicating long-term weight maintenance [6]. Weight maintenance is defined as the intentional loss of weight and subsequent maintenance of that weight for at least six months [7]. Weight cycling is a cyclical cycle of weight loss (≥ 5 kg) and weight regain, affecting 20–30% of adults [7, 8]. Several studies have found that weight cycling increases weight, the metabolic burden and chances of develo** chronic disease of people with obesity [9, 10].
Most current medical weight loss interventions combine lifestyle changes, such as diet and exercise, with medication and surgery being recommended for those with severe obesity and co-morbidities [10]. Energy restriction and changes in macronutrient distribution are common dietary interventions, and exercise interventions alternate between aerobic and resistance exercise training. However, adhering to these exercise and healthy eating plans is challenging for most participants, especially those who have experienced weight cycling. After multiple weight regains, physiologically in terms of body composition changes and metabolic alterations and psychologically in terms of internal drive [11].
Depression, anxiety, and other forms of distress are referred to as psychological distress [12, 13]. Previous studies have established a strong association between psychological issues such as anxiety and depression with weight cycling or weight regain [14, 15]. Large-sample statistical analyses have revealed that populations with weight cycling were more likely to experience depressive symptoms than non-weight cyclers and that there was a link between frequent weight cycling and depression [16]. In addition, participants with bipolar disorder and a history of weight cycling, particularly those who often regained lost weight or struggled to sustain their weight loss, experienced more frequent relapses of symptoms such as mania and depression [17].. A subsequent study discovered that adults with baseline anxiety and depression exhibited lower levels of weight maintenance over two years, were more likely to gain weight, and that depression severity had a dose-response effect with significant weight gain [18,19,20]. In contrast, some remission of major depression and dysthymia was linked to improved weight control and loss. It indicated a clear relationship between psychiatric and psychological distress, weight cycling, and weight maintenance. Mental and psychological distress have been identified as essential factors in the development of certain diseases. Psychological stress has an impact on irritable bowel syndrome. Severe mental illness and cardiovascular disease have some root causes in common, and those who have a mental illness are more likely to develop cardiovascular disease [21, 22]. Currently, studies on obesity-related diseases suggests that mental stress may influence changes in eating behavior and metabolic disorders among diseases associated with obesity. According to an increasing number of studies, independent mental diseases are closely related to the occurrence of metabolic diseases [23]. We hypothesize that reducing psychological distress in people with obesity and a history of weight cycling will lead to better weight-loss outcomes.
Eating behavior can also be influenced by psychological distress. Previous cross-sectional studies have discovered a link between psychological distress and emotional eating, binge eating, and external eating. Emotional eating behaviors, in general, are mediators of the effect of psychological distress on health-related quality of life [24]. Psychological distress regulation is strongly linked to problematic eating behavior in adolescents [25]. The indirect effect of psychological distress on emotional eating via emotional dysregulation was found to be significant in mediation analyses [26]. Furthermore, 25% of adults eligible for weight loss surgery exhibit food addiction and binge eating behavior, which is linked to a high prevalence of psychological distress, including depression and anxiety disorders [27]. It is important to note that eating behavior has been linked to both psychological distress and weight loss levels. Previous research has found that changes in eating habits for weight loss are associated with better outcomes [28]. The presence and severity of eating behaviors may play a role in mediating the relationship between psychological distress and weight loss levels. However, most prior studies have primarily focused on individual factors like depression, anxiety, attitudes towards healthy eating, or exercise habits, only examining their isolated impact on weight maintenance [29].
There have been few studies that look at the link between psychological distress, eating habits, and weight loss maintenance. We proposed a hypothesis that explores a sequential pathway involving psychological status, eating behavior, and weight control. This hypothesis is based on theoretical assumptions derived from existing research in the field, suggesting a complex interplay between these factors in individuals experiencing weight cycling. Our study aims to empirically test this pathway to better understand the mechanisms underlying successful weight management. This sequence is speculated to influence the effectiveness of weight loss in populations experiencing weight cycling. We used a cohort of weight loss clinic participants in this study. This study looked at the relationship between psychological distress, appetite, eating behavior, and weight loss outcomes in outpatients who had a history of weight cycling. It also examined whether the mediation effect of eating behavior between psychological status and body mass index (BMI) change found in previous studies can be replicated and whether this mediation effect is dependent on appetite. Using a structural equation model (SEM) for path analysis, we assessed the mediation and moderated mediation between psychological status, eating behavior, and weight loss. To the best of our knowledge, this is the first study to investigate the relationship between psychological distress and weight control in a cohort of participants with obesity and a history of weight cycling, as well as to mediate the role of eating behavior. This evidence will inform future improvements in psychological interventions for participants with a history of obesity and weight cycling (people experiencing weight loss difficulties), as well as provide a theoretical foundation for advancements in multi-disciplinary team (MDT) weight loss intervention strategies aimed at promoting physical and mental health.
