Your search keyword '"food cue reactivity"' showing total 100 results

1. Neural correlates of naturalistic single-trial appetitive conditioning

Author

Davies-Owen, Jennifer A., Stancak, Andrej, Giesbrecht, Timo, Thomas, Anna, Kirkham, Tim C., and Roberts, Carl A.

Published

2023

2. Validation of a laboratory craving assessment and evaluation of 4 different interventions on cravings among adults with overweight or obesity

Author

Pasquale, Ellen K, Strong, David R, Eichen, Dawn M, Peterson, Carol B, Kang-Sim, D Eastern, and Boutelle, Kerri N

Subjects

Clinical and Health Psychology, Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Psychology, Women's Health, Obesity, Clinical Research, Behavioral and Social Science, Prevention, Brain Disorders, Clinical Trials and Supportive Activities, Mental Health, Nutrition, Stroke, Cancer, Humans, Craving, Female, Male, Adult, Middle Aged, Cues, Overweight, Weight Loss, Body Mass Index, Reproducibility of Results, Food cue reactivity, Overeating, Cue-exposure treatment, Nutrition & Dietetics

Abstract

Food cue reactivity (FCR) is an appetitive trait associated with overeating and weight gain. We developed a laboratory craving assessment to objectively evaluate cognitive aspects of FCR. This study examined the preliminary construct and criterion validity of this craving assessment and evaluated 4 different interventions, 2 of which incorporated cue-exposure treatment for food, on craving over treatment and follow-up. 271 treatment-seeking adults with overweight/obesity (body mass index = 34.6[5.2]; age = 46.5[11.8]; 81.2% female; 61.6% non-Latinx White) completed the Food Cue Responsivity Scale and the laboratory craving assessment, during which they alternated holding and smelling a highly craved food and provided craving ratings over 5 min. Participants were subsequently randomized to 26 treatment sessions over 12-months of ROC, Behavioral Weight Loss (BWL), a combined arm (ROC+) and an active comparator (AC), and repeated the craving assessment at post-treatment and 12-month follow-up. Linear mixed-effects models assessed associations between trial type (holding vs. smelling), trial number, pre-treatment FCR, treatment arm, assessment time point, and craving. Cravings were greater when smelling vs. holding food (b = 0.31, p

Published

2024

3. The Cerebellar Response to Visual Portion Size Cues Is Associated with the Portion Size Effect in Children.

Author

Fuchs, Bari A., Pearce, Alaina L., Rolls, Barbara J., Wilson, Stephen J., Rose, Emma J., Geier, Charles F., Garavan, Hugh, and Keller, Kathleen L.

Abstract

The neural mechanisms underlying susceptibility to eating more in response to large portions (i.e., the portion size effect) remain unclear. Thus, the present study examined how neural responses to portion size relate to changes in weight and energy consumed as portions increase. Associations were examined across brain regions traditionally implicated in appetite control (i.e., an appetitive network) as well as the cerebellum, which has recently been implicated in appetite-related processes. Children without obesity (i.e., BMI-for-age-and-sex percentile < 90; N = 63; 55% female) viewed images of larger and smaller portions of food during fMRI and, in separate sessions, ate four meals that varied in portion size. Individual-level linear and quadratic associations between intake (kcal, grams) and portion size (i.e., portion size slopes) were estimated. The response to portion size in cerebellar lobules IV–VI was associated with the quadratic portion size slope estimated from gram intake; a greater response to images depicting smaller compared to larger portions was associated with steeper increases in intake with increasing portion sizes. Within the appetitive network, neural responses were not associated with portion size slopes. A decreased cerebellar response to larger amounts of food may increase children's susceptibility to overeating when excessively large portions are served. [ABSTRACT FROM AUTHOR]

Published

2024

4. Food Cue Reactivity Meets the Reinforcer Pathology Model: Behavioral Economic Measures of Cue-Induced Changes in Food Reinforcer Efficacy

Author

Musquez, Morgan and Rasmussen, Erin B.

Published

2024

5. Postprandial Increases in Liver-Gut Hormone LEAP2 Correlate with Attenuated Eating Behavior in Adults Without Obesity.

Author

Bhargava, Raghav, Luur, Sandra, Flores, Marcela Rodriguez, Emini, Mimoza, Prechtl, Christina G, and Goldstone, Anthony P

Subjects

FOOD habits, FUNCTIONAL magnetic resonance imaging, PREFRONTAL cortex, FOOD consumption, CINGULATE cortex

Abstract

Background The novel liver-gut hormone liver-expressed antimicrobial peptide-2 (LEAP2) is a centrally acting inverse agonist, and competitive antagonist of orexigenic acyl ghrelin (AG), at the GH secretagogue receptor, reducing food intake in rodents. In humans, the effects of LEAP2 on eating behavior and mechanisms behind the postprandial increase in LEAP2 are unclear, though this is reciprocal to the postprandial decrease in plasma AG. Methods Plasma LEAP2 was measured in a secondary analysis of a previous study. Twenty-two adults without obesity attended after an overnight fast, consuming a 730-kcal meal without or with subcutaneous AG administration. Postprandial changes in plasma LEAP2 were correlated with postprandial changes in appetite, high-energy (HE) or low-energy (LE) food cue reactivity using functional magnetic resonance imaging, ad libitum food intake, and plasma/serum AG, glucose, insulin, and triglycerides. Results Postprandial plasma LEAP2 increased by 24.5% to 52.2% at 70 to 150 minutes, but was unchanged by exogenous AG administration. Postprandial increases in LEAP2 correlated positively with postprandial decreases in appetite, and cue reactivity to HE/LE and HE food in anteroposterior cingulate cortex, paracingulate cortex, frontal pole, and middle frontal gyrus, with similar trend for food intake. Postprandial increases in LEAP2 correlated negatively with body mass index, but did not correlate positively with increases in glucose, insulin, or triglycerides, nor decreases in AG. Conclusions These correlational findings are consistent with a role for postprandial increases in plasma LEAP2 in suppressing human eating behavior in adults without obesity. Postprandial increases in plasma LEAP2 are unrelated to changes in plasma AG and the mediator(s) remain uncertain. [ABSTRACT FROM AUTHOR]

Published

2023

6. Exploring the acute effects of running on cerebral blood flow and food cue reactivity in healthy young men using functional magnetic resonance imaging.

Author

Thackray, Alice E., Hinton, Elanor C., Alanazi, Turki M., Dera, Abdulrahman M., Kyoko Fujihara, Hamilton-Shield, Julian P., King, James A., Lithander, Fiona E., Masashi Miyashita, Thompson, Julie, Morgan, Paul S., Davies, Melanie J., and Stensel, David J.

Subjects

*FUNCTIONAL magnetic resonance imaging, *CEREBRAL circulation, *CINGULATE cortex, *PREFRONTAL cortex, *YOUNG men

Abstract

Acute exercise suppresses appetite and alters food-cue reactivity, but the extent exercise-induced changes in cerebral blood flow (CBF) influences the blood-oxygenlevel- dependent (BOLD) signal during appetite-related paradigms is not known. This study examined the impact of acute running on visual food-cue reactivity and explored whether such responses are influenced by CBF variability. In a randomised crossover design, 23 men (mean ± SD: 24 ± 4 years, 22.9 ± 2.1 kg/m2) completed fMRI scans before and after 60 min of running (68% ± 3% peak oxygen uptake) or rest (control). Five-minute pseudo-continuous arterial spin labelling fMRI scans were conducted for CBF assessment before and at four consecutive repeat acquisitions after exercise/rest. BOLD-fMRI was acquired during a food-cue reactivity task before and 28 min after exercise/rest. Food-cue reactivity analysis was performed with and without CBF adjustment. Subjective appetite ratings were assessed before, during and after exercise/rest. Exercise CBF was higher in grey matter, the posterior insula and in the region of the amygdala/hippocampus, and lower in the medial orbitofrontal cortex and dorsal striatum than control (main effect trial p ≤ .018). No time-by-trial interactions for CBF were identified (p ≥ .087). Exercise induced moderate-to-large reductions in subjective appetite ratings (Cohen's d = 0.53--0.84; p ≤ .024) and increased food-cue reactivity in the paracingulate gyrus, hippocampus, precuneous cortex, frontal pole and posterior cingulate gyrus. Accounting for CBF variability did not markedly alter detection of exercise-induced BOLD signal changes. Acute running evoked overall changes in CBF that were not time dependent and increased food-cue reactivity in regions implicated in attention, anticipation of reward, and episodic memory independent of CBF. [ABSTRACT FROM AUTHOR]

Published

2023

7. The effect of hunger state on hypothalamic functional connectivity in response to food cues.

Author

Kullmann, Stephanie, Veit, Ralf, Crabtree, Daniel R., Buosi, William, Androutsos, Odysseas, Johnstone, Alexandra M., Manios, Yannis, Preissl, Hubert, and Smeets, Paul A. M.

Subjects

*COMPULSIVE eating, *FUNCTIONAL connectivity, *FUNCTIONAL magnetic resonance imaging, *HUNGER, *PSYCHOPHYSIOLOGY, *FRONTAL lobe

Abstract

The neural underpinnings of the integration of internal and external cues that reflect nutritional status are poorly understood in humans. The hypothalamus is a key integrative area involved in short‐ and long‐term energy intake regulation. Hence, we examined the effect of hunger state on the hypothalamus network using functional magnetic resonance imaging. In a multicenter study, participants performed a food cue viewing task either fasted or sated on two separate days. We evaluated hypothalamic functional connectivity (FC) using psychophysiological interactions during high versus low caloric food cue viewing in 107 adults (divided into four groups based on age and body mass index [BMI]; age range 24–76 years; BMI range 19.5–41.5 kg/m2). In the sated compared to the fasted condition, the hypothalamus showed significantly higher FC with the bilateral caudate, the left insula and parts of the left inferior frontal cortex. Interestingly, we observed a significant interaction between hunger state and BMI group in the dorsolateral prefrontal cortex (DLPFC). Participants with normal weight compared to overweight and obesity showed higher FC between the hypothalamus and DLPFC in the fasted condition. The current study showed that task‐based FC of the hypothalamus can be modulated by internal (hunger state) and external cues (i.e., food cues with varying caloric content) with a general enhanced communication in the sated state and obesity‐associated differences in hypothalamus to DLPFC communication. This could potentially promote overeating in persons with obesity. [ABSTRACT FROM AUTHOR]

Published

2023

8. Validation of a laboratory craving assessment and evaluation of 4 different interventions on cravings among adults with overweight or obesity.

