Separable substrates for anticipatory and consummatory food chemosensation
about
Dissecting components of reward: 'liking', 'wanting', and learning.Evidence for an integrated oral sensory module in the human anterior ventral insulaFood-induced brain responses and eating behaviourReading salt activates gustatory brain regions: fMRI evidence for semantic grounding in a novel sensory modalityPhysiological mechanisms by which non-nutritive sweeteners may impact body weight and metabolismPoor ability to resist tempting calorie rich food is linked to altered balance between neural systems involved in urge and self-controlChemoreception scientists gather under the Florida sun: The 31st Annual Association for Chemoreception Sciences meeting.Effects of cue-triggered expectation on cortical processing of taste.The insular taste cortex contributes to odor quality codingDisentangling pleasure from incentive salience and learning signals in brain reward circuitry.Acute stress potentiates brain response to milkshake as a function of body weight and chronic stressCentral nervous system regulation of eating: Insights from human brain imagingHumans and mice express similar olfactory preferencesReward circuitry responsivity to food predicts future increases in body mass: moderating effects of DRD2 and DRD4Genetically determined differences in brain response to a primary food reward.Improvement of aroma in transgenic potato as a consequence of impairing tuber browning.Body mass correlates inversely with inhibitory control in response to food among adolescent girls: an fMRI study.Decreased dopamine type 2 receptor availability after bariatric surgery: preliminary findings.Encoding and tracking of outcome-specific expectancy in the gustatory cortex of alert ratsNeural correlates to food-related behavior in normal-weight and overweight/obese participants.Relation of dietary restraint scores to activation of reward-related brain regions in response to food intake, anticipated intake, and food pictures.Configural and elemental coding of natural odor mixture components in the human brainRelation between obesity and blunted striatal response to food is moderated by TaqIA A1 allele.Reduced nucleus accumbens and caudate nucleus activation to a pleasant taste is associated with obesity in older adults.Reward abnormalities among women with full and subthreshold bulimia nervosa: a functional magnetic resonance imaging study.An fMRI study of obesity, food reward, and perceived caloric density. Does a low-fat label make food less appealing?What can the brain teach us about winemaking? An fMRI study of alcohol level preferences.Modality-specific neural effects of selective attention to taste and odorIdentity-specific coding of future rewards in the human orbitofrontal cortex.The anterior insular cortex represents breaches of taste identity expectation.Basolateral amygdala response to food cues in the absence of hunger is associated with weight gain susceptibilityDopamine and food addiction: lexicon badly needed.Amygdala response to sucrose consumption is inversely related to artificial sweetener use.Relationship of dopamine type 2 receptor binding potential with fasting neuroendocrine hormones and insulin sensitivity in human obesityTemporal integration of olfactory perceptual evidence in human orbitofrontal cortex.What and when to "want"? Amygdala-based focusing of incentive salience upon sugar and sexAltered hypothalamic response to food in smokers.The drive to eat: comparisons and distinctions between mechanisms of food reward and drug addictionNeural vulnerability factors that increase risk for future weight gain.Perceptual and Brain Response to Odors Is Associated with Body Mass Index and Postprandial Total Ghrelin Reactivity to a Meal.
P2860
Q22252280-31EB7B8E-C151-4235-846B-CA3029B28E9DQ24603840-EA6754F0-7FF6-48E5-B8E2-42156B24DD20Q27010333-84C76814-6A3C-47C6-A7E7-DF5B4EC9202BQ27303374-A7E28743-93F5-462A-A1FE-FFB5F90F5ABCQ28081568-8BCF3B48-196A-4FBE-BC61-95BA569E2214Q28655546-0381FCA9-88A0-4FBF-86F6-E6F29766B691Q30436116-49B22FA5-03B0-4D2C-A069-EE831E7931E6Q30455223-88C96BA5-5D74-407D-A99C-88359B56F9ABQ30495899-9120B0CE-B399-4E01-A899-630D61923208Q30502236-3C5AAA1D-8346-486D-BE8C-69CB202A2D22Q30517904-B36823F7-A246-4429-9BEA-693FFE1063AFQ31079099-E520E95F-3225-4F00-9051-92E8A95B47F1Q33400347-7321FC19-40D5-4FC5-9906-9DB279380C36Q33527660-9FA266DC-2975-4D94-962A-E707C5C52678Q33698903-4B0028AC-843C-4B23-B2B5-3CE945CE80A6Q33754527-C2067CDC-FB14-4A7C-9134-3CCC79D28B6FQ34020861-01F03F0B-D873-4CF9-936C-2CE62CD7DAECQ34079702-35CBE2A0-8D9B-4D12-9D1B-E02EC87F073AQ34233399-AD7C3ED2-E352-4405-B083-2C2BB3B2F777Q34428969-360B9F3D-D0AB-4F1B-92CF-CD00EDF02680Q34546408-AAD5BDDE-A6E9-489C-AEBC-2484010061A1Q34625846-B9CE7FCD-E850-407F-BBB4-E53D288DA1B6Q34858671-6968EE98-B2B7-45F2-8BDB-CA7A412DC63FQ34905903-EA0B389B-C388-4358-86C3-9FD42B18024BQ35036950-34FD6EBD-45E3-4628-B402-A9F66FB62BB8Q35072215-F2CD6E21-BE1B-46D7-BCD6-50ED84451F48Q35191761-038374AF-67EE-4AD7-A9E9-B4B133328F0CQ35218399-07824FCB-B075-4A0D-ADB4-EA418BC7B030Q35549066-6E68D192-5AEF-48E7-9322-3B0B05AC82EAQ35566236-6BC722C3-F838-4900-B3D7-1EA1688E516EQ35625771-101020AF-AA73-4EAC-879D-26D1432BEEBBQ35668422-6E1413B3-9204-4B94-9008-21CEC1323852Q35786109-D0F0988C-973B-4649-9DAA-EEEE55A398DBQ35898332-F83B53B1-1554-43CF-905C-3B5F3F7F36F7Q36231522-16B3E79E-F943-4EA8-A331-1E81E397C7B8Q36239689-92DA8512-E16B-4FA8-A2BD-4BDF2FE1E556Q36466227-CEF8A55B-754C-49E3-AADC-BE278EF72DC3Q36604054-8CC7C9D4-B039-4C92-ABDF-B30E1A0A7B83Q36777473-44492323-E54C-4CAF-BD81-4392A386B47EQ36851563-E7A831E2-10B9-48CA-9EF7-805D5F1AF7DF
P2860
Separable substrates for anticipatory and consummatory food chemosensation
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on March 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Separable substrates for anticipatory and consummatory food chemosensation
@en
Separable substrates for anticipatory and consummatory food chemosensation.
@nl
type
label
Separable substrates for anticipatory and consummatory food chemosensation
@en
Separable substrates for anticipatory and consummatory food chemosensation.
@nl
prefLabel
Separable substrates for anticipatory and consummatory food chemosensation
@en
Separable substrates for anticipatory and consummatory food chemosensation.
@nl
P2093
P2860
P1433
P1476
Separable substrates for anticipatory and consummatory food chemosensation
@en
P2093
Dana M Small
Francis McGlone
Jennifer Felsted
Maria G Veldhuizen
Y Erica Mak
P2860
P304
P356
10.1016/J.NEURON.2008.01.021
P407
P577
2008-03-01T00:00:00Z