Method
Participants
The Population with Weight Cycle Obesity Study at Peking Union Medical College Hospital was used in this investigator-initiated cohort study. The goal was to investigate the mechanisms and interventions that explain the differences in weight maintenance outcomes in this population. The study included outpatients recruited in the Clinical Nutrition Department of Peking Union Medical College Hospital in April 2022. Participants had purposefully lost and regained weight before attending the clinic. Weight loss prior to the visit occurred on its own and was not part of the study’s weight loss program. Weight cycling was defined as one or more episodes of weight loss in the previous two years, followed by weight recovery of 5% or more of the baseline weight before weight loss. The inclusion criteria were: aged 18 to 50 years; 28 ≤ BMI < 35 kg/m2; ability to comply with the weight loss intervention; and a history of weight cycling. The exclusion criteria were: weight loss of more than 10% over the past year; taking medication that affects weight, glucose and lipid metabolism, blood pressure, lipids, and hormones currently or over the past six months; currently pregnant or breastfeeding women; a history of severe cardiovascular, gastrointestinal, psychiatric, and cancer diseases; with abnormal liver and kidney function; and inability to complete the study well for various reasons. The researchers examined the causes of weight loss in the participants, excluding weight loss caused by various diseases (see exclusion criteria for details) and including only weight loss caused by conscious weight loss (e.g., dieting or increased exercise) or other lifestyle intervention programs for weight loss (non-drug and surgical treatments) that were begun and completed before the participants entered the study. People with obesity and a history of weight cycling comprised 153 (53 men and 100 women) participants who completed the three-month outpatient intervention program and six-month follow-up. Pregnancy, withdrawal, missed visits, and the sudden onset of illnesses that made participation in the study impossible were all reasons for non-completion. The Human Ethics Committee of PUMC Hospital approved the study (No. ZS-3067), and all participants provided written informed consent. The study was carried out following the principles of the Helsinki Declaration. It was published in Clinical Trials (NCT05311462).
Measurement
Participants’ height and body weight were measured using standard methods in light clothing and without shoes by a mechanical column scale (seca, China) and a bioelectrical impedance body composition analyzer (seca, China), respectively. The specialist prescribed a routine intervention program in the outpatient clinic for these participants. The diet was high-protein and energy-restricted (20–25 kcal/kg/d, of which protein was 1.5 kg/d). The exercise program included 40 min of aerobic exercise and 20 min of resistance exercise daily.
The program required six months of program adherence and daily weight recording, with weekly professional follow-up to ensure compliance. Following the completion of the intervention program, the specialist advised participants to maintain a healthy diet (following the Chinese Dietary Guidelines 2023) and check in with the online community every week. Six months of follow-up had elapsed when the article was finished, and the study had been running for nine months.
At baseline, at the end of the three-month intervention program, and after six months of follow-up, we measured participants’ height and weight. Body mass index (BMI) was calculated as BMI = weight (kg) / height (m)2. ΔBMI1 was the difference between BMI 1 (baseline) and BMI 2 (three months), while ΔBMI2 was the difference between BMI 1 and BMI 3 (six months). Weight loss was calculated as follow-up BMI (kg/m2)– baseline BMI (kg/m2). A questionnaire collected basic information such as name, gender, age, smoking, drinking, exercise, sleep habits, and medical histories. The questionnaire also asked all participants if they had ever tried to lose weight, how many times they had, and how much they had lost. Weight cycling was defined as having more than one weight loss episode in the previous two years and gaining more than 5% of the pre-weight loss baseline weight.