Author

Pasquale, Ellen K., Strong, David R., Eichen, Dawn M., Peterson, Carol B., Kang-Sim, D. Eastern, and Boutelle, Kerri N.

Subjects

*DESIRE, *BODY mass index, *WEIGHT loss, *ADULTS, *WEIGHT gain, *OBESITY, *COMPULSIVE eating

Abstract

Food cue reactivity (FCR) is an appetitive trait associated with overeating and weight gain. We developed a laboratory craving assessment to objectively evaluate cognitive aspects of FCR. This study examined the preliminary construct and criterion validity of this craving assessment and evaluated 4 different interventions, 2 of which incorporated cue-exposure treatment for food, on craving over treatment and follow-up. 271 treatment-seeking adults with overweight/obesity (body mass index = 34.6[5.2]; age = 46.5[11.8]; 81.2% female; 61.6% non-Latinx White) completed the Food Cue Responsivity Scale and the laboratory craving assessment, during which they alternated holding and smelling a highly craved food and provided craving ratings over 5 min. Participants were subsequently randomized to 26 treatment sessions over 12-months of ROC, Behavioral Weight Loss (BWL), a combined arm (ROC+) and an active comparator (AC), and repeated the craving assessment at post-treatment and 12-month follow-up. Linear mixed-effects models assessed associations between trial type (holding vs. smelling), trial number, pre-treatment FCR, treatment arm, assessment time point, and craving. Cravings were greater when smelling vs. holding food (b = 0.31, p < 0.001), and cravings decreased over time (b = −0.02, p < 0.001). Participants with higher pre-treatment FCR reported elevated cravings (b = 0.29, p < 0.001). Longitudinally, we observed a significant 3-way interaction in which treatment arm modified the relationship between pre-treatment FCR and craving over time (F (17,5122) = 6.88, p < 0.001). An attenuated FCR-craving relationship was observed in ROC+ and BWL from baseline to post-treatment but was only sustained in BWL at follow-up. This attenuation was also observed in ROC and AC from post-treatment to follow-up. The preliminary validity of this laboratory craving assessment was supported; however, greater craving reductions over time in ROC/ROC+ compared to BWL and AC were not consistently observed, and thus do not appear to fully account for the moderating effect of FCR on weight losses observed in the trial. [ABSTRACT FROM AUTHOR]

Published

2024

9. The role of maternal BMI on brain food cue reactivity in children: a preliminary study.

Author

Luo, Shan, Angelo, Brendan, Chow, Ting, Monterosso, John R., Xiang, Anny H., Thompson, Paul M., and Page, Kathleen A.

Abstract

Children of overweight and obese parents have an increased risk of obesity. Little is known the neural mechanisms underlying this relationship, specifically the brain systems implicated in self-regulation of food intake. The primary goal here is to examine relationships between maternal body mass index (BMI) and brain responses to food cues in children. Seventy-six children (8.62 ± 1.02 years; 28 M,48F) were included in this study. Height and weight were assessed for children and their biological parents. Maternal height and weight before pregnancy were extracted from the Electronic Medical Records (EMR). BMI (kg/m2) or BMIz (age- and sex-specific BMI) were calculated. Children underwent a magnetic resonance imaging session where they viewed food and non-food images before and after glucose ingestion. The dorsolateral prefrontal cortex (dlPFC) and anterior cingulate cortex (ACC) food cue reactivity was the measurement of interest for region-of-interest (ROI) analyses. Whole-brain exploratory analysis was performed as well. Non-parametric methods were used for data analysis. ROI and whole brain analyses showed that maternal current BMI was inversely associated with child's ACC and dlPFC food cue reactivity after glucose ingestion, adjusting for age and sex. No significant relationships were found between paternal BMI and child's food cue reactivity. Child BMIz was negatively associated with the ACC food cue reactivity after glucose ingestion. Our results supported the role of maternal adiposity on child's responses to appetitive food cues in brain self-regulation circuitry, which may influence eating behavior and obesity risk in children. [ABSTRACT FROM AUTHOR]

Published

2021

10. Associations between ghrelin and leptin and neural food cue reactivity in a fasted and sated state

Author

Mirjam C.M. Wever, Floor van Meer, Lisette Charbonnier, Daniel R. Crabtree, William Buosi, Angeliki Giannopoulou, Odysseas Androutsos, Alexandra M. Johnstone, Yannis Manios, Claire L. Meek, Jens J. Holst, and Paul A.M. Smeets

Subjects

Food cue reactivity, Appetite, Hormones, Ghrelin, Leptin, Visual food cues, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Food cue exposure can trigger eating. Food cue reactivity (FCR) is a conditioned response to food cues and includes physiological responses and activation of reward-related brain areas. FCR can be affected by hunger and weight status. The appetite-regulating hormones ghrelin and leptin play a pivotal role in homeostatic as well as hedonic eating. We examined the association between ghrelin and leptin levels and neural FCR in the fasted and sated state and the association between meal-induced changes in ghrelin and neural FCR, and in how far these associations are related to BMI and HOMA-IR. Data from 109 participants from three European centers (age 50±18 y, BMI 27±5 kg/m2) who performed a food viewing task during fMRI after an overnight fast and after a standardized meal were analyzed. Blood samples were drawn prior to the viewing task in which high-caloric, low-caloric and non-food images were shown. Fasting ghrelin was positively associated with neural FCR in the inferior and superior occipital gyrus in the fasted state. This was partly attributable to BMI and HOMA-IR. These brain regions are involved in visual attention, suggesting that individuals with higher fasting ghrelin have heightened attention to food cues. Leptin was positively associated with high calorie FCR in the medial prefrontal cortex (PFC) in the fasted state and to neural FCR in the left supramarginal gyrus in the fasted versus sated state, when correcting for BMI and HOMA-IR, respectively. This PFC region is involved in assessing anticipated reward value, suggesting that for individuals with higher leptin levels high-caloric foods are more salient than low-caloric foods, but foods in general are not more salient than non-foods. There were no associations between ghrelin and leptin and neural FCR in the sated state, nor between meal-induced changes in ghrelin and neural FCR. In conclusion, we show modest associations between ghrelin and leptin and neural FCR in a relatively large sample of European adults with a broad age and BMI range. Our findings indicate that people with higher leptin levels for their weight status and people with higher ghrelin levels may be more attracted to high caloric foods when hungry. The results of the present study form a foundation for future studies to test whether food intake and (changes in) weight status can be predicted by the association between (mainly fasting) ghrelin and leptin levels and neural FCR.

Published

2021

11. Bad mood food? Increased versus decreased food cue reactivity in anorexia nervosa and bulimia nervosa during negative emotions.

Author

Schnepper, Rebekka, Richard, Anna, Georgii, Claudio, Arend, Ann‐Kathrin, Naab, Silke, Voderholzer, Ulrich, Wilhelm, Frank H., and Blechert, Jens

Subjects

*SELF-control, *BULIMIA, *FOOD, *QUESTIONNAIRES, *EMOTION regulation, *ANOREXIA nervosa, *EMOTIONS, *CONDITIONED response, *PROMPTS (Psychology), *EATING disorders

Abstract

Objective: Emotion regulation difficulties in anorexia nervosa (AN) and bulimia nervosa (BN) might underlie bingeing and purging in BN, extreme fasting in AN, or combinations of these symptoms in binge‐purge type AN. In this study, we tested for decreased food cue reactivity in response to negative emotions in AN, and the opposite pattern for BN. Furthermore, we explored subgroup differences (restrictive vs. binge‐purging AN; history of AN in BN). Method: Patients with AN (n = 41), BN (n = 39), and matched controls (n = 70) completed an emotional eating questionnaire. In a laboratory experiment, we induced negative emotions and measured food cue reactivity (pleasantness, desire to eat (DTE), and corrugator muscle activity). Results: AN reported emotional undereating, while BN reported emotional overeating. In the laboratory task, BN showed increased DTE and an appetitive corrugator response during negative emotions, selectively towards high‐calorie foods. AN showed generalized reduced cue reactivity to high‐calorie food regardless of emotional state. This pattern appears to be characteristic of restrictive AN, while cue reactivity of both BN subgroups pointed towards emotional overeating. Conclusions: The emotional over‐ versus undereating framework might help to explain bingeing and restricting along the anorectic‐bulimic disorder spectrum, which calls for novel transdiagnostic theories and subgroup‐specific treatments. Highlights: Emotional eating might be an emotion regulation strategy in both bulimia nervosa (BN) and anorexia nervosa (AN).While AN shows decreased reactivity to food pictures in negative mood, BN shows increased reactivity.These reactions might explain restriction and bingeing symptomatology and have the potential to discriminate between eating disorder subtypes. [ABSTRACT FROM AUTHOR]

Published

2021

12. Exposure to Promote Healthy Eating

Author

Anita Jansen, Ghislaine Schyns, Section Eating Disorders and Obesity, and RS: FPN CPS II

Subjects

Psychiatry and Mental health, Clinical Psychology, Unhealthy Eating, FOOD CUE REACTIVITY, Obesity, Overweight, Lifestyle, THERAPY, Craving, Exposure

Abstract

Adopting a healthier lifestyle includes replacing long-standing unhealthy eating habits with new healthier ones and maintaining these newly acquired healthy eating habits. A permanent behavior change appears to be difficult to maintain, which may follow from some basic learning processes. In the last decades, a lot was learned about the learning mechanisms that promote relapse into old behaviours. Taking these learning processes into consideration, a new exposure intervention was developed to combat several forms of unhealthy eating. Exposure is a powerful strategy to change behaviours and cognitions. This theoretical article briefly discusses some fundamental learning processes that may be involved in unhealthy eating habits and shows how the exposure intervention can be applied to promote healthier eating and long-term behavioral change at all ages.

Published

2023

13. The Empirical Status of Cue Exposure and Response Prevention Treatment for Binge Eating: A Systematic Review.

Author

Magson, Natasha R., Handford, Charlotte M., and Norberg, Melissa M.

