The Psycho-Affective Roots of Obesity: Results from a French Study in the General Population

The aim of the study was to examine the extent to which obese people differ in their emotionally driven and addictive-like eating behaviors from normal-weight and overweight people. A total of 1142 participants were recruited from a general population, by a web-based cross-sectional survey assessing anxiety/depression (Hospital Anxiety and Depression Scale), emotional eating (Emotional Appetite Questionnaire), food addiction (modified Yale Food Addiction Scale), and intuitive eating (Intuitive Eating Scale-2). The statistical design was based on analyses of (co)variance, correlograms, and mediations. A set of Body Mass Index (BMI) group comparisons showed that obese people reported higher levels of depression and emotional eating and that they experienced more severe and frequent food addiction symptoms than overweight and normal-weight people. Associations between anxiety, depression, food addiction symptoms’ count, and the difficulties to rely on hunger and satiety cues were found across all weight classes, suggesting that addictive-like eating may represent a unique phenotype of problematic eating behavior that is not synonymous with high BMI or obesity. Conversely, the interrelation between anxiety/depression, emotional eating, and the difficulties to rely on hunger and satiety cues was found only among obese participants, and negative emotional eating mediated the association between depression and anxiety and the difficulties to rely on hunger and satiety cues. This study emphasizes the necessity to develop more comprehensive approaches integrating emotional dysregulation and addictive-like eating behaviors to improve weight management and quality of life of obese people.


Introduction
Obesity is a multifactorial disease involving an interplay between environmental, genetic, biological, and psychological factors [1]. Among them, both homeostatic dysregulation, which results in poor interoceptive awareness and low sensitivity to the physiological hunger and satiety signals [2][3][4], and emotional dysregulation [5][6][7] are increasingly being discussed as possible factors involved in

Participants and Procedures
Participants were recruited from a larger web-based cross-sectional survey data-set on eating behaviors [28]. All participants were adults and engaged freely in the study for no financial compensation. The web survey link was sent to participants using online social media and platforms and via institutional mailing lists. The first page of the online survey included information regarding the purposes of the study and a note about the fundamental principles of ethical scientific research and the French Code of Ethics of Psychologists. Information about anonymity, confidentiality, and data protection was given. In addition, it was explained that all the provided and collected information would only be used to meet the objectives of the research. Participants were then asked to provide their electronic, informed consent prior to their participation in the study. The survey demanded between 25 and 30 min to complete. For the present study, we included participants with a BMI of at least 18.5 kg/m 2 and with no missing data for our variables of interest, reducing the initial sample size from 1349 participants to 1142 participants.

Ethical Considerations
This study was conducted in accordance with the ethical standards described in the Declaration of Helsinki. The study was approved by the Ethics Committee of the University Savoie Mont Blanc (CEREUS_2016_4).

Measurements
Self-reported sociodemographic information was collected (age, gender, and level of education). Participants also provided self-reported height and weight to calculate Body Mass Index (BMI) as weight (kg)/height (m) 2 . Standard categories of BMI were constituted according to the World Health Organization: 18.5-24.9 (normal-weight), 25-29.9 (overweight), and 30 or more (obesity).

Anxiety and Depression
The Hospital Anxiety and Depression Scale (HAD) is a 14-item self-report questionnaire that assesses the level of anxious and depressive symptoms during the past week [37,38]. The HAD includes two subscales: Anxiety (7 items) and Depression (7 items). Participants were asked to rate the extent to which they agreed with each statement on a 4-point scale rating from 0 to 3. In this study, Cronbach's alphas for the HAD Anxiety and Depression subscales were 0.79 and 0.75, respectively.

Emotional Eating
The Emotional Appetite Questionnaire (EMAQ) is a 22-item self-report questionnaire assessing variations of food intake in response to different emotional states and situations [39,40]. The scale contains 9 items assessing negative emotions, 5 items assessing positive emotions, 5 items assessing negative situations, and 3 items assessing positive situations. For each item, participants were asked to rate on a 9-point Likert-type scale whether they ate less (from 1 to 4), the same (5), or more (from 6 to 9) food compared to usual. In the present study, we used the EMAQ global positive score (obtained by averaging the EMAQ-positive emotions and positive situations scores) and the EMAQ global negative score (obtained by averaging negative emotions and negative situations scores). In this sample, Cronbach's alphas were 0.88 for the EMAQ-Positive subscale and 0.83 for the EMAQ-Negative subscale.