Scales
All participants independently completed self-report questionnaires under the supervision of investigators, including sociodemographic information (e.g., age, gender, BMI, ethnicity) and the following scales, which were returned to the researchers immediately:
Symptom-Checklist-K-9(SCL-K-9) [30]
The SCL-K-9 is a short, unidimensional version of the SCL-90-R Symptom Checklist 90 Revised (SCL-90-R) [31], a self-report questionnaire that assesses general psychiatric symptoms and psychological status and is recommended as a validated screening scale for psychological assessment by the American Society for Metabolic and Bariatric Surgery. It consists of nine SCL-90-R items (#24, #28, #31, #34, #43, #57, #58, #75, #77) and best represents (i.e., has the highest total item correlation) all of the original SCL-90-R subscales. The SCL-K-9 has been used among participants with overweight/obesity [32, 33]. Even in the absence of significant binge-eating symptoms, it has the same discriminatory validity as the SCL-90. Higher mean values indicate more severe symptoms. It suggests that the SCL-K-9 is appropriate for this study to investigate weight control correlates in participants with obesity and a history of weight cycling. SCL-K-9 was used in this study to assess psychological distress. The Cronbach’s α for this scale in the current study was 0.82 and 0.85 at baseline and three months.
Dutch Eating Behavior Questionnaire (DEBQ) [34]
DEBQ was assessed using the Chinese version, which has high reliability and validity [35,36,37]. It is a self-report questionnaire used to assess adults’ eating habits. It consists of 33 items divided into three subscales: restrained eating (ten items), emotional eating (13 items), and external eating (ten items). Restrained eating is a deliberate effort to limit your food intake to control your weight. Emotional eating is eating in response to a negative emotion like stress or loneliness. External eating is eating in response to a food attraction, such as sight or smell [38]. The subscales of emotional eating and extrinsic eating were scored on a 5-point Likert scale (from 1 “never” to 5 “often”), with higher scores indicating a higher degree of emotional eating and a greater tendency to extrinsic eating. The abstinence subscales (#1, #2, #7, #8, #13, #14, #21, #22, #28, #29) were scored inversely on the 5-point Likert scale, from 1 “always” to 5 “never.” In this study, we used “reverse scoring,” meaning a higher score indicates a greater desire for the tasty food. DEBQ achieved high reliability in data collected at various time points. Cronbach’s αvalues for data collected at baseline and three months were 0.90 and 0.91, respectively.
Power of Food Scales (PFS) [39]
PFS assesses and measures appetite and the psychological impact of living in a food-rich environment. It has three subscales representing different food proximity levels of: food available (thoughts about food generally; e.g., “I find myself thinking about food even when I’m not physically hungry”), food present (a draw toward food directly available; e.g., “If I see or smell a food I like, I get a powerful urge to eat them”), and food tasted (desire and liking of food at first taste; e.g., “When I eat delicious food I focus a lot on how good it tastes”). The scale has been used with good internal consistency among the Chinese, with a Cronbach’s α of 0.92 [33]. These are the advantages of this study.
We acknowledge that the current research has limitations. The data in this study come from a single-center cohort of participants with obesity and weight cycling. Because this study was conducted on young and middle-aged populations, the current study recognizes that the results may not apply to the general population. Furthermore, as with most large-scale studies, our findings depended on the reliability of each participant’s self-reported questionnaires, potentially subject to recall bias. Finally, latent variables were not introduced because the primary focus of our study was on relationships between observed variables. Although latent variables can provide a more in-depth understanding and interpretation of concepts not directly observed in the model, it was beyond the scope of our study. The lack of latent variables is acknowledged as a study limitation, and future research may consider a more thorough exploration of latent factors influencing the study model.
Weight loss was evident during the intervention (short-term), but maintaining weight is a multi-faceted physical-psychological-social effort. This study focuses on psychological distress during outpatient interventions, given that short-term psychological interventions are more achievable within treatment protocols and improving the psychological state during the follow-up period [52]. We should continue to follow up with participants in the future to obtain longer-term follow-up data, and more multi-center studies with large cohorts and longer follow-ups could be conducted.
Conclusion
This study discovered that psychological distress was related to weight control levels in weight-cycling populations. More emphasis should be placed on psychological distress in this population. It also discovered that food behavior moderates the relationship between psychological health and weight control. Therefore, in the program of weight loss intervention, measures should be considered to reduce the psychological distress of people with a history of weight cycling to prevent the occurrence of poor weight control.
Data availability
All data generated or analysed during this study and its supplementary information files are included in this published article.
