Cues to overeat: psychological factors influencing overconsumption

Hetherington, Marion M.

doi:10.1017/s0029665107005344

Cited by 88 publications

(49 citation statements)

References 91 publications

(142 reference statements)

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“…Following Edmund Rolls' discovery of sensory-specific satiety revealed by the selective reduction in the responses of lateral hypothalamic neurons to a food eaten to satiety (3,5) , it has been shown that this is implemented in a region that projects to the hypothalamus, the orbitofrontal (secondary taste) cortex, for the taste, odour and sight of food (4,34) . This evidence shows that the reduced acceptance of food that occurs when food is eaten to satiety, the reduction in the pleasantness of its taste and flavour, and the effects of variety to increase food intake (6)(7)(8)(35)(36)(37)(38)(39)(40)(41)(42)(43) are produced in the OFC, but not at earlier stages of processing where the responses reflect factors such as the intensity of the taste, which is little affected by satiety (32,44) . In addition to providing an implementation of sensory-specific satiety (probably by habituation of the synaptic afferents to orbitofrontal neurons with a time course of the order of the length of a course of a meal), it is likely that visceral and other satiety-related signals reach the OFC (as indicated in Fig.…”

Section: The Secondary Taste Cortexmentioning

confidence: 97%

Taste, olfactory and food texture reward processing in the brain and the control of appetite

Rolls

2012

Proc. Nutr. Soc.

106

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Complementary neuronal recordings and functional neuroimaging in human subjects show that the primary taste cortex in the anterior insula provides separate and combined representations of the taste, temperature and texture (including fat texture) of food in the mouth independently of hunger and thus of reward value and pleasantness. One synapse on, in the orbitofrontal cortex (OFC), these sensory inputs are for some neurons combined by learning with olfactory and visual inputs, and these neurons encode food reward in that they only respond to food when hungry, and in that activations correlate with subjective pleasantness. Cognitive factors, including word-level descriptions, and attention modulate the representation of the reward value of food in the OFC and a region to which it projects, the anterior cingulate cortex. Further, there are individual differences in the representation of the reward value of food in the OFC. It is argued that over-eating and obesity are related in many cases to an increased reward value of the sensory inputs produced by foods, and their modulation by cognition and attention that over-ride existing satiety signals. It is proposed that control of all rather than one or several of these factors that influence food reward and eating may be important in the prevention and treatment of overeating and obesity.

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Section: The Secondary Taste Cortexmentioning

confidence: 97%

Taste, olfactory and food texture reward processing in the brain and the control of appetite

Rolls

2012

Proc. Nutr. Soc.

106

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“…9,10 Eating behavior in humans is an extremely complex process modulated by internal homeostatic processes [11][12][13] and environmental and social influences. 14,15 As such, energy homeostasis aims to match energy intake with overall energy needs; however, total food intake is also influenced by external factors, such as food availability and palatability, which might lead to excess energy intake during any given meal. 16 This tendency to eat beyond immediate homeostatic needs has presumably evolved because the motivation to seek and consume calories contributed to survival when food sources were scarce and unpredictable.…”

Section: Introductionmentioning

confidence: 99%

Evaluating the Power of Food Scale in obese subjects and a general sample of individuals: development and measurement properties

et al. 2009

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Background: The Power of Food Scale (PFS) was developed to assess the psychological impact of today's food-abundant environments. Objective: To evaluate the structure of the PFS in diverse populations of obese and nonobese individuals. Design: Data were obtained from obese adults in a clinical trial for a weight management drug (n ¼ 1741), and overweight, obese and normal weight adults in a Web-based survey (n ¼ 1275). Exploratory and confirmatory factor analyses were used to investigate the PFS structure using the clinical data. The model developed was then tested using the Web-based data. Relationships between PFS domains and body mass index (BMI) were examined. Logistic regression was used in the Web-based survey to evaluate the association between obesity status and PFS scores. Results: Clinical data indicated that the scale was best represented by a 15-item version with three subscale domains and an aggregate domain (average of three domains); this was confirmed with data from the Web-based survey (Comparative Fit Index: 0.95 and 0.94 for the clinical and Web-based studies, respectively). Cronbach's a for both data sets was high, ranging from 0.81 to 0.91. The relationships between BMI and each domain were weak (and approximately linear). A full category increase in PFS domain score (range 1-5) increased the odds of being obese 1.6-2.3 times. Conclusions: The 15-item PFS is best represented by three domains and an aggregate domain. The PFS may provide a useful tool to evaluate the effects of obesity treatments on feelings of being controlled by food in an obesogenic food environment.

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“…Following Edmund Rolls' discovery of sensory-specific satiety revealed by the selective reduction in the responses of lateral hypothalamic neurons to a food eaten to satiety, 24,25 it has been shown that this is implemented in a region that projects to the hypothalamus, the orbitofrontal (secondary taste) cortex, for the taste, odour and sight of food. 26,27 This evidence shows that the reduced acceptance of food that occurs when food is eaten to satiety, the reduction in the pleasantness of its taste and flavour, and the effects of variety to increase food intake, [28][29][30][31][32][33][34][35][36][37][38][39] are produced in the OFC, but not at earlier stages of processing in which the responses reflect factors such as the intensity of the taste, which is little affected by satiety. 22,40 In addition to providing an implementation of sensory-specific satiety (probably by habituation of the synaptic afferents to orbitofrontal neurons with a time course of the order of the length of a course of a meal), Figure 1 Schematic diagram showing some of the gustatory, olfactory, visual and somatosensory pathways to the OFC, and some of the outputs of the OFC, in primates.…”

Section: Introductionmentioning

confidence: 99%

Taste, olfactory and food texture reward processing in the brain and obesity

2010

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Complementary neuronal recordings and functional neuroimaging in humans, show that the primary taste cortex in the anterior insula provides separate and combined representations of the taste, temperature and texture (including fat texture) of food in the mouth independently of hunger and thus of reward value and pleasantness. One synapse on, in the orbitofrontal cortex (OFC), these sensory inputs are for some neurons combined by learning with olfactory and visual inputs, and these neurons encode food reward in that they only respond to food when hungry, and in that activations correlate with subjective pleasantness. Cognitive factors, including word-level descriptions, and attention, modulate the representation of the reward value of food in the OFC. Further, there are individual differences in the representation of the reward value of food in the OFC. It is argued that overeating and obesity are related in many cases to an increased reward value of the sensory inputs produced by foods, and their modulation by cognition and attention, which overrides existing satiety signals. It is proposed that control of all rather than one or several of these factors that influence food reward and eating may be important in the prevention and treatment of overeating and obesity.

show abstract

Cues to overeat: psychological factors influencing overconsumption

Cited by 88 publications

References 91 publications

Taste, olfactory and food texture reward processing in the brain and the control of appetite

Taste, olfactory and food texture reward processing in the brain and the control of appetite

Evaluating the Power of Food Scale in obese subjects and a general sample of individuals: development and measurement properties

Taste, olfactory and food texture reward processing in the brain and obesity

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