Intuitive Eating
The Intuitive Eating Scale-2 (IES-2) is a self-report questionnaire designed to assess attitudes and behaviors towards eating in response to physiological cues [41,42]. The IES-2 encompasses 18 items divided into three subscales: Eating for Physical rather than Emotional Reasons (EPR: 8 items), Reliance on Hunger and Satiety Cues (RHSC: 4 items), and Unconditional Permission to Eat (UPE: 6 items). Items were answered using a 5-point response format ranging from 1 ("Strongly disagree") to 5 ("Strongly agree"). In this sample, Cronbach's alpha was 0.90 for the EPR subscale, 0.87 for the RHSC subscale. and 0.70 for the UPE subscale.

Food Addiction
The modified Yale Food Addiction Scale (mYFAS) is a short version of the original YFAS [43,44] designed to assess the behavioral indices of addictive-like eating [45]. This 9-item self-report questionnaire was developed for epidemiologic studies. Seven items are based on DSM-IV-TR symptoms of addiction: Loss of control (substance taken in larger amount and for a longer period than intended); Cut down (persistent desire or repeated unsuccessful attempt to quit); Time spent (much time/activity to obtain, use, recover); Impact activities (important social, occupational, or recreational activities given up or reduced); Withdrawal (characteristic withdrawal symptoms; substance taken to relieve withdrawal); Despite problems (use continues despite knowledge of adverse consequences) and Tolerance (marked increase in amount; marked decrease in effect). Two additional items (Clinical distress and Clinical impairments) are used to assess Clinical significance. This questionnaire includes five frequency response options that range from 0 ("Never") to 4 ("More than 4 times/week"). The mYFAS provides two scoring options: a "Symptom Count" scoring option (i.e., a count of food addiction symptoms, ranging from 0 to 7) and a "Diagnostic" scoring option (presence of 3 or more symptoms in addition to the presence of Clinical significance) [45]. In addition, a severity score above the cut-off was calculated for each item of the mYFAS. In this sample, Cronbach's alpha for the mYFAS was 0.73.