Abbreviations
- SEM:
-
Structural equation model
- WHO:
-
World Health Organization
- BMI:
-
Body Mass Index
- MDT:
-
Multidisciplinary team
- SCL-K-9:
-
Symptom-Checklist-K-9
- DEBQ:
-
Dutch eating behavior questionnaire
- PFS:
-
Power of Food Scales
- SDs:
-
Standard deviations
- CI:
-
Confidence interval
- RMSEA:
-
Root mean square error of approximation
- CFI:
-
Comparative fit index
- NFI:
-
Normed fit index
- GFI:
-
Goodness-of-fit index
- IFI:
-
Incremental fit index
- TLI:
-
Tucker–Lewis index
- PGFI:
-
Parsimony goodness-of-fit index
References
WHOOa o. Available from: https://www.who.int/news-room/fact-sheets/detail/obesity-and-overweight.
Boutari C, Mantzoros CS. A 2022 update on the epidemiology of obesity and a call to action: as its twin COVID-19 pandemic appears to be receding, the obesity and dysmetabolism pandemic continues to rage on. Metabolism. 2022;133:155217.
Piché ME, Tchernof A, Després JP. Obesity phenotypes, diabetes, and Cardiovascular diseases. Circ Res. 2020;126:1477–500.
Polyzos SA, Kountouras J, Mantzoros CS. Obesity and nonalcoholic fatty liver disease: from pathophysiology to therapeutics. Metabolism. 2019;92:82–97.
Avgerinos KI, Spyrou N, Mantzoros CS, Dalamaga M. Obesity and cancer risk: emerging biological mechanisms and perspectives. Metabolism. 2019;92:121–35.
Aronne LJ, Hall KD, Leibel JMJ, Lowe RL, Rosenbaum MR. Describing the weight-reduced state: physiology, Behavior, and interventions. Obes (Silver Spring). 2021;29(Suppl 1):S9–24.
Li W, Chen W. Weight cycling based on altered immune microenvironment as a result of metaflammation. Nutr Metab (Lond). 2023;20:13.
Elfhag K, Rossner S. Who succeeds in maintaining weight loss? A conceptual review of factors associated with weight loss maintenance and weight regain. Obes Rev. 2005;6:67–85.
Kakinami L, Knäuper B, Brunet J. Weight cycling is associated with adverse cardiometabolic markers in a cross-sectional representative US sample. J Epidemiol Community Health. 2020;74:662–7.
Miles-Chan JL, Isacco L. Weight cycling practices in sport: a risk factor for later obesity? Obes Rev. 2021;22(Suppl 2):e13188.
Langeveld M, DeVries JH. The long-term effect of energy restricted diets for treating obesity. Obes (Silver Spring). 2015;23:1529–38.
Egede LE, Dismuke CE. Serious psychological distress and diabetes: a review of the literature. Curr Psychiatry Rep. 2012;14:15–22.
Huang T, Zhu Y, Shutta KH, Balasubramanian R, Zeleznik OA, Rexrode KM et al. A plasma metabolite score related to psychological distress and diabetes risk: a nested case-control study in US women. J Clin Endocrinol Metab 2023.
Quinn DM, Puhl RM, Reinka MA. Trying again (and again): weight cycling and depressive symptoms in U.S. adults. PLoS ONE. 2020;15:e0239004.
Scumaci E, Marzola E, Abbate-Daga G, Pellegrini M, Ponzo V, Goitre I, et al. Affective temperaments and obesity: is there an association with binge eating episodes and multiple weight cycling? J Affect Disord. 2021;295:967–73.
Madigan CD, Pavey T, Daley AJ, Jolly K, Brown WJ. Is weight cycling associated with adverse health outcomes? A cohort study. Prev Med. 2018;108:47–52.
Reininghaus EZ, Lackner N, Fellendorf FT, Bengesser S, Birner A, Reininghaus B, et al. Weight cycling in bipolar disorder. J Affect Disord. 2015;171:33–8.
da Luz FQ, Hay P, Touyz S, Sainsbury A. Obesity with Comorbid Eating Disorders: Associated Health Risks and Treatment Approaches. Nutrients 2018;10.
Clum GA, Rice JC, Broussard M, Johnson CC, Webber LS. Associations between depressive symptoms, self-efficacy, eating styles, exercise and body mass index in women. J Behav Med. 2014;37:577–86.
de Wit LM, van Straten A, Lamers F, Cuijpers P, Penninx BW. Depressive and anxiety disorders: Associated with losing or gaining weight over 2 years? Psychiatry Res. 2015;227:230–7.
Qin HY, Cheng CW, Tang XD, Bian ZX. Impact of psychological stress on irritable bowel syndrome. World J Gastroenterol. 2014;20:14126–31.
Goldfarb M, De Hert M, Detraux J, Di Palo K, Munir H, Music S, et al. Severe Mental Illness and Cardiovascular Disease: JACC State-of-the-art review. J Am Coll Cardiol. 2022;80:918–33.