Subjects

*BULIMIA, *COGNITIVE therapy, *GREY literature, *TREATMENT effectiveness, *MEDICAL protocols

Abstract

Approximately 50% of individuals fail to obtain treatment benefits when undergoing cognitive-behavioral therapy (CBT) for binge-eating behaviors, making it necessary to evaluate additional approaches. Cue exposure and response prevention (CERP) is one such approach, although its effectiveness across studies has been inconsistent. This may be due to inconsistent implementation of theoretically based CERP strategies. This possibility has not yet been systematically investigated. To address this gap, this review investigated which CERP strategies have been incorporated into treatment protocols for binge eating, and if the use of certain strategies improves treatment effectiveness. Relevant studies were identified through reference lists, grey literature, and searches of electronic databases using multiple search terms related to CERP and binge eating, which resulted in 18 eligible studies. Most studies were underpowered, many were of low methodological quality, and none of the included studies utilized all of the strategies that have been recommended to optimize CERP. Despite these weaknesses, CERP appeared to reduce the frequency of binge eating in the short and long term. This review underscores the need for higher quality research that utilizes larger samples and uniform outcome measures that are more strongly grounded in theory. Such research would help improve treatment outcomes for binge eating. [ABSTRACT FROM AUTHOR]

Published

2021

14. Brain Activity Associated With Regulating Food Cravings Predicts Changes in Self-Reported Food Craving and Consumption Over Time

Author

Nicole R. Giuliani, Danielle Cosme, Junaid S. Merchant, Bryce Dirks, and Elliot T. Berkman

Subjects

food cue reactivity, food craving regulation, healthy food, unhealthy food, food craving, food consumption, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Neural patterns associated with viewing energy-dense foods can predict changes in eating-related outcomes. However, most research on this topic is limited to one follow-up time point, and single outcome measures. The present study seeks to add to that literature by employing a more refined assessment of food craving and consumption outcomes along with a more detailed neurobiological model of behavior change over several time points. Here, a community sample of 88 individuals (age: M = 39.17, SD = 3.47; baseline BMI: M = 31.5, SD = 3.9, range 24–42) with higher body mass index (BMI) performed a food craving reactivity and regulation task while undergoing functional magnetic resonance imaging. At that time—and 1, 3, and 6 months later—participants reported craving for and consumption of healthy and unhealthy foods via the Food Craving Inventory (FCI) and ASA24 (N at 6 months = 52–55 depending on the measure). A priori hypotheses that brain activity associated with both viewing and regulating personally desired unhealthy, energy-dense foods would be associated with self-reported craving for and consumption of unhealthy foods at baseline were not supported by the data. Instead, regression models controlling for age, sex, and BMI demonstrated that brain activity across several regions measured while individuals were regulating their desires for unhealthy food was associated with the self-reported craving for and consumption of healthy food. The hypothesis that vmPFC activity would predict patterns of healthier eating was also not supported. Instead, linear mixed models controlling for baseline age and sex, as well as changes in BMI, revealed that more regulation-related activity in the dlPFC, dACC, IFG, and vmPFC at baseline predicted decreases in the craving for and consumption of healthy foods over the course of 6 months.

Published

2020

15. Fight, Flight, – Or Grab a Bite! Trait Emotional and Restrained Eating Style Predicts Food Cue Responding Under Negative Emotions

Author

Rebekka Schnepper, Claudio Georgii, Katharina Eichin, Ann-Kathrin Arend, Frank H. Wilhelm, Claus Vögele, Annika P. C. Lutz, Zoé van Dyck, and Jens Blechert

Subjects

emotional eating, restrained eating, mood induction, food cue reactivity, multilevel modeling, P300, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

In today’s society, obesity rates are rising as food intake is no longer only a response to physiological hunger signals that ensure survival. Eating can represent a reward, a response to boredom, or stress reduction and emotion regulation. While most people decrease food intake in response to stress or negative emotions, some do the opposite. Yet, it is unclear who shows emotional overeating under which circumstances. Emotion regulation theories describe emotional overeating as a learned strategy to down-regulate negative emotions. Cognitive theories, by contrast, attribute emotional overeating to perceived diet breaches in individuals who chronically attempt to diet. After consuming “forbidden foods”, they eat more than individuals who do not restrict their food intake. This laboratory study investigated emotional overeating by exposing individuals to a personalized emotion induction while showing images of palatable foods. Outcome variables indexed cue reactivity to food images through picture ratings (valence, desire to eat), facial expressions (electromyography of the corrugator supercilii muscle), and brain reactivity by detecting event-related potentials (ERPs) by means of electroencephalography (EEG). The influence of emotion condition (negative, neutral) and individual differences (self-reported trait emotional and restrained eating) on outcome variables was assessed. Valence ratings and appetitive reactions of the corrugator muscle to food pictures showed a relative increase in the negative condition for individuals with higher emotional eating scores, with the opposite pattern in lower scores. Desire to eat ratings showed a similar pattern in individuals who showed a strong response to the emotion induction manipulation, indicative of a dose-response relationship. Although no differences between conditions were found for ratings or corrugator activity with restrained eating as a predictor, an ERP at P300 showed increased activation when viewing food compared to objects in the negative condition. Findings support emotion regulation theories: Emotional eaters showed an appetitive reaction in rating patterns and corrugator activity. EEG findings (increased P300) suggest a motivated attention toward food in restrained eaters, which supports cognitive theories. However, this did not translate to other variables, which might demonstrate successful restraint. Future studies may follow up on these findings by investigating eating disorders with emotion regulation difficulties.

Published

2020

16. Brain Activity Associated With Regulating Food Cravings Predicts Changes in Self-Reported Food Craving and Consumption Over Time.

Author

Giuliani, Nicole R., Cosme, Danielle, Merchant, Junaid S., Dirks, Bryce, and Berkman, Elliot T.

Subjects

FOOD consumption, UNHEALTHY lifestyles, FUNCTIONAL magnetic resonance imaging, BEHAVIOR, DESIRE, HUMAN behavior models

Abstract

Neural patterns associated with viewing energy-dense foods can predict changes in eating-related outcomes. However, most research on this topic is limited to one follow-up time point, and single outcome measures. The present study seeks to add to that literature by employing a more refined assessment of food craving and consumption outcomes along with a more detailed neurobiological model of behavior change over several time points. Here, a community sample of 88 individuals (age: M = 39.17, SD = 3.47; baseline BMI: M = 31.5, SD = 3.9, range 24–42) with higher body mass index (BMI) performed a food craving reactivity and regulation task while undergoing functional magnetic resonance imaging. At that time—and 1, 3, and 6 months later—participants reported craving for and consumption of healthy and unhealthy foods via the Food Craving Inventory (FCI) and ASA24 (N at 6 months = 52–55 depending on the measure). A priori hypotheses that brain activity associated with both viewing and regulating personally desired unhealthy, energy-dense foods would be associated with self-reported craving for and consumption of unhealthy foods at baseline were not supported by the data. Instead, regression models controlling for age, sex, and BMI demonstrated that brain activity across several regions measured while individuals were regulating their desires for unhealthy food was associated with the self-reported craving for and consumption of healthy food. The hypothesis that vmPFC activity would predict patterns of healthier eating was also not supported. Instead, linear mixed models controlling for baseline age and sex, as well as changes in BMI, revealed that more regulation-related activity in the dlPFC, dACC, IFG, and vmPFC at baseline predicted decreases in the craving for and consumption of healthy foods over the course of 6 months. [ABSTRACT FROM AUTHOR]

Published

2020

17. Fight, Flight, – Or Grab a Bite! Trait Emotional and Restrained Eating Style Predicts Food Cue Responding Under Negative Emotions.

Author

Schnepper, Rebekka, Georgii, Claudio, Eichin, Katharina, Arend, Ann-Kathrin, Wilhelm, Frank H., Vögele, Claus, Lutz, Annika P. C., van Dyck, Zoé, and Blechert, Jens

Subjects

EMOTIONAL eating, EMOTIONS, INGESTION, FOOD presentation, LONGITUDINAL method, DOSE-response relationship in biochemistry

Abstract

In today's society, obesity rates are rising as food intake is no longer only a response to physiological hunger signals that ensure survival. Eating can represent a reward, a response to boredom, or stress reduction and emotion regulation. While most people decrease food intake in response to stress or negative emotions, some do the opposite. Yet, it is unclear who shows emotional overeating under which circumstances. Emotion regulation theories describe emotional overeating as a learned strategy to down-regulate negative emotions. Cognitive theories, by contrast, attribute emotional overeating to perceived diet breaches in individuals who chronically attempt to diet. After consuming "forbidden foods", they eat more than individuals who do not restrict their food intake. This laboratory study investigated emotional overeating by exposing individuals to a personalized emotion induction while showing images of palatable foods. Outcome variables indexed cue reactivity to food images through picture ratings (valence, desire to eat), facial expressions (electromyography of the corrugator supercilii muscle), and brain reactivity by detecting event-related potentials (ERPs) by means of electroencephalography (EEG). The influence of emotion condition (negative, neutral) and individual differences (self-reported trait emotional and restrained eating) on outcome variables was assessed. Valence ratings and appetitive reactions of the corrugator muscle to food pictures showed a relative increase in the negative condition for individuals with higher emotional eating scores, with the opposite pattern in lower scores. Desire to eat ratings showed a similar pattern in individuals who showed a strong response to the emotion induction manipulation, indicative of a dose-response relationship. Although no differences between conditions were found for ratings or corrugator activity with restrained eating as a predictor, an ERP at P300 showed increased activation when viewing food compared to objects in the negative condition. Findings support emotion regulation theories: Emotional eaters showed an appetitive reaction in rating patterns and corrugator activity. EEG findings (increased P300) suggest a motivated attention toward food in restrained eaters, which supports cognitive theories. However, this did not translate to other variables, which might demonstrate successful restraint. Future studies may follow up on these findings by investigating eating disorders with emotion regulation difficulties. [ABSTRACT FROM AUTHOR]

Published

2020

18. Exposure to Promote Healthy Eating

Author

Jansen, A., Schyns, G., Jansen, A., and Schyns, G.

Abstract

Adopting a healthier lifestyle includes replacing long-standing unhealthy eating habits with new healthier ones and maintaining these newly acquired healthy eating habits. A permanent behavior change appears to be difficult to maintain, which may follow from some basic learning processes. In the last decades, a lot was learned about the learning mechanisms that promote relapse into old behaviours. Taking these learning processes into consideration, a new exposure intervention was developed to combat several forms of unhealthy eating. Exposure is a powerful strategy to change behaviours and cognitions. This theoretical article briefly discusses some fundamental learning processes that may be involved in unhealthy eating habits and shows how the exposure intervention can be applied to promote healthier eating and long-term behavioral change at all ages.