Statistical Analyses
Descriptive statistics were computed using means, standard deviations (SD), and ranges for continuous variables, and using counts and percentages for categorical variables. The main effects of BMI groups for age and gender were tested using one-way analysis of variance (ANOVAs) and Chi-square tests (χ 2 ), respectively. Age differed significantly between the three BMI groups. As is known to affect BMI, EE, and FA [46,47], the main effects of BMI groups and comparisons between pairs of BMI groups for the mood and eating variables were performed using separate analyses of covariance (ANCOVAs) with age as the covariate. Effect sizes were estimated using partial eta-squares (η p 2 ) and Cramers' V. Value of η p 2 around 0.01 was associated with a small effect, value around 0.06 was associated with a medium effect, and value around 0.14 was associated with a large effect [48]. A value of Cramer's V can be interpreted as negligible (0-0.10), weak (0.10-0.20), moderate (0.20-0.30), relatively strong (0.40-0.60), strong (0.60-0.80), or very strong (0.80-1) [49].
To examine if the associations between the mood and eating variables vary by a group of BMI, correlation matrix using Spearman correlation coefficients, and corresponding correlograms were performed in each BMI group separately. A correlogram is a graphical representation of the correlations for all pairs of variables. The color legend of the correlogram shows the correlation coefficients and the corresponding colors [50]. The intensity of the color is proportional to the correlation coefficient (r), so strong correlations (i.e., the closest to −1 or 1) are displayed in dark boxes. No significant correlations are displayed in white, positive correlations are displayed in blue and negative correlations are displayed in red.
Finally, based on the finding among the obese group that the level of depression or anxiety, negative emotional eating, and capacity to rely on internal cues to regulate food intake were interrelated, we examined if negative emotional eating (EMAQ Negative score) mediated the association between the level of psychological distress (HAD Depression or Anxiety score) and the reliance on internal cues (IES-2 Reliance on Hunger and Satiety Cues score) (see Supplementary Figure S1). We followed the basic steps for mediation analysis [51]: Step 1: To show that the predictor was significantly associated with the outcome variable, we estimated the unmediated effects of the HAD Depression and HAD Anxiety scores on the IES-2 Reliance on Hunger and Satiety Cues score (i.e., total effect); - Step 2: To verify that the predictor was associated with the mediator, we estimated the direct effects of the HAD Depression and HAD Anxiety scores on the EMAQ Negative score (i.e., a paths), - Step 3: To verify that the mediator was associated with the outcome, we estimated the direct effect of the EMAQ Negative score on the IES-2 Reliance on Hunger and Satiety Cues score (i.e., b paths); - Step 4: To establish that the mediator affects the predictor-outcome relationship, we estimated the direct effects (i.e., c paths, adjusted for the mediator) and indirect effects (i.e., a × b paths) of the HAD Depression and HAD Anxiety scores on the IES-2 Reliance on Hunger and Satiety Cues score.
We used the bootstrapping resampling technique (with a 1000 sample) and reported the estimates (B) and their respective standard errors and confidence intervals as well as the percentage of mediation.
Analyses of variance, covariance, χ 2 tests, and mediation models were performed using Jamovi version 1.1, Jamovi, Sydney, Australia [52]. The correlograms were carried out using R 2.15.2, R Core Team, Vienna, Austria [53]. An alpha of 0.05 was retained as a significant threshold for all statistical tests.
Concerning mood measures (HAD), there was a main effect for Depression (p < 0.001) and pairwise comparisons adjusted for age showed that scores were significantly higher among the obese group than the overweight and normal-weight groups (OB/OW mean difference = 1.61, SD = 0.5; OB/NW mean difference = 1.96, SD = 0.4). There was no main effect for Anxiety (p = 0.220).
The analyses indicated a main effect for positive emotional eating (EMAQ Positive: p < 0.001) and pairwise comparisons adjusted for age showed that the obese and overweight participants reported lower scores than the normal-weight participants did (OB/NW mean difference = 0.50, SD = 0.1; OW/NW mean difference = 0.32, SD = 0.8). There was also a main effect for negative emotional eating (EMAQ Negative; p < 0.001), and pairwise comparisons adjusted for age indicated that the obese participants reported higher scores than the overweight participants, who themselves reported higher scores than the normal-weight participants (OB/OW mean difference = 0.63, SD = 0.2; OB/NW mean difference = 1.20, SD = 0.2; OW/NW mean difference = 0.58, SD = 0.1).
Regarding intuitive eating (IES-2), the main effect of BMI groups emerged for the Eating for physical rather than emotional reasons subscale (EPR: p < 0.001) and the Reliance on Hunger and Satiety Cues subscale (RHSC: p < 0.001). Pairwise comparisons adjusted for age highlighted that the obese participants had lower scores than the overweight participants, who themselves reported lower scores than the normal-weight participants for EPR (OB/OW mean difference = 0.36, SD = 0.16; OB/NW mean difference = 0.83, SD = 0.1; OW/NW mean difference = 0.47, SD = 0.9). For RHSC, the obese and overweight participants reported lower scores than the normal-weight participants (OB/NW mean difference = 0.69, SD = 0.1; OW/NW mean difference = 0.49, SD = 0.8). There were no significant differences between the BMI groups for the Unconditional Permission to Eat subscale (UPE: p = 0.445). Concerning the measure of food addiction (mYFAS), comparisons were conducted on the symptom count and the symptom severity as well as on the symptom and diagnosis prevalence. The results showed a main effect of BMI groups for the Symptom Count (p < 0.001) and pairwise comparisons (adjusted for age) highlighted that obese and overweight participants reported higher scores than normal-weight participants (OB/NW mean difference = 0.73, SD = 0.2; OW/NW mean difference = 0.33, SD = 0.1).
Concerning symptom severity, the analyses indicated a main effect for Loss of control (p < 0.001), Cut down (p < 0.001), Time spent (p < 0.05), Impact activities (p < 0.05), Withdrawal (p < 0.001), Tolerance (p < 0.001), Clinical distress (p < 0.001), and Clinical impairments (p < 0.001), while the groups did not significantly differ from each other for Despite problems (p = 0.840). The pairwise comparisons (see Table 2) indicated that the obese participants differed significantly from the normal-weight participants for all the symptoms' severity except for Time Spent (p = 0.078). In addition, the obese participants differed significantly from the overweight participants for Impact activities (OB/OW mean difference = 0.16, SD = 0.7), Withdrawal (OB/OW mean difference = 0.17, SD = 0.1), Clinical distress (OB/OW mean difference = 0.28, SD = 0.1), and Clinical impairments (OB/OW mean difference = 0.25, SD = 0.1), but these two groups did not differ significantly for Loss of control, Cut down, Time spent, and Tolerance symptoms' severity.
Nutrients 2020, 12, x FOR PEER REVIEW 9 of 18 Concerning the measure of food addiction (mYFAS), comparisons were conducted on the symptom count and the symptom severity as well as on the symptom and diagnosis prevalence. The results showed a main effect of BMI groups for the Symptom Count (p < 0.001) and pairwise comparisons (adjusted for age) highlighted that obese and overweight participants reported higher scores than normal-weight participants (OB/NW mean difference = 0.73, SD = 0.2; OW/NW mean difference = 0.33, SD = 0.1).
Concerning symptom severity, the analyses indicated a main effect for Loss of control (p < 0.001), Cut down (p < 0.001), Time spent (p < 0.05), Impact activities (p < 0.05), Withdrawal (p < 0.001), Tolerance (p < 0.001), Clinical distress (p < 0.001), and Clinical impairments (p < 0.001), while the groups did not significantly differ from each other for Despite problems (p = 0.840). The pairwise comparisons (see Table 2) indicated that the obese participants differed significantly from the normal-weight participants for all the symptoms' severity except for Time Spent (p = 0.078). In addition, the obese participants differed significantly from the overweight participants for Impact activities (OB/OW mean difference = 0.16, SD = 0.7), Withdrawal (OB/OW mean difference = 0.17, SD = 0.1), Clinical distress (OB/OW mean difference = 0.28, SD = 0.1), and Clinical impairments (OB/OW mean difference = 0.25, SD = 0.1), but these two groups did not differ significantly for Loss of control, Cut down, Time spent, and Tolerance symptoms' severity.

