Functional MRI of human hypothalamic responses following glucose ingestion.
about
Brain Insulin Resistance at the Crossroads of Metabolic and Cognitive Disorders in HumansDifferential effect of glucose ingestion on the neural processing of food stimuli in lean and overweight adults.Imaging methodologies and applications for nutrition research: what can functional MRI offer?Neural responses to visual food cues according to weight status: a systematic review of functional magnetic resonance imaging studies.Metabolic imaging in obesity: underlying mechanisms and consequences in the whole body.Oral glucose intake inhibits hypothalamic neuronal activity more effectively than glucose infusion.Prior Consumption of a Fat Meal in Healthy Adults Modulates the Brain's Response to FatNeuroimaging, gut peptides and obesity: novel studies of the neurobiology of appetite.Mapping glucose-mediated gut-to-brain signalling pathways in humans.Effects of fructose vs glucose on regional cerebral blood flow in brain regions involved with appetite and reward pathways.Comparing apples and oranges: using reward-specific and reward-general subjective value representation in the brain.The use of functional MRI to study appetite control in the CNS.Dietary restraint violations influence reward responses in nucleus accumbens and amygdala.Insulin action in the human brain: evidence from neuroimaging studies.Regulation of energy balance and body weight by the brain: a distributed system prone to disruption.Hypothalamic BOLD response to glucose intake and hypothalamic volume are similar in anorexia nervosa and healthy control subjectsNeural correlates of taste and pleasantness evaluation in the metabolic syndromeResting state hypothalamic response to glucose predicts glucose-induced attenuation in the ventral striatal response to food cues.Initial experience with seven tesla magnetic resonance spectroscopy of hypothalamic GABA during hyperinsulinemic euglycemia and hypoglycemia in healthy humans.Small decrements in systemic glucose provoke increases in hypothalamic blood flow prior to the release of counterregulatory hormonesMetabolic regulation of brain response to food cues.Differential effects of hunger and satiety on insular cortex and hypothalamic functional connectivityEvidence for central regulation of glucose metabolism.Cancer anorexia: hypothalamic activity and its association with inflammation and appetite-regulating peptides in lung cancer.Peptide hormones regulating appetite--focus on neuroimaging studies in humans.Metabolic neuroimaging of the brain in diabetes mellitus and hypoglycaemia.Impaired insulin action in the human brain: causes and metabolic consequences.Carbohydrate Mouth Rinse Improves 1.5 h Run Performance: Is There A Dose-Effect?Short-term caloric restriction normalizes hypothalamic neuronal responsiveness to glucose ingestion in patients with type 2 diabetes.Effects of intranasal insulin application on the hypothalamic BOLD response to glucose ingestion.Comment on: Teeuwisse et al. Short-term caloric restriction normalizes hypothalamic neuronal responsiveness to glucose ingestion in patients with type 2 diabetes. Diabetes 2012;61:3255-3259.(Still) longing for food: insulin reactivity modulates response to food pictures.Effect of Adolescent Bariatric Surgery on the Brain and Cognition: A Pilot Study.Insulin action in the brain: Roles in energy and glucose homeostasis.Spatial working memory impairment in primary onset middle-age type 2 diabetes mellitus: An ethology and BOLD-fMRI study.Acute effect of glucose on cerebral blood flow, blood oxygenation, and oxidative metabolism.Functional MRI of the hypothalamic response to an oral glucose load.Insulin reduces the BOLD response but is without effect on the VEP during presentation of a visual task in humans.Resting-state functional connectivity of the human hypothalamus.Glucose modulates food-related salience coding of midbrain neurons in humans.