Published

2023

19. Liking and left amygdala activity during food versus nonfood processing are modulated by emotional context.

Author

García-García, Isabel, Kube, Jana, Morys, Filip, Schrimpf, Anne, Kanaan, Ahmad S., Gaebler, Michael, Villringer, Arno, Dagher, Alain, Horstmann, Annette, and Neumann, Jane

Subjects

*FOOD habits, *WAIST circumference, *FOOD industry, *AMYGDALOID body, *LIKES & dislikes, *FOOD, *APPETITE

Abstract

Emotions can influence our eating behaviors. Facing an acute stressor or being in a positive mood are examples of situations that tend to modify appetite. However, the question of how the brain integrates these emotion-related changes in food processing remains elusive. Here, we designed an emotional priming fMRI task to test if amygdala activity during food pictures differs depending on the emotional context. Fifty-eight female participants completed a novel emotional priming task, in which emotional images of negative, neutral, or positive situations were followed by pictures of either foods or objects. After priming in each trial, participants rated how much they liked the shown foods or objects. We analyzed how brain activity during the contrast "foods > objects" changed according to the emotional context—in the whole brain and in the amygdala. We also examined the potential effect of adiposity (i.e., waist circumference). We observed a higher difference between liking scores for foods and objects after positive priming than after neutral priming. In the left amygdala, activity in the contrast "foods > objects" was higher after neutral priming relative to negative priming. Waist circumference was not significantly related to this emotional priming effect on food processing. Our results suggest that emotional context alters food and nonfood perception, both in terms of liking scores and with regard to engagement of the left amygdala. Moreover, our findings indicate that emotional context has an impact on the salience advantage of food, possibly affecting eating behavior. [ABSTRACT FROM AUTHOR]

Published

2020

20. Rethinking Food Reward.

Author

de Araujo, Ivan E., Schatzker, Mark, and Small, Dana M.

Subjects

*CONSCIOUSNESS, *DOPAMINE, *NUTRITIONAL requirements, *REINFORCEMENT (Psychology), *REWARD (Psychology), *SENSORY receptors, *TASTE, *HYPERPHAGIA, *NEURAL pathways

Abstract

The conscious perception of the hedonic sensory properties of caloric foods is commonly believed to guide our dietary choices. Current and traditional models implicate the consciously perceived hedonic qualities of food as driving overeating, whereas subliminal signals arising from the gut would curb our uncontrolled desire for calories. Here we review recent animal and human studies that support a markedly different model for food reward. These findings reveal in particular the existence of subcortical body-to-brain neural pathways linking gastrointestinal nutrient sensors to the brain's reward regions. Unexpectedly, consciously perceptible hedonic qualities appear to play a less relevant, and mostly transient, role in food reinforcement. In this model, gut-brain reward pathways bypass cranial taste and aroma sensory receptors and the cortical networks that give rise to flavor perception. They instead reinforce behaviors independently of the cognitive processes that support overt insights into the nature of our dietary decisions. [ABSTRACT FROM AUTHOR]

Published

2020

21. Post-prandial increases in liver-gut hormone LEAP2 correlate with attenuated eating behaviour in adults without obesity (supplementary material)

Author

Bhargava, R., Luur, S., Rodriguez Flores, M., Emini, M., Prechtl, C.G., and Goldstone, A.P.

Subjects

insulin, appetite, ghrelin, fMRI, glucose, LEAP2, triglycerides, food cue reactivity

Abstract

Figure S1. Study Protocol Figure S2. Correlation of post-prandial plasma LEAP2 with meal size consumed across different studies Figure S3. Plasma LEAP2 at study visits Figure S4. Food appeal ratings between visits for high-energy and low-energy foods Table S1. Whole brain analysis for correlations of post-prandial changes in BOLD signal to high-energy foods with plasma hormones Table S2. Whole brain analysis for correlations of post-prandial changes in BOLD signal to low-energy foods with plasma hormones Table S3. Whole brain analysis for correlations of post-prandial changes in BOLD signal to high- or low-energy foods with plasma hormones Supplementary References

Published

2023

22. Emotional food cue reactivity in Anorexia Nervosa and Bulimia Nervosa

Author

Blechert, Jens, Schnepper, Rebekka, Eichin, Katharina, Voderholzer, Ulrich, and Georgii, Claudio

Subjects

food picture viewing, Anorexia Nervosa, emotional eating, Eating disorders, EEG, Social and Behavioral Sciences, Bulimia Nervosa, food cue reactivity

Abstract

Data for 'Emotional food-cue-reactivity in Anorexia Nervosa and Bulimia Nervosa: An electroencephalography study'. Contains liking ratings and averaged EEG data for images of foods and objects in an emotionally neutral and negative condition. Participants include individuals with Anorexia Nervosa, Bulimia Nervosa and Healthy Controls.

Published

2023

23. The nutrition information paradox

Author

Potthoff, Jonas and Schienle, Anne

Subjects

nutrition, sugar, food, traffic light label, eye tracking, food cue reactivity, food labeling

Published

2022

24. Altered appetitive conditioning in overweight and obese women.

Author

van den Akker, Karolien, Schyns, Ghislaine, and Jansen, Anita

Subjects

*OVERWEIGHT persons, *WEIGHT loss, *APPETITE, *GALVANIC skin response, *SALIVATION, *PHYSIOLOGY

Abstract

Overweight and obese individuals show increased psychological and physiological reactivity to food cues and many of them have difficulties in achieving long-term weight loss. The current study tests whether abnormalities in the learning and extinction of appetitive responses to food cues might be responsible for this. Overweight/obese and healthy weight women completed a differential appetitive conditioning task using food as rewards, while eating expectancies, eating desires, conditioned stimulus evaluations, salivation, and electrodermal responses were assessed during an acquisition and extinction phase. Results suggested reduced discriminative conditioning in the overweight/obese group, as reflected by a worse acquisition of differential eating desires and no successful acquisition of differential evaluative responses. Some evidence was also found for impaired contingency learning in overweight and obese individuals. No group differences in conditioned salivation and skin conductance responses were found and no compelling evidence for differences in extinction was found as well. In sum, the current findings indicate that overweight and obesity may be characterized by reduced appetitive conditioning. It is suggested that this could be causally related to overeating via stronger context conditioning or a tendency towards overgeneralization in overweight and obese individuals. [ABSTRACT FROM AUTHOR]

Published

2017

25. Academic stress and personality interact to increase the neural response to high-calorie food cues.

Author

Neseliler, Selin, Tannenbaum, Beth, Zacchia, Maria, Larcher, Kevin, Coulter, Kirsty, Lamarche, Marie, Marliss, Errol B., Pruessner, Jens, and Dagher, Alain

Subjects

*OVERPRESSURE (Education), *INTERPERSONAL relations, *HIGH-calorie diet, *WEIGHT gain, *PREFRONTAL cortex, *NEURAL physiology, *BASAL ganglia, *DIET, *FRONTAL lobe, *HYDROCORTISONE, *MAGNETIC resonance imaging, *PERSONALITY, *PSYCHOLOGICAL stress, *STUDENTS, *GHRELIN, *BODY mass index, *PROMPTS (Psychology), *CROSS-sectional method, *PHYSIOLOGY

Abstract

Psychosocial stress is associated with an increased intake of palatable foods and weight gain in stress-reactive individuals. Personality traits have been shown to predict stress-reactivity. However, it is not known if personality traits influence brain activity in regions implicated in appetite control during psychosocial stress. The current study assessed whether Gray's Behavioural Inhibition System (BIS) scale, a measure of stress-reactivity, was related to the activity of brain regions implicated in appetite control during a stressful period. Twenty-two undergraduate students participated in a functional magnetic resonance imaging (fMRI) experiment once during a non-exam period and once during final exams in a counter-balanced order. In the scanner, they viewed food and scenery pictures. In the exam compared with the non-exam condition, BIS scores related to increased perceived stress and correlated with increased blood-oxygen-level dependent (BOLD) response to high-calorie food images in regions implicated in food reward and subjective value, such as the ventromedial prefrontal cortex, (vmPFC) and the amygdala. BIS scores negatively related to the functional connectivity between the vmPFC and the dorsolateral prefrontal cortex. The results demonstrate that the BIS trait influences stress reactivity. This is observed both as an increased activity in brain regions implicated in computing the value of food cues and decreased connectivity of these regions to prefrontal regions implicated in self-control. This suggests that the effects of real life stress on appetitive brain function and self-control is modulated by a personality trait. This may help to explain why stressful periods can lead to overeating in vulnerable individuals. [ABSTRACT FROM AUTHOR]

Published

2017

26. Uncontrolled eating in healthy women has limited influence on food cue reactivity and food-related inhibitory control

Author

Elaine Fox, Desirée Spronk, Maud Grol, Danna Oomen, and Luis Cásedas

Subjects

BRAIN REWARD SYSTEMS, Hunger, Precuneus, ROBUST, QUESTIONNAIRE, Social Sciences, Uncontrolled eating, Hyperphagia, Impulsivity, Developmental psychology, CORTICOLIMBIC ACTIVATION, Eating, Food Preferences, Hedonic hunger, Food cue reactivity, Cognitive resource theory, Superior, medicine, Humans, Food consumption, Overeating, Reactivity (psychology), OPTIMIZATION, Inhibitory control, General Psychology, Nutrition and Dietetics, occipital gyrus, digestive, oral, and skin physiology, Feeding Behavior, medicine.disease, Obesity, TRAIT, Visual cortex, medicine.anatomical_structure, Food, OBESITY, REGISTRATION, Female, HUNGER, Cues, Snacks, medicine.symptom, IMPULSIVITY, Psychology

Abstract

Uncontrolled eating-in the general population-is characterized by overeating, hedonic hunger and being drawn towards palatable foods. Theoretically, it is the result of a strong food reward signal in relation to a poor ability to exert inhibitory control. How food consumption influences inhibitory control and food cue sensitivity, and how this relates to the continued urge to eat, remains unclear. We used fMRI in order to investigate the neural mechanism underlying food cue reactivity and food-specific response inhibition (go-nogo task), by comparing women reporting high (n = 21) versus low/average (n = 19) uncontrolled eating across two sessions: during an inter-meal state and after consumption of a high-caloric snack. We found no effects of individual differences in uncontrolled eating, food consumption, nor their interaction on food cue reactivity. Differences in uncontrolled eating and food consumption did interact in modulating activity in an occipital-parietal network, extending from left lateral superior occipital cortex to visual cortex, cuneal cortex, and precuneus during response inhibition of non-food stimuli, areas previously associated with successful nogo-vs. go-trials. Yet, behavioural performance on the go-nogo task was not modulated by uncontrolled eating nor food consumption. Women with a low/average tendency for uncontrolled eating may need more cognitive resources to support successful response inhibition of non-food stimuli during food 'go' blocks in an inter-meal state, whereas women with a high tendency for uncontrolled eating showed this after food consumption. However, considering current and previous findings, it seems that individual differences in uncontrolled eating in healthy women have only limited influence on food cue reactivity and food-related inhibitory control.