A.
B.
C.      Unlike the findings among the overweight or normal-weight groups, EMAQ Negative scores were significantly positively correlated with the HAD Anxiety (r = 0.49) and HAD Depression scores (r = 0.42) among the obese group. Regarding intuitive eating (IES-2), the Reliance on Hunger and Satiety Cues (RHSC) subscale scores were significantly and negatively correlated with HAD Anxiety, HAD Depression, and EMAQ Negative scores among all BMI groups, but the correlation values were the highest among the obese group (IES-2 RHSC and HAD Anxiety or HAD Depression: r = −0.44; IES-2RHSC and EMAQ Negative: r = −0.57).

Mediation Analyses
Based on these results, we tested if negative emotional eating (EMAQ Negative scores) in the obese group mediated the observed positive association between psychological distress (HAD Anxiety and Depression scores) and the lack of reliance on internal cues to regulate food intake (IES-2 RHSC scores). For each mediation model, path estimates, indirect and total effect estimates, as well as the percentage of mediation, are presented in Table 3.
For both HAD subscales, high scores were associated with low IES-2 RHSC scores (Model 1: HAD Dep → IES-2 RHSC; Model 2: HAD Anx → IES-2 RHSC) and high EMAQ Negative scores predicted low IES-2 RHSC scores independently from HAD scores (Model 1: EMAQ Neg → IES-2 RHSC; Model 2: EMAQ Neg → IES-2 RHSC). Moreover, for both models, the indirect effects were significant (Model 1: HAD Dep → EMAQ Neg → IES-2 RHSC; Model 2: HAD Anx → EMAQ Neg → IES-2 RHSC), indicating that for both models EMAQ Negative scores did act as mediators in the association between high HAD Depression or Anxiety scores and low IES-2 RHSC scores. The proportion of the total effect explained by the indirect effect was 47.6% and 54.7% for Models 1 and 2, respectively. Table 3. Direct, indirect, and total effects of the two mediation models among the obese group.  Figure S1 for an illustration of Paths a, b, and c as well as the indirect and total effects.