Razzoli M, Pearson C, Crow S, Bartolomucci A. Stress, overeating, and obesity: insights from human studies and preclinical models. Neurosci Biobehav Rev. 2017;76:154–62.
Oh J, Kim S. The relationship between psychological distress, depressive symptoms, emotional eating behaviors and the health-related quality of life of middle-aged Korean females: a serial mediation model. BMC Nurs. 2023;22:132.
Vervoort L, Naets T, Goossens L, Verbeken S, Claes L, Tanghe A, et al. Subty** youngsters with obesity: a theory-based cluster analysis. Appetite. 2022;168:105723.
Guerrini Usubini A, Cattivelli R, Varallo G, Castelnuovo G, Molinari E, Giusti EM et al. The relationship between psychological distress during the Second Wave Lockdown of COVID-19 and emotional eating in Italian young adults: the mediating role of emotional dysregulation. J Pers Med 2021;11.
Benzerouk F, Gierski F, Ducluzeau PH, Bourbao-Tournois C, Gaubil-Kaladjian I, Bertin E, et al. Food addiction, in obese patients seeking bariatric surgery, is associated with higher prevalence of current mood and anxiety disorders and past mood disorders. Psychiatry Res. 2018;267:473–9.
Schulte EM, Tuerk PW, Wadden TA, Garvey WT, Weiss D, Hermayer KL, et al. Changes in weight control behaviors and hedonic hunger in a commercial weight management program adapted for individuals with type 2 diabetes. Int J Obes (Lond). 2020;44:990–8.
El Masri D, Itani L, Kreidieh D, Tannir H, El Ghoch M. Relationship between multiple weight cycles and early weight loss in patients with obesity: a longitudinal study. Eat Weight Disord. 2021;26:2083–7.
Prinz U, Nutzinger DO, Schulz H, Petermann F, Braukhaus C, Andreas S. Comparative psychometric analyses of the SCL-90-R and its short versions in patients with affective disorders. BMC Psychiatry. 2013;13:104.
Derogatis L, Derogatis L. SCL-90-R: Administration, scoring, and procedures manual I for the R(evised) version. Clinical Psychometric Research 1977.
Imperatori C, Bianciardi E, Niolu C, Fabbricatore M, Gentileschi P, Di Lorenzo G et al. The Symptom-Checklist-K-9 (SCL-K-9) discriminates between Overweight/Obese patients with and without significant binge eating Pathology: Psychometric properties of an Italian version. Nutrients 2020;12.
Bianciardi E, Gentileschi P, Niolu C, Innamorati M, Fabbricatore M, Contini LM, et al. Assessing psychopathology in bariatric surgery candidates: discriminant validity of the SCL-90-R and SCL-K-9 in a large sample of patients. Eat Weight Disord. 2021;26:2211–8.
Strien TV. Dutch eating Behaviour Questionnaire: Manual. Bury St Edmunds Thames Valley Test Co 2002.
Fu T, Wang J, Xu S, Yu J, Sun G. Media internalized pressure and restrained eating Behavior in College students: the multiple Mediating effects of Body Esteem and Social Physique anxiety. Front Psychol. 2022;13:887124.
Sze KYP, Lee EKP, Chan RHW, Kim JH. Prevalence of negative emotional eating and its associated psychosocial factors among urban Chinese undergraduates in Hong Kong: a cross-sectional study. BMC Public Health. 2021;21:583.
Hao M, Fang Y, Yan W, Gu J, Hao Y, Wu C. Relationship between body dissatisfaction, insufficient physical activity, and disordered eating behaviors among university students in southern China. BMC Public Health 2022;22: 2054.
Nicanor-Carreon JG, Seyedsadjadi N, Rowitz B, Pepino MY. Weight regain and Ingestive Behavior in women after metabolic surgery. Nutrients 2023;15.
Lowe MR, Butryn ML, Didie ER, Annunziato RA, Thomas JG, Crerand CE, et al. The Power of Food Scale. A new measure of the psychological influence of the food environment. Appetite. 2009;53:114–8.
**ao H, Song J, Han X, Ye Z, Serier KN, Belon KE, et al. Assessing hedonic hunger among Chinese adults using the power of Food Scale: psychometric properties and cross-cultural invariance between China and the US. Eat Behav. 2023;48:101703.