Published

2022

27. Mind over food: The influence of mindset on brain, body and behaviour

Author

Franssen, Sieske Henriëtte Margriet Jessica, Franssen, Sieske Henriëtte Margriet Jessica, Franssen, Sieske Henriëtte Margriet Jessica, and Franssen, Sieske Henriëtte Margriet Jessica

Abstract

High-calorie food has two faces, on the one hand a high hedonic value (it is tasty and rewarding) and on the other hand, an unhealthy value (many calories, risk of weight gain). In this dissertation, the influence of mind-set on eating behaviour, neural responses, hormonal responses, metabolism and subjective experiences, such as craving, was investigated. Mind-set is defined as the thoughts, beliefs, assumptions and expectations a person has about a subject. These studies show that the brain does not always respond the same to seeing high calorie tasty foods, but is strongly influenced by mind-set (i.e., focus on taste experience versus neutral). In addition, it was shown that this mind-set influences eating behaviour, and people eat more when they are put into a loss-of-control mind-set beforehand than when they are put into an in-control mind-set. No evidence was found that mind-set can also influence hormonal or metabolic responses and associated subjective perceptions. In addition, it was shown that there was no reduction in activity in the expected brain regions when seeing tasty high-calorie foods after food cue exposure therapy.

Published

2021

28. Associations between ghrelin and leptin and neural food cue reactivity in a fasted and sated state

Author

Wever, Mirjam C.M., van Meer, Floor, Charbonnier, Lisette, Crabtree, Daniel R., Buosi, William, Giannopoulou, Angeliki, Androutsos, Odysseas, Johnstone, Alexandra M., Manios, Yannis, Meek, Claire L., Holst, Jens J., Smeets, Paul A.M., Wever, Mirjam C.M., van Meer, Floor, Charbonnier, Lisette, Crabtree, Daniel R., Buosi, William, Giannopoulou, Angeliki, Androutsos, Odysseas, Johnstone, Alexandra M., Manios, Yannis, Meek, Claire L., Holst, Jens J., and Smeets, Paul A.M.

Abstract

Food cue exposure can trigger eating. Food cue reactivity (FCR) is a conditioned response to food cues and includes physiological responses and activation of reward-related brain areas. FCR can be affected by hunger and weight status. The appetite-regulating hormones ghrelin and leptin play a pivotal role in homeostatic as well as hedonic eating. We examined the association between ghrelin and leptin levels and neural FCR in the fasted and sated state and the association between meal-induced changes in ghrelin and neural FCR, and in how far these associations are related to BMI and HOMA-IR. Data from 109 participants from three European centers (age 50±18 y, BMI 27±5 kg/m2) who performed a food viewing task during fMRI after an overnight fast and after a standardized meal were analyzed. Blood samples were drawn prior to the viewing task in which high-caloric, low-caloric and non-food images were shown. Fasting ghrelin was positively associated with neural FCR in the inferior and superior occipital gyrus in the fasted state. This was partly attributable to BMI and HOMA-IR. These brain regions are involved in visual attention, suggesting that individuals with higher fasting ghrelin have heightened attention to food cues. Leptin was positively associated with high calorie FCR in the medial prefrontal cortex (PFC) in the fasted state and to neural FCR in the left supramarginal gyrus in the fasted versus sated state, when correcting for BMI and HOMA-IR, respectively. This PFC region is involved in assessing anticipated reward value, suggesting that for individuals with higher leptin levels high-caloric foods are more salient than low-caloric foods, but foods in general are not more salient than non-foods. There were no associations between ghrelin and leptin and neural FCR in the sated state, nor between meal-induced changes in ghrelin and neural FCR. In conclusion, we show modest associations between ghrelin and leptin and neural FCR in a relatively large sample of Euro

Published

2021

29. Greater anterior cingulate activation and connectivity in response to visual and auditory high-calorie food cues in binge eating: Preliminary findings.

Author

Geliebter, Allan, Benson, Leora, Pantazatos, Spiro P., Hirsch, Joy, and Carnell, Susan

Subjects

*COMPULSIVE eating, *CINGULATE cortex, *VISUAL cortex, *HIGH-calorie diet, *IMPULSIVE personality, *LIMBIC system physiology, *ADIPOSE tissues, *BODY weight, *BULIMIA, *INGESTION, *LIMBIC system, *MAGNETIC resonance imaging, *NEURORADIOLOGY, *OBESITY, *RESEARCH funding, *BODY mass index, *PROMPTS (Psychology), *CASE-control method

Abstract

Obese individuals show altered neural responses to high-calorie food cues. Individuals with binge eating [BE], who exhibit heightened impulsivity and emotionality, may show a related but distinct pattern of irregular neural responses. However, few neuroimaging studies have compared BE and non-BE groups. To examine neural responses to food cues in BE, 10 women with BE and 10 women without BE (non-BE) who were matched for obesity (5 obese and 5 lean in each group) underwent fMRI scanning during presentation of visual (picture) and auditory (spoken word) cues representing high energy density (ED) foods, low-ED foods, and non-foods. We then compared regional brain activation in BE vs. non-BE groups for high-ED vs. low-ED foods. To explore differences in functional connectivity, we also compared psychophysiologic interactions [PPI] with dorsal anterior cingulate cortex [dACC] for BE vs. non-BE groups. Region of interest (ROI) analyses revealed that the BE group showed more activation than the non-BE group in the dACC, with no activation differences in the striatum or orbitofrontal cortex [OFC]. Exploratory PPI analyses revealed a trend towards greater functional connectivity with dACC in the insula, cerebellum, and supramarginal gyrus in the BE vs. non-BE group. Our results suggest that women with BE show hyper-responsivity in the dACC as well as increased coupling with other brain regions when presented with high-ED cues. These differences are independent of body weight, and appear to be associated with the BE phenotype. [ABSTRACT FROM AUTHOR]

Published

2016

30. Approach bias and cue reactivity towards food in people with high versus low levels of food craving.

Author

Brockmeyer, Timo, Hahn, Carolyn, Reetz, Christina, Schmidt, Ulrike, and Friederich, Hans-Christoph

Subjects

*COGNITIVE bias, *PROMPTS (Psychology), *BULIMIA, *STIMULUS & response (Psychology), *FOOD & psychology

Abstract

Objective: Even though people suffering from high levels of food craving are aware of the negative consequences of binge eating, they cannot resist. Automatic action tendencies (i.e. approach bias) towards food cues that operate outside conscious control may contribute to this dysfunctional behavior. The present study aimed to examine whether people with high levels of food craving show a stronger approach bias for food than those with low levels of food craving and whether this bias is associated with cue-elicited food craving.Method: Forty-one individuals reporting either extremely high or extremely low levels of trait food craving were recruited via an online screening and compared regarding approach bias towards visual food cues by means of an implicit stimulus-response paradigm (i.e. the Food Approach-Avoidance Task). State levels of food craving were assessed before and after cue exposure to indicate food cue reactivity.Results: As expected, high food cravers showed stronger automatic approach tendencies towards food than low food cravers. Also in line with the hypotheses, approach bias for food was positively correlated with the magnitude of change in state levels of food craving from pre-to post-cue exposure in the total sample.Discussion: The findings suggest that an approach bias in early stages of information processing contributes to the inability to resist food intake and may be of relevance for understanding and treating dysfunctional eating behavior. [ABSTRACT FROM AUTHOR]

Published

2015

31. Mind over food

Author

Franssen, Sieske Henriëtte Margriet Jessica, Roefs, Anne, Jansen, Anita, RS: FPN CN 10, Emotion, RS: FPN CPS II, and Section Eating Disorders and Obesity

Subjects

eating behaviour, obesity, neural responses, digestive, oral, and skin physiology, mind-set, physiological responses, food cue reactivity

Abstract

High-calorie food has two faces, on the one hand a high hedonic value (it is tasty and rewarding) and on the other hand, an unhealthy value (many calories, risk of weight gain). In this dissertation, the influence of mind-set on eating behaviour, neural responses, hormonal responses, metabolism and subjective experiences, such as craving, was investigated. Mind-set is defined as the thoughts, beliefs, assumptions and expectations a person has about a subject. These studies show that the brain does not always respond the same to seeing high calorie tasty foods, but is strongly influenced by mind-set (i.e., focus on taste experience versus neutral). In addition, it was shown that this mind-set influences eating behaviour, and people eat more when they are put into a loss-of-control mind-set beforehand than when they are put into an in-control mind-set. No evidence was found that mind-set can also influence hormonal or metabolic responses and associated subjective perceptions. In addition, it was shown that there was no reduction in activity in the expected brain regions when seeing tasty high-calorie foods after food cue exposure therapy.

Published

2021

32. Odor imagery but not perception drives risk for food cue reactivity and increased adiposity.

Author

Perszyk EE, Davis XS, Djordjevic J, Jones-Gotman M, Trinh J, Hutelin Z, Veldhuizen MG, Koban L, Wager TD, Kober H, and Small DM

Abstract

Mental imagery has been proposed to play a critical role in the amplification of cravings. Here we tested whether olfactory imagery drives food cue reactivity strength to promote adiposity in 45 healthy individuals. We measured odor perception, odor imagery ability, and food cue reactivity using self-report, perceptual testing, and neuroimaging. Adiposity was assessed at baseline and one year later. Brain responses to real and imagined odors were analyzed with univariate and multivariate decoding methods to identify pattern-based olfactory codes. We found that the accuracy of decoding imagined, but not real, odor quality correlated with a perceptual measure of odor imagery ability and with greater adiposity changes. This latter relationship was mediated by cue-potentiated craving and intake. Collectively, these findings establish odor imagery ability as a risk factor for weight gain and more specifically as a mechanism by which exposure to food cues promotes craving and overeating., Competing Interests: DECLARATION OF INTERESTS The authors declare no competing interests.