Discussion
We examined the extent to which obese people differ in their emotionally driven and addictive-like eating behaviors not only from normal-weight but also overweight people in a sample from the French general population. We confirmed previous findings that have been reported in high BMI population, by showing that the two high BMI groups reported higher levels of depressed mood, eating less intuitively but more in response to their negative emotions, and that they presented more severe and/or frequent symptoms of addictive-like eating behaviors than normal-weight people [34,[54][55][56]. In addition, we found an increase in FA diagnosis prevalence (as defined by the mYFAS), with the odds for presenting the condition being more than four times higher among the obese group and more than two times higher among the overweight group than among the normal-weight people. The prevalence of FA diagnosis in the obese participants was comparable to the prevalence of FA diagnosis reported in studies using the longer version of the scale (i.e., the YFAS: 15-25% [57]). In all BMI groups, the most often endorsed symptom by the participants was «Use despite aversive emotional/physical problem», with comparable high prevalence in the three groups (on average 65%). Although this symptom is commonly reported [33,57], this high rate among the normal-weight group was unexpected as it is much closer to the rates described in clinical samples e.g., bariatric surgery candidates, binge eating disorder: 40-75% [58,59]) than in community samples (9-23% [47,59,60]) using the YFAS and YFAS 2.0.
Further, we found an increased frequency of the Loss of control and Inability to Cut Down symptoms by weight classes, but with comparable prevalence between the Obese and Overweight participants. They are both core components and characteristic behavioral features of addiction that have been critically incriminated in the « downwardly escalating dimension » along the continuum of overeating in C. Davis' psychobiological model of eating behaviors [27]. Interestingly, the same pattern of association between indicators of anxiety or depression, FA, and a lack of intuitive eating was found across all weight classes, suggesting that addictive-like eating may represent a unique phenotype of problematic eating behavior that is not synonymous with BMI and obesity, including a complex pattern of interaction between psychological distress, emotion regulation and addictive process. Such findings suggest that individuals prone to FA may turn to excessive food consumption as a coping strategy for heightened emotional distress, similar to individuals with a substance use disorder [23].
Moreover, besides these findings, we believe the present study also adds to the field by providing a more fine-grained distinction between Obese and Overweight people and highlighting individual characteristics that appeared more specifically associated with the obese phenotype. Indeed, Obese participants reported more severe depressive symptoms than the Overweight participants, which is in line with the well-known depression-obesity association and co-occurrence [54]. Combined with the fact that Obese individuals also reported eating even more than the Overweight participants when facing negative emotions or situations, our study further supports the suggestion of a bidirectional link between obesity and depression, more particularly, with the atypical depression subtype [54,61,62]. Emotional eating has been shown to be (i) exacerbated in obese women, (ii) associated with both consumption of highly palatable food and weight gain [9,55] and (iii) it is a negative factor for post-bariatric surgery weight management outcomes [63]. Moreover, an emerging line of evidence points out that negative EE acts as a mediator between depression and obesity and that it may be a marker of atypical depression [28,31,32]. Here, we found a mediation effect of negative EE on the association between psychological distress (for both depression and anxiety) and the difficulties to rely on hunger and satiety cues, difficulties that are, in turn, known to place the person at risk for increased weight [56]. The present data, thus, complement these observations and suggest that obese individuals get caught in a downward spiral and vicious circle leading to an 'interoceptive blindness' due to a specific interplay between their negative affect and their eating patterns. Of important note, it seems this dynamic is not so much an issue of the perceived intensity of the negative affective states as an issue of the obese individual's negative emotional experience per se, because the Obese group admittedly reported higher levels of depressed mood, but similar levels of anxiety, than the other two groups. Our results are in line with previous studies in non-clinical [7] and clinical samples with obesity or eating disorders [36,64] and point out the role of emotion regulation on eating behavior across different weight classes. While the present findings suggest higher alterations in emotional regulation among individuals with obesity, our study also highlights the role of EE in depression and altered interoception of satiety signals, that is a well-known crucial component for regulating food intake. Our study adds a piece of knowledge on this topic, by showing that individuals with obesity could be more vulnerable to such effects, and offers interesting perspectives for improving intervention approaches aimed at reducing compulsive eating behaviors and body weight. These results also seem to support the Emotionally Driven Eating Model [65] considering alterations in emotional regulation and cognitive processing as a key mechanism of inappropriate eating behaviors and overeating. Further studies should address in daily life emotion trajectories, emotional regulation strategies, satiety signals and eating behaviors using Ecological Momentary Assessment to confirm the real time temporal dynamics and relationships between these variables among obese patients.