Staiano AE, Marker AM, Martin CK, Katzmarzyk PT. Physical activity, mental health, and weight gain in a longitudinal observational cohort of nonobese young adults. Obes (Silver Spring). 2016;24:1969–75.
Gupta A, Osadchiy V, Mayer EA. Brain-gut-microbiome interactions in obesity and food addiction. Nat Rev Gastroenterol Hepatol. 2020;17:655–72.
Camacho-Leon G, Faytong-Haro M, Carrera K, De la Hoz I, Araujo-Contreras R, Roa K, et al. Attitudes towards depression of Argentinian, Chilean, and Venezuelan healthcare professionals using the Spanish validated version of the revised depression attitude questionnaire (SR-DAQ). SSM Popul Health. 2022;19:101180.
Konttinen H, van Strien T, Mannisto S, Jousilahti P, Haukkala A. Depression, emotional eating and long-term weight changes: a population-based prospective study. Int J Behav Nutr Phys Act. 2019;16:28.
Al-Musharaf S. Prevalence and predictors of emotional eating among healthy young Saudi women during the COVID-19 pandemic. Nutrients 2020;12.
Moradi M, Mozaffari H, Askari M, Azadbakht L. Association between overweight/obesity with depression, anxiety, low self-esteem, and body dissatisfaction in children and adolescents: a systematic review and meta-analysis of observational studies. Crit Rev Food Sci Nutr. 2022;62:555–70.
Wu YK, Berry DC. Impact of weight stigma on physiological and psychological health outcomes for overweight and obese adults: a systematic review. J Adv Nurs. 2018;74:1030–42.
O’Reilly GA, Cook L, Spruijt-Metz D, Black DS. Mindfulness-based interventions for obesity-related eating behaviours: a literature review. Obes Rev. 2014;15:453–61.
Katterman SN, Kleinman BM, Hood MM, Nackers LM, Corsica JA. Mindfulness meditation as an intervention for binge eating, emotional eating, and weight loss: a systematic review. Eat Behav. 2014;15:197–204.
Lopez-Cepero AA, Spruill T, Suglia SF, Lewis TT, Mazzitelli N, Perez CM et al. Shift-and-persist strategies as a potential protective factor against symptoms of psychological distress among young adults in Puerto Rico. Soc Psychiatry Psychiatr Epidemiol 2023.
Chase E, Calhoun BH, Khosropour CM, Lee CM, Rhew IC. Trajectories of financial distress during the COVID-19 pandemic and their associations with mental health and substance use outcomes in a cohort of young adults. Appl Psychol Health Well Being 2023.
Annesi JJ. Moderation of Mood in the transfer of self-regulation from an Exercise to an eating context: short- and Long-Term effects on Dietary Change and obesity in women. Int J Behav Med. 2019;26:323–8.
Acknowledgements
The authors would like to thank all the subjects who participated in this study and visiting physician who helped and supported the study.
Funding
This work was supported by the National High-Level Hospital Clinical Research Funding(2022-PUMCH-B-054), the Whole People Nutrition Research Fund (CNS-NNSRG2022-227), National Key Clinical Specialty Capacity Improvement Project, and the Youth Scientific Research Project of the Fujian Provincial Health Commission (grant number: 2020QNB002).
Author information
Authors and Affiliations
Contributions
Wanyang Li and Wei Chen: designed the research, Dan Wang and Wanyang Li: developed the methodology and created the models, Yan Liu, Mingyao Sun, and Shuyao Dong: took part in data acquisition, Wanyang Li and Dan Wang: conducted the statistical analysis and wrote the first draft. Wanyang Li, Hongyu Chen, and Dan Wang, revised the manuscript. All authors reviewed and approved the manuscript.
Corresponding author
Ethics declarations
Ethics approval and consent to participate
This study was approved by the Human Ethics Committee of PUMC Hospital (No. ZS-3067), Bei**g, China. The study has been registered in Clinical Trials (NCT05311462). Each participant has signed an informed consent form.
Consent for publication
Not applicable.
Conflicts of interest
The authors declared no conflict of interest.
Competing interests
The authors declare no competing interests.
Additional information
Publisher’s Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated in a credit line to the data.
About this article
Cite this article
Li, W., Wang, D., Chen, H. et al. The relationship between psychological distress and weight maintenance in weight cycling: mediating role of eating behavior. BMC Public Health 24, 894 (2024). https://doi.org/10.1186/s12889-024-18349-5
Received:
Accepted:
Published:
DOI: https://doi.org/10.1186/s12889-024-18349-5