Published

2023

33. To eat or not to eat. The effects of expectancy on reactivity to food cues.

Author

Hardman, Charlotte A., Scott, Jade, Field, Matt, and Jones, Andrew

Subjects

*EXPECTATION (Psychology), *FOOD consumption, *FOOD habits, *SALIVATION, *EATING Attitudes Test

Abstract

Highlights: [•] This study manipulated expectations about consumption of a cued food. [•] Effects on salivation, self-reported measures and attentional bias were assessed. [•] Expectancy increased the initial orientation of attention towards reward cues. [•] However, none of the other cue reactivity measures were influenced by expectancy. [Copyright &y& Elsevier]

Published

2014

34. Tackling sabotaging cognitive processes to reduce overeating; expectancy violation during food cue exposure

Subjects

OVERWEIGHT CHILDREN, Food cue reactivity, PROGRAMS, WEIGHT-LOSS, Obesity, Extinction, Habituation, IMPULSIVITY, FEAR, Expectancy violation, THERAPY, REACTIVITY, Exposure

Abstract

Calorie-reduced diets to combat obesity do work, but they only work when one sticks to the diet and the - relatively small - weight loss usually is short-lived. It is argued that calorie-reduced diets should converge with enduring lifestyle changes: the diet is just the start of a lifelong new eating pattern. Getting people to change their lifestyles forever could increase the amount of lost weight and prevent relapse. However, a real behavior change is difficult, especially when longstanding habits are involved and the change is intended for the rest of life. It is argued here that adherence to a new lifestyle is much easier if sabotaging cognitive processes are tackled. An overview is given of four studies into the effects of exposure to reduce appetitive responding to tempting food cues. A robust effect of exposure on the ad lib intake of exposed foods was found in all studies: participants ate significantly less of exposed foods after exposure compared to control interventions but no generalization to non-exposed foods was found. The reduced food intake after exposure was associated with a violation of overeating expectancies. It is discussed that lifestyle interventions might benefit from techniques that are really able to change longstanding habits. Specifically, the violation of overeating expectancies during exposure seems to be critical for controlled eating and should therefore be part of lifestyle interventions for obesity.

Published

2020

35. Learned Overeating: Applying Principles of Pavlovian Conditioning to Explain and Treat Overeating

Author

Ghislaine Schyns, Anita Jansen, Karolien van den Akker, Section Eating Disorders and Obesity, and RS: FPN CPS II

Subjects

050103 clinical psychology, Future studies, digestive, oral, and skin physiology, 05 social sciences, Classical conditioning, Extinction (psychology), Food cue exposure therapy, Food cue, 03 medical and health sciences, Psychiatry and Mental health, Clinical Psychology, Food Addiction (A Meule, Section Editor), 0302 clinical medicine, Food cue reactivity, Overeating, Weight loss interventions, Learning theory, 0501 psychology and cognitive sciences, Pavlovian conditioning, Obesity, Psychology, Reactivity (psychology), 030217 neurology & neurosurgery, Cognitive psychology

Abstract

Purpose of Review: This review provides an overview of recent findings relating to the role of Pavlovian conditioning in food cue reactivity, including its application to overeating and weight loss interventions.Recent Findings: Both in the laboratory and in real life, cue-elicited appetitive reactivity (e.g., eating desires) can be easily learned, but (long-term) extinction is more difficult. New findings suggest impaired appetitive learning in obesity, which might be causally related to overeating. The clinical analogue of extinction-cue exposure therapy-effectively reduces cue-elicited cravings and overeating. While its working mechanisms are still unclear, some studies suggest that reducing overeating expectancies is important.Summary: Pavlovian learning theory provides a still undervalued theoretical framework of how cravings and overeating can be learned and how they might be effectively tackled. Future studies should aim to elucidate inter-individual differences in Pavlovian conditioning, study ways to strengthen (long-term) extinction, and investigate the working mechanisms of cue exposure therapy.

Published

2018

36. Sadness-associated eating styles and visual food cue reactivity: An eye-tracking investigation.

Author

Potthoff, Jonas and Schienle, Anne

Subjects

*FOOD habits, *SADNESS, *MEMORY bias, *EYE tracking, *FOOD recall, *ATTENTIONAL bias

Abstract

Background: Emotional eating has been associated with biases of attention and memory for visual food cues. This eye-tracking study investigated whether the tendency to overeat in response to sadness is associated with the inspection and recall of visual food cues.Method: Participants (n = 115, mean age = 26 years, 70 females, 45 males) viewed images depicting food and non-food. We compared gaze duration, 'hyperscanning' parameters (fixation duration, saccadic angle, scan path length), and recall performance between different image categories (high-calorie, low-calorie food, non-food) and groups with different sadness-associated eating styles (increased, decreased, unchanged food consumption during states of sadness).Results: The group with sadness-related overeating reported a higher body mass index than the other groups, but neither displayed a visual attention bias nor memory bias for food cues. We observed a prolonged gaze duration for low-calorie food cues, which were rated as more appetizing than high-calorie cues. All participants recalled more food cues (low- and high-calorie) than non-food cues independent of gaze duration.Conclusion: This study expanded previous research designs by groups that decrease vs. increase the amount eaten when feeling sad, and food/non-food images that were carefully matched for visual properties. Based on this approach, we were not able to show that self-disclosed sadness eating is associated with visual/memory biases for food images. [ABSTRACT FROM AUTHOR]

Published

2022

37. Individual differences in extinction learning predict weight loss after treatment: A pilot study

Author

Ghislaine Schyns, Karolien van den Akker, Anita Jansen, Section Eating Disorders and Obesity, and RS: FPN CPS II

Subjects

Adult, Male, 050103 clinical psychology, Adolescent, Psychological intervention, Individuality, Implosive Therapy, FOOD CUE REACTIVITY, Pilot Projects, Overweight, 03 medical and health sciences, OVERWEIGHT CHILDREN, Young Adult, 0302 clinical medicine, Weight loss, Weight Loss, medicine, Humans, Learning, 0501 psychology and cognitive sciences, EXPOSURE, Obesity, Overeating, cue exposure, appetitive conditioning, Mechanism (biology), extinction, Brief Report, 05 social sciences, Extinction (psychology), social sciences, Middle Aged, medicine.disease, humanities, 030227 psychiatry, PREVALENCE, MODEL, Psychiatry and Mental health, Clinical Psychology, Eating disorders, Brief Reports, Female, medicine.symptom, Cues, Psychology, FEAR EXTINCTION, Clinical psychology

Abstract

Learning theorists suggest extinction learning to be a central mechanism in weight loss success; however, empirical studies are scarce. In this pilot study, it was examined whether individual differences in extinction learning predict outcome after weight loss treatment. Overweight and obese individuals first completed a laboratory conditioning task in which individual differences in extinction learning were assessed. Next, they were randomised to one of two weight loss interventions: cue exposure therapy (CET), which is considered the clinical analogue of laboratory extinction, or a control lifestyle intervention. In line with expectations, better extinction learning in the laboratory task was associated with more weight loss at both post‐treatment (CET only) and follow‐up (both interventions) measurements. In contrast, two other indices of treatment success (reduction in overeating expectancies and ad libitum food intake during a laboratory taste test) showed no associations with pre‐treatment extinction learning. It is suggested that extinction learning may be a core mechanism underlying weight loss success, and hence, an important target for new obesity interventions.

Published

2020

38. Acquisition and generalization of appetitive responding in obese and healthy weight females

Author

Karolien van den Akker, Ghislaine Schyns, Sabrina Breuer, Anita Jansen, Myrr van den Broek, RS: FPN CPS II, and Section Eating Disorders and Obesity

Subjects

Adult, Adolescent, DISORDERS, Conditioning, Classical, Generalization, Experimental and Cognitive Psychology, FOOD CUE REACTIVITY, Overweight, Stimulus (physiology), Anxiety, INTERINDIVIDUAL DIFFERENCES, CONDITIONED FEAR, Generalization, Psychological, Developmental psychology, Eating, Young Adult, Appetitive conditioning, Reward, medicine, Humans, Learning, Healthy weight, Obesity, Overeating, STATE ANXIETY, OVERWEIGHT, Body Weight, digestive, oral, and skin physiology, PSYCHOPATHOLOGY, ASSOCIATION, Middle Aged, Anticipation, Psychological, medicine.disease, Psychiatry and Mental health, Clinical Psychology, Acquisition, EXTINCTION, Case-Control Studies, Female, Cues, medicine.symptom, Psychology, Photic Stimulation, Psychopathology, RESPONSES

Abstract

Findings of a few recent studies suggest that obesity is characterized by deficits in appetitive learning about food cues. This could point towards an increased tendency in obese individuals to overgeneralize appetitive responding to stimuli that resemble the conditioned food cue – possibly explaining frequent eating desires and overeating in obesity. The current study aimed to investigate whether obese individuals 1) indeed exhibit appetitive learning deficits and 2) show overgeneralization of conditioned appetitive responses. Obese and matched healthy-weight females (N = 85) completed a differential appetitive conditioning task using food as rewards. First, appetitive responding to a novel stimulus was learned (acquisition phase), after which stimuli with varying resemblance to the food-associated stimulus were presented (generalization phase). Cue-elicited eating expectancies, eating desires, stimulus evaluations, and actual food intake were examined. Results indicated successful acquisition of appetitive responding across all outcome measures. The acquired responses also generalized, indicating that generalization can function as an additional mechanism by which learned food cues can promote food consumption. The data further suggested that overweight and obesity are not characterized by appetitive learning deficits nor by overgeneralization, but that a subgroup of obese individuals (those high in trait anxiety) may be more prone to overgeneralization of appetitive responding.

Published

2019

39. Tackling sabotaging cognitive processes to reduce overeating; expectancy violation during food cue exposure

Author

Anita Jansen, Ghislaine Schyns, and Anne Roefs

Subjects

Psychological intervention, WEIGHT-LOSS, Experimental and Cognitive Psychology, FEAR, Hyperphagia, Expectancy violation, THERAPY, Developmental psychology, Exposure, 03 medical and health sciences, Behavioral Neuroscience, OVERWEIGHT CHILDREN, 0302 clinical medicine, Food cue reactivity, Cognition, PROGRAMS, Weight loss, Generalization (learning), medicine, Humans, 0501 psychology and cognitive sciences, 050102 behavioral science & comparative psychology, Obesity, Overeating, Expectancy theory, 05 social sciences, Behavior change, Extinction, Feeding Behavior, medicine.disease, REACTIVITY, Food, Habituation, medicine.symptom, IMPULSIVITY, Cues, Psychology, 030217 neurology & neurosurgery

Abstract

Calorie-reduced diets to combat obesity do work, but they only work when one sticks to the diet and the - relatively small - weight loss usually is short-lived. It is argued that calorie-reduced diets should converge with enduring lifestyle changes: the diet is just the start of a lifelong new eating pattern. Getting people to change their lifestyles forever could increase the amount of lost weight and prevent relapse. However, a real behavior change is difficult, especially when longstanding habits are involved and the change is intended for the rest of life. It is argued here that adherence to a new lifestyle is much easier if sabotaging cognitive processes are tackled. An overview is given of four studies into the effects of exposure to reduce appetitive responding to tempting food cues. A robust effect of exposure on the ad lib intake of exposed foods was found in all studies: participants ate significantly less of exposed foods after exposure compared to control interventions but no generalization to non-exposed foods was found. The reduced food intake after exposure was associated with a violation of overeating expectancies. It is discussed that lifestyle interventions might benefit from techniques that are really able to change longstanding habits. Specifically, the violation of overeating expectancies during exposure seems to be critical for controlled eating and should therefore be part of lifestyle interventions for obesity.