Further, in addition to replicating the observed association between FA, EE and depression, the present study is, to the best of our knowledge, the first one to statistically compare if the prevalence and severity of FA symptoms vary across high BMI classes. Besides the finding that Obese participants reported more severe levels of Clinical distress and Impairments than the Overweight participants, Impact Activities and Withdrawal were found to distinguish these two groups as well. In the mYFAS, the wording of the symptom Impact activities clearly refers to the negative emotional experience associated with the overconsumption (i.e., « I have spent time dealing with negative feelings from overeating certain food») and the fact that it is frequently endorsed by the obese group is consistent with their high levels of depression. This symptom may be related to ruminative thinking, which is a cognitive process that has been associated with the severity of eating disorders symptomatology in both clinical and non-clinical populations [66] and may lead to EE [67]. Moreover, ruminative thinking has been found to impair cognitive flexibility and decision making, which are processes that have been found to be impaired in obese individuals [6,68]. Additional studies are needed to confirm our suggestion and provide further arguments for incorporating anti-rumination therapy for people with comorbid obesity and depression.
The prevalence of Withdrawal symptom was three times higher in the Obese group than the Overweight group. Although the suggestion that withdrawal syndromes occur to certain food items has been subject to heavy criticism in the early days of the FA construct, a growing line of experimental evidence has emerged in animal and human studies, and showing notably psychological signs of withdrawal in humans [69]. The mYFAS was based on DSM-IV-TR criteria of the SUD, so it does not evaluate Craving, a symptom that is tightly associated with Withdrawal. Therefore, we could not ascertain if its absence biased the results. Nonetheless, the frequency of withdrawal symptom endorsement remains high in obese people even when items on Craving are considered using the DMS-5 version of the scale (i.e YFAS 2.0 [47,59]). To gain knowledge on this issue, a recently developed self-report, the Highly Processed Withdrawal Food Scales [70], might prove beneficial in future research.
Although the current study provides important information about emotionally-driven and addictive-like eating behaviors by weight class, some limitations should be considered. First, researchers should know that women are more prone than men to (i) show symptoms of psychological distress, (ii) report EE, and (iii) to be affected by obesity [15,61]. Therefore, the number of women in our sample could have influenced our results. Another limitation concerns the use of self-reports that raises the question of the ability for introspection, the gap between the participant's perceptions and realities, or the social desirability bias in the areas of weight and eating behaviors. Furthermore, although some authors highlighted the role of the nutritional and/or chemical composition of HP food in emotionally-driven and addictive-like eating behaviors [71], the type of food consumed was not considered in this study. Finally, personal and psychiatric risk factors for EE, FA and obesity, such as traumatic experiences/PTSD or binge eating disorder [58,72], were not assessed in the study, and these factors may have affected the findings.
Despite these limitations, the present study has important clinical implications. The hypothesis that a distinct mechanism drives excessive weight gain among obese individuals involving EE, psychological distress, and intuitive eating points to the need for specific and integrated interventions in this population. In view of the high level of clinically significant impairments and distress of FA among obese participants, assessment of symptoms and/or diagnosis of food addiction should be systematically considered in this population. A more comprehensive approach integrating emotional dysregulation and addictive-like eating behaviors could improve weight management and quality of life. The key role of EE in this group highlights the need to promote emotion regulation skills in the treatment of obesity. The efficacy of such interventions should be further investigated in randomized controlled trials.
This study confirms a complex pattern of interaction between psychological distress, emotion regulation and addictive process. Such findings suggest that individuals prone to FA may turn to excessive food consumption as a coping strategy to relieve negative affects, similar to individuals with a substance use disorder. More importantly, this study showed that for the obese individuals emotional eating plays a mediation effect between psychological distress and the difficulties to rely on hunger and satiety cues. This emphasizes the role of emotional dysregulation in obesity risk and addiction vulnerability with a potential significant impact on the perception of satiety signals. In summary, this study highlighted the central role of emotional eating and negative affectivity in the maintenance of non-homeostatic eating behaviors among obese individuals. By showing a specific pathway between psychological distress, emotional eating, and a lack of intuitive eating in obese people, our findings support the hypothesis of a distinct mechanism buffering weight management in this population. It also paves the way for designing interventions that aim to reduce compulsive eating behaviors or body weight in this population. In view of the food addiction prevalence and symptoms' severity among the obese people, this study suggests that therapeutic approaches of addictive disorders should be proposed in the presence of FA. To progress in this domain, Ecological Momentary Assessments and mobile applications could offer a paradigm shift, first in the way ecologically valid data can be collected in daily life, and then, in turn, in the way personalized care could be offered depending on the individual's needs.