P2860
Q26739671-64229FF6-AA30-4148-86C5-F729BAAD0F07Q30585620-EAA10D79-2A1E-4E68-8D02-73FB37424F94Q30863883-A9AEAC3A-B879-4495-BD16-1B1BF0B7378EQ30953931-A3238CF9-AC55-4788-A95B-DB8740B86772Q30991322-1C17B5DC-CBA4-4E87-83C3-C3A60EFB311EQ31115560-BA0B08E8-FE04-4EE5-893F-1162BC05FFEBQ31132324-65525A2D-EE46-4174-964D-D9C762CB7CA5Q33606106-9F98ED37-78DE-4D0C-836D-8FD65C9ECCE1Q33822337-F9F465E9-02F3-42E1-A1DD-FDB47CB97415Q33825301-CDA4C38C-05F0-4FCF-8AC3-94837E53EFEEQ34047478-CF389674-9686-4986-B64B-667312624C34Q34311626-1E8E9068-7E3C-4CC4-967C-B7404D3240C0Q34553961-82AA8FBA-354E-49F6-A0C7-E9E4F25845C5Q35543875-5BA06839-2D93-4834-A8CA-1CDAD6B33D23Q35569563-35ED72F1-1E05-45EA-A43A-42C4A2705C22Q35569574-879BFBA8-917F-466C-B4DF-8BF3EBC2678FQ36073371-EB92C499-2349-4EA2-8081-CB23D62CFED2Q36383427-056EB2C2-DC40-401B-B9DD-F8D2D75F51F8Q36881135-495A9FEB-01C8-493A-B5F3-2CF6F6098492Q37066918-1D58798C-26EF-4EDE-B0AE-DD7A83865E1FQ37157086-D6511959-8CA2-4E0C-A232-202517C3C8C6Q37169608-578B9D6A-7CE4-4AC7-9813-D55C816FB910Q37368593-2FD9CD02-5190-48F1-B557-684628B80EBCQ37667500-53DD9E6C-6E83-46F4-B8EF-1B725BB5F690Q37835786-B14CAD65-E219-49AE-A2E5-5BE2715547B6Q38021678-1ED30056-C8FA-4DAB-B3B1-FC65F13222ACQ38605675-5B32D6DA-BB42-4D3B-9DEA-A0461191F41DQ39090306-3DB407AD-27B1-40AA-A730-941601CD9F3BQ41536739-83C9AFE7-BE21-44CF-99B3-F1EF31FB36F1Q42683622-2DEB9D8F-C2A0-4098-BF94-A0840CEAF4A6Q43153674-A98EC2F2-2A62-4E1E-9DFE-0CE2176E522BQ43675472-5D38A96C-6DEC-4FB6-92DE-76F86DA900E1Q47993924-2124DE09-3771-4672-90DA-AD91C253BCB1Q48056892-D5F123F6-6ABA-4BB0-B64D-51E37E0DCB42Q48118436-1085AA87-7D40-43A0-9114-EE6721B0C57EQ48482444-C82F6AEC-6EA9-4019-8E55-1A61EFD555DCQ48546190-4995F4CD-BF45-4034-BAA2-44F98702C069Q48567287-F5D12285-CD54-4B6B-8B72-89B77B112C54Q48599149-39899D0E-5C70-455A-B8CE-AB144DD95CB1Q48625420-D4184166-D928-4901-AFF7-2518D61F64AA
P2860
Functional MRI of human hypothalamic responses following glucose ingestion.
description
2005 nî lūn-bûn
@nan
2005 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Functional MRI of human hypothalamic responses following glucose ingestion.
@ast
Functional MRI of human hypothalamic responses following glucose ingestion.
@en
type
label
Functional MRI of human hypothalamic responses following glucose ingestion.
@ast
Functional MRI of human hypothalamic responses following glucose ingestion.
@en
prefLabel
Functional MRI of human hypothalamic responses following glucose ingestion.
@ast
Functional MRI of human hypothalamic responses following glucose ingestion.
@en
P2093
P1433
P1476
Functional MRI of human hypothalamic responses following glucose ingestion.
@en
P2093
Annette Stafleu
Jeroen van der Grond
Matthias J P van Osch
Paul A M Smeets
P304
P356
10.1016/J.NEUROIMAGE.2004.07.073
P407
P577
2005-01-01T00:00:00Z