Published

2019

40. Acute vagus nerve stimulation does not affect liking or wanting ratings of food in healthy participants.

Author

Müller, Franziska K., Teckentrup, Vanessa, Kühnel, Anne, Ferstl, Magdalena, and Kroemer, Nils B.

Subjects

*VAGUS nerve stimulation, *FLAVOR, *VAGUS nerve, *FOOD consumption, *NUTRITIONAL requirements, *MENTAL depression, *VAGUS nerve physiology, *RESEARCH, *HUMAN research subjects, *EVALUATION research, *COMPARATIVE studies, *EMOTIONS, *NEURAL stimulation, *TRANSCUTANEOUS electrical nerve stimulation

Abstract

The vagus nerve plays a vital role in the regulation of food intake and vagal afferent signals may help regulate food cue reactivity by providing negative homeostatic feedback. Despite strong evidence from preclinical studies on vagal afferent "satiety" signals in guiding food intake, evidence from human studies is largely inconclusive to date. Here, we investigated the acute effects of left or right transcutaneous auricular vagus nerve stimulation (taVNS) on subjective ratings of wanting and liking of various food and non-food items in 82 healthy participants (46 women, MBMI = 23.1 kg/m2). In contrast to previous reports in patients with depression, we found moderate to anecdotal evidence supporting the absence of taVNS-induced changes in food ratings. To test whether the absence of taVNS effects on food ratings is due to heterogeneity in the sample, we conducted post hoc subgroup analyses by splitting the data according to stimulation side and sex (between-subject factors) as well as caloric density, perceived healthiness, and flavor (sweet vs. savory) of the food (within-subject factors). This multiverse analysis largely supported the absence of taVNS-induced changes since the strongest subgroup effects provided only anecdotal evidence in favor of taVNS-induced changes. We conclude that acute taVNS only has a marginal effect on subjective ratings of food, suggesting that it is an unlikely mechanism for the reported long-term effects of VNS on body weight. In light of an absence of acute taVNS effects on conscious food liking and wanting, our results call for future research on the correspondence between acute and chronic effects of vagal afferent stimulation. [ABSTRACT FROM AUTHOR]

Published

2022

41. Uncontrolled eating in healthy women has limited influence on food cue reactivity and food-related inhibitory control.

Author

Grol, Maud, Cásedas, Luis, Oomen, Danna, Spronk, Desiree B., and Fox, Elaine

Subjects

*FOOD habits, *RESPONSE inhibition, *REWARD (Psychology), *FOOD consumption, *VISUAL cortex, *FOOD intolerance, *INDIVIDUAL differences, *SNACK foods, *RESEARCH, *HYPERPHAGIA, *RESEARCH methodology, *HUNGER, *EVALUATION research, *FOOD preferences, *COMPARATIVE studies, *FOOD, *PROMPTS (Psychology)

Abstract

Uncontrolled eating-in the general population-is characterized by overeating, hedonic hunger and being drawn towards palatable foods. Theoretically, it is the result of a strong food reward signal in relation to a poor ability to exert inhibitory control. How food consumption influences inhibitory control and food cue sensitivity, and how this relates to the continued urge to eat, remains unclear. We used fMRI in order to investigate the neural mechanism underlying food cue reactivity and food-specific response inhibition (go-nogo task), by comparing women reporting high (n = 21) versus low/average (n = 19) uncontrolled eating across two sessions: during an inter-meal state and after consumption of a high-caloric snack. We found no effects of individual differences in uncontrolled eating, food consumption, nor their interaction on food cue reactivity. Differences in uncontrolled eating and food consumption did interact in modulating activity in an occipital-parietal network, extending from left lateral superior occipital cortex to visual cortex, cuneal cortex, and precuneus during response inhibition of non-food stimuli, areas previously associated with successful nogo-vs. go-trials. Yet, behavioural performance on the go-nogo task was not modulated by uncontrolled eating nor food consumption. Women with a low/average tendency for uncontrolled eating may need more cognitive resources to support successful response inhibition of non-food stimuli during food 'go' blocks in an inter-meal state, whereas women with a high tendency for uncontrolled eating showed this after food consumption. However, considering current and previous findings, it seems that individual differences in uncontrolled eating in healthy women have only limited influence on food cue reactivity and food-related inhibitory control. [ABSTRACT FROM AUTHOR]

Published

2022

42. Food-cue reactivity in individuals with obesity: Behavioral appeal, reaction times, and neurobiological specificity toward food-cues

Author

Quarles, William and Quarles, William

Abstract

Pervasive cues for highly appealing foods are a likely salient contributor towards obesity in an ‘obesogenic’ environment. One way to measure an individual’s response towards these food cues is food-cue reactivity (FCR). An FCR paradigm measures an individual’s reactivity to food cues contrasted against a control (i.e. non-food cues). Behavioral FCR (B-FCR) studies have elucidated some of the relationships between the subjective appeal of a food and ingestive behavior. Most studies have found a positive correlation between subjective palatability of food and food intake1. One limitation in understanding FCR is the degree of which subjective appeal of a cue affects an individual’s measured FCR. One interesting B-FCR outcome is reaction times to food-cues: reaction times are relevant to obesity due to an inverse relationship between reaction times and BMI2. The relationship between the appeal of food-cues and B-FCR reaction time warrants study as it has been proposed as a way to differentiate ‘liking’ and ‘wanting’3. Specifically, reaction time in a forced choice task has been suggested as a quantifiable way to measure ‘wanting’3. Additionally, the concepts are extensively used in trying to understand the brain regions involved in FCR4. Functional magnetic resonance imaging food-cue reactivity (fMRI-FCR) uses functional magnetic resonance imaging (fMRI) to study the brain’s neurophysiological response to food as compared to non-food. Specifically, visual food cues are commonly used because they produce a more robust response than gustatory or olfactory cues5. There is evidence suggesting that individuals with obesity have increased fMRI-FCR in both ‘liking’- and ‘wanting’-related ROIs6. However, it is unclear how the subjective appeal of a cue affects fMRI-FCR. While the fMRI-FCR studies comparing food to non-foods have demonstrated heightened response to food vs. non-foods; most studies have compared somewhat neutral non-food stimuli to highly palatable foods, and it

Published

2019

43. Acquisition and generalization of appetitive responding in obese and healthy weight females

Author

van den Akker, Karolien, van den Akker, Karolien, Schyns, Ghislaine, Breuer, Sabrina, van den Broek, Myrr, Jansen, Anita, van den Akker, Karolien, van den Akker, Karolien, Schyns, Ghislaine, Breuer, Sabrina, van den Broek, Myrr, and Jansen, Anita

Abstract

Findings of a few recent studies suggest that obesity is characterized by deficits in appetitive learning about food cues. This could point towards an increased tendency in obese individuals to overgeneralize appetitive responding to stimuli that resemble the conditioned food cue – possibly explaining frequent eating desires and overeating in obesity. The current study aimed to investigate whether obese individuals 1) indeed exhibit appetitive learning deficits and 2) show overgeneralization of conditioned appetitive responses. Obese and matched healthy-weight females (N = 85) completed a differential appetitive conditioning task using food as rewards. First, appetitive responding to a novel stimulus was learned (acquisition phase), after which stimuli with varying resemblance to the food-associated stimulus were presented (generalization phase). Cue-elicited eating expectancies, eating desires, stimulus evaluations, and actual food intake were examined. Results indicated successful acquisition of appetitive responding across all outcome measures. The acquired responses also generalized, indicating that generalization can function as an additional mechanism by which learned food cues can promote food consumption. The data further suggested that overweight and obesity are not characterized by appetitive learning deficits nor by overgeneralization, but that a subgroup of obese individuals (those high in trait anxiety) may be more prone to overgeneralization of appetitive responding.

Published

2019

44. Altered appetitive conditioning in overweight and obese women

Author

Ghislaine Schyns, Karolien van den Akker, Anita Jansen, Section Eating Disorders and Obesity, and RS: FPN CPS II

Subjects

Adult, Adolescent, Conditioning, Classical, Experimental and Cognitive Psychology, Context (language use), Overweight, 050105 experimental psychology, Extinction, Psychological, Developmental psychology, Young Adult, 03 medical and health sciences, Appetitive conditioning, 0302 clinical medicine, Food cue reactivity, Weight loss, medicine, Humans, 0501 psychology and cognitive sciences, Obesity, Overeating, 05 social sciences, Classical conditioning, Galvanic Skin Response, Extinction (psychology), Middle Aged, medicine.disease, Overgeneralization, Psychiatry and Mental health, Clinical Psychology, Acquisition, Conditioning, Female, medicine.symptom, Salivation, Psychology, 030217 neurology & neurosurgery

Abstract

Overweight and obese individuals show increased psychological and physiological reactivity to food cues and many of them have difficulties in achieving long-term weight loss. The current study tests whether abnormalities in the learning and extinction of appetitive responses to food cues might be responsible for this. Overweight/obese and healthy weight women completed a differential appetitive conditioning task using food as rewards, while eating expectancies, eating desires, conditioned stimulus evaluations, salivation, and electrodermal responses were assessed during an acquisition and extinction phase. Results suggested reduced discriminative conditioning in the overweight/obese group, as reflected by a worse acquisition of differential eating desires and no successful acquisition of differential evaluative responses. Some evidence was also found for impaired contingency learning in overweight and obese individuals. No group differences in conditioned salivation and skin conductance responses were found and no compelling evidence for differences in extinction was found as well. In sum, the current findings indicate that overweight and obesity may be characterized by reduced appetitive conditioning. It is suggested that this could be causally related to overeating via stronger context conditioning or a tendency towards overgeneralization in overweight and obese individuals.

Published

2017

45. Academic stress and personality interact to increase the neural response to high-calorie food cues

Author

Errol B. Marliss, Beth M. Tannenbaum, Maria Zacchia, Kevin Larcher, Selin Neseliler, Marie Lamarche, Alain Dagher, Kirsty Coulter, and Jens C. Pruessner

Subjects

Male, Adolescent, Hydrocortisone, Brain activity and meditation, media_common.quotation_subject, Ventromedial prefrontal cortex, Prefrontal Cortex, 030209 endocrinology & metabolism, Amygdala, Body Mass Index, Self-Control, Developmental psychology, Young Adult, 03 medical and health sciences, 0302 clinical medicine, ddc:150, Psychosocial stress, Food cue reactivity, Obesity, Neuroimaging, Personality, medicine, Humans, Overeating, Students, General Psychology, media_common, Neurons, Nutrition and Dietetics, medicine.diagnostic_test, Appetite, Magnetic Resonance Imaging, Ghrelin, Diet, Dorsolateral prefrontal cortex, Cross-Sectional Studies, medicine.anatomical_structure, Female, Cues, Psychology, Functional magnetic resonance imaging, Neuroscience, Stress, Psychological, 030217 neurology & neurosurgery

Abstract

Psychosocial stress is associated with an increased intake of palatable foods and weight gain in stress-reactive individuals. Personality traits have been shown to predict stress-reactivity. However, it is not known if personality traits influence brain activity in regions implicated in appetite control during psychosocial stress. The current study assessed whether Gray's Behavioural Inhibition System (BIS) scale, a measure of stress-reactivity, was related to the activity of brain regions implicated in appetite control during a stressful period. Twenty-two undergraduate students participated in a functional magnetic resonance imaging (fMRI) experiment once during a non-exam period and once during final exams in a counter-balanced order. In the scanner, they viewed food and scenery pictures. In the exam compared with the non-exam condition, BIS scores related to increased perceived stress and correlated with increased blood-oxygen-level dependent (BOLD) response to high-calorie food images in regions implicated in food reward and subjective value, such as the ventromedial prefrontal cortex, (vmPFC) and the amygdala. BIS scores negatively related to the functional connectivity between the vmPFC and the dorsolateral prefrontal cortex. The results demonstrate that the BIS trait influences stress reactivity. This is observed both as an increased activity in brain regions implicated in computing the value of food cues and decreased connectivity of these regions to prefrontal regions implicated in self-control. This suggests that the effects of real life stress on appetitive brain function and self-control is modulated by a personality trait. This may help to explain why stressful periods can lead to overeating in vulnerable individuals. published

Published

2017

46. The effects of imaginary eating on visual food cue reactivity: An event-related potential study.

Author

Zorjan, Saša, Schwab, Daniela, and Schienle, Anne

Subjects

*APPETITE, *FOOD habits, *FOOD portions, *FOOD handling, *FOOD, *IMAGINATION, *EVOKED potentials (Electrophysiology), *RESEARCH, *RESEARCH methodology, *DESIRE, *MEDICAL cooperation, *EVALUATION research, *COMPARATIVE studies, *RANDOMIZED controlled trials, *PROMPTS (Psychology)

Abstract

Previous research has demonstrated that imagining consumption of a specific type of food helps individuals to consume less of that food. The present event-related potential study aimed at investigating the underlying neural correlates of this appetite-reducing strategy. A total of 86 women (mean age = 23.65 years) were randomly assigned to one of three imagination conditions. In each condition, they listened to a guided imagery script that either described the eating of 30 colorful button-shaped chocolates (M&Ms), the sorting of 30 M&Ms by color, or the sorting of 30 marbles by color. Subsequently to the imagery task, the participants were presented with images of M&Ms and marbles while their electroencephalogram and craving ratings were recorded. The results showed that imaginary eating did not reduce the appetitive value of M&M pictures. The M&M sorting group reported enhanced craving and showed increased late positivity toward M&M pictures (300-600 ms after picture onset) compared to the two other groups. The present findings indicate that the imagined handling of food increases food cue reactivity and that imaginary eating is not a reliable method to reduce appetite. [ABSTRACT FROM AUTHOR]

Published

2020

47. Time-course analysis of food cue processing: An eye-tracking investigation on context effects.

Author

Potthoff, Jonas and Schienle, Anne

Subjects

*EYE tracking, *FOOD chemistry, *FOOD habits, *FOOD industry, *LOW calorie foods, *ATTENTIONAL bias

Abstract

• Time-course analysis of food cue processing via eye-tracking. • High-calorie food captured more early visual attention than low-calorie food cues. • Visual attention shifted to low-calorie food cues during a later processing stage. • Findings point to the interaction of visual context and timing for food cue processing. Previous eye-tracking research has demonstrated that high-calorie food cues capture visual attention, particularly in individuals with overweight and weight concerns. The present experiment investigated whether this attentional bias can be influenced by context variables (i.e., the presence of pleasant low-calorie cues), and changes over time. This was studied via time-course analysis. Ninety women (mean age = 25 years) were presented with 60 picture pairs (à 6 s) that either showed a combination of high-calorie food + low-calorie food, high-calorie food + non-food, or low-calorie food + non-food. The women were assigned to one of three groups (n = 30): overweight with weight concerns (OW+), normal-weight with weight concerns (NW+), normal weight without weight concerns (NW-). The relative number of fixations on (high-calorie) food cues was examined across the course of the picture pair presentations for one-second intervals. High-calorie food was fixated more often than low-calorie food and non-food only during the first second of the picture pair presentation. Subsequently, all participants (independent of the group assignment) showed the tendency to gaze on low-calorie cues when these cues were combined with high-calorie cues. This study revealed timing-related context effects on visual food cue reactivity. While the early attentional bias to high-calorie cues could not be changed by context, this was possible during the later processing stage. Future studies need to examine whether the observed context effect can influence food choices and eating behavior. [ABSTRACT FROM AUTHOR]

Published

2020

48. Food cue-elicited brain potentials change throughout menstrual cycle: Modulation by eating styles, negative affect, and premenstrual complaints.

Author

Strahler, J., Hermann, A., Schmidt, N.M., Stark, R., Hennig, J., and Munk, A.J.

Subjects

*MENSTRUAL cycle, *FOOD habits, *LUTEAL phase, *INGESTION, *PROGESTERONE, *SECRETION, *SYMPTOMS

Abstract

While there is evidence for increased food intake and craving during the luteal phase, underlying mechanisms are incompletely understood. The present study investigated electrophysiological responses to food pictures as a function of menstrual cycle phase. In addition, the moderating effects of progesterone, eating behaviors (restraint, emotional, orthorexic), negative affect, and premenstrual complaints were explored. Using a within-subject design, 35 free-cycling women watched and rated pictures of food (high and low caloric) and control items during the follicular, the ovulatory, and the luteal phase (counterbalanced), while EEG was recorded to examine the late positive potentials (LPP). Salivary gonadal hormones and affect were examined at each occasion. Eating behaviors and premenstrual complaints were assessed once. For parietal regions, average LPPs were comparable between cycle phases but slightly larger LPP amplitudes were elicited by high caloric food pictures as compared to the neutral category. Descriptively, both food categories elicited larger parietal LPPs than neutral pictures during the luteal phase. Analyses of LPPs for central-parietal regions showed no effect of picture category or cycle phase, except higher amplitudes in the right area during the luteal phase. During the luteal phase, progesterone and functional interference from premenstrual symptoms (but not age, BMI, picture ratings, affect, estradiol, or eating behaviors) significantly predicted larger parietal LPPs towards high caloric (but not low caloric) pictures. Our findings suggest a heightened food cue reactivity during the luteal phase, which may relate to higher ovarian hormone secretion and more functional impact of premenstrual symptoms. This research contributes to a better understanding of menstrual health and the identification of preventive strategies for premenopausal women. • We compared food cue reactivity across the menstrual cycle in healthy women. • Amplitudes of the late positive potential toward food pictures appeared higher during the luteal phase. • Progesterone and premenstrual complaints correlated with responses towards high caloric images in the luteal phase. [ABSTRACT FROM AUTHOR]

Published

2020

49. The Color Nutrition Information Paradox: Effects of Suggested Sugar Content on Food Cue Reactivity in Healthy Young Women.

Author

Potthoff, Jonas, La Face, Annalisa, and Schienle, Anne

Abstract

Color nutrition information (CNI) based on a traffic light system conveys information about food quality with a glance. The color red typically indicates detrimental food characteristics (e.g., very high sugar content) and aims at inhibiting food shopping and consumption. Red may, however, also elicit cross-modal associations with sweet taste, which is a preferable food characteristic. We conducted two experiments. An eye-tracking study investigated whether CNI has an effect on cue reactivity (dwell time, saccadic latency, wanting/liking) for sweet foods. The participants were presented with images depicting sweets (e.g., cake). Each image was preceded by a colored circle that informed about the sugar content of the food (red = high, green = low, gray = unknown). It was tested whether the red circle would help the participants to direct their gaze away from the 'high sugar' item. A second experiment investigated whether colored prime circles (red, green, gray) without nutrition information would influence the assumed sweetness of a food. In Experiment 1, CNI had the opposite of the intended effect. Dwell time and saccadic latency were higher for food items preceded by a red compared to a green circle. This unintended response was positively associated with participants' liking of sweet foods. CNI did not change the wanting/liking of the displayed foods. In Experiment 2, we found no evidence for color priming on the assumed sweetness of food. Our results question whether CNI is helpful to influence initial cue reactivity toward sweet foods. [ABSTRACT FROM AUTHOR]

Published

2020

50. Concordance among eating behaviors defined by the three factor eating questionnaire and brain regions of interest as measured by FMRI

Author

Boyd, Lori Ann and Boyd, Lori Ann

Abstract

Obesity affects over 35% of US adults, and its contributors are multifactorial and complex. Neuroimaging is becoming a valuable tool in the study of obesity. The brain regulates appetite, energy homeostasis, and is involved in the processing of information that influences food-related decision-making based on sensory, emotional and neurohormonal input related to energy status. As a result of this complex neuroendocrine system, ingestive behaviors may be explained, at least in part, by the unique pattern of neural activation to food stimuli in specific brain regions of interest (ROIs). Reactions to food-related stimuli vary across individuals and impact food choice, timing of intake, and overall motivation to eat beyond physiological needs. Eating behaviors and associated psychological motivations related to food intake have previously been assessed by several self-report inventories. Among these, the Three Factor Eating Questionnaire (TFEQ) is widely used to assess three distinct and important components of ingestive behavior (disinhibition, cognitive restraint of eating, and susceptibility to hunger). If we are to understand the value of these measures in informing clinical intervention, understanding their associations with underlying neurophysiological processes is prudent. Thus, our aim is to better understand the intersection of psychological and neurophysiological influences on ingestive behavior (as measured by the TFEQ and fMRI respectively). This study represents a cross-sectional pilot analysis of baseline data obtained from the first 9 participants in a larger intervention study conducted at the Behavioral Medicine and Translational Research Lab and Texas Tech Neuroimaging Institute. Nine subjects (1 male; 8 female) with obesity (mean BMI 35.9 + 2.62, age 36.8 + 14.9, body fat % 47.3 + 4.38) were studied. Subjects were assessed using the TFEQ on all three subscales of cognitive restraint of eating, disinhibition and susceptibility to hunger in an fMRI stu

Published

2016