fMRI activation in response to odorants orally delivered in aqueous solutions.
about
Functional connectivity during recognition memory in individuals genetically at risk for Alzheimer's diseaseChemogenetic inactivation of ventral hippocampal glutamatergic neurons disrupts consolidation of contextual fear memory.Association of body mass and brain activation during gastric distention: implications for obesity.The insular taste cortex contributes to odor quality codingBasic taste processing recruits bilateral anteroventral and middle dorsal insulae: An activation likelihood estimation meta-analysis of fMRI studies.Coactivation of gustatory and olfactory signals in flavor perception.Age-related differences in the neural substrates of cross-modal olfactory recognition memory: an fMRI investigationThe effect of stimulus delivery technique on perceived intensity functions for taste stimuli: implications for fMRI studies.Stuttered swallowing: electric stimulation of the right insula interferes with water swallowing. A case reportExposures to conditioned flavours with different hedonic values induce contrasted behavioural and brain responses in pigs.An fMRI study on the influence of sommeliers' expertise on the integration of flavor.The cortical response to the oral perception of fat emulsions and the effect of taster status.Identification of human gustatory cortex by activation likelihood estimationNeural correlates of taste and pleasantness evaluation in the metabolic syndromeNonlinear response speedup in bimodal visual-olfactory object identification.The sniff is part of the olfactory percept.Males and females show differential brain activation to taste when hungry and sated in gustatory and reward areas.De Novo Emergence of Odor Category Representations in the Human Brain.Identification of gustatory-olfactory flavor mixtures: effects of linguistic labeling.A comparison of discrimination and reversal learning for olfactory and visual stimuli in aged rats.Cortical activation in response to pure taste stimuli during the physiological states of hunger and satiety.A voxel-based morphometry study of anosmic patients.Processing of Intraoral Olfactory and Gustatory Signals in the Gustatory Cortex of Awake Rats.The human brain representation of odor identification.Gustatory and olfactory responses to stimulation of the human insula.Single-neuron responses to intraoral delivery of odor solutions in primary olfactory and gustatory cortex.Rapid olfactory processing implicates subcortical control of an olfactomotor system.A salty-congruent odor enhances saltiness: functional magnetic resonance imaging study.Impairments in source memory for olfactory and visual stimuli in preclinical and clinical stages of Huntington's disease.The effect of verbal context on olfactory neural responses.Differential effects of normal aging on memory for odor-place and object-place associations.Different patterns of age-related central olfactory decline in men and women as quantified by olfactory fMRI.Brain volume changes in hyposmic patients before and after olfactory training.Convergent gustatory and viscerosensory processing in the human dorsal mid-insula.Superadditive opercular activation to food flavor is mediated by enhanced temporal and limbic coupling.Source and item memory for odors and objects in children and young adults.Color of scents: chromatic stimuli modulate odor responses in the human brain.Functional neuronal processing of body odors differs from that of similar common odors.Identification of air phase retronasal and orthonasal odorant pairs.Central Olfactory Dysfunction in Alzheimer's Disease and Mild Cognitive Impairment: A Functional MRI Study.
P2860
Q28394145-803D2BFD-AD8B-400E-B7DB-EDAAE237268DQ30407997-E8C2088D-4A27-4FE8-A64E-E9A53F1B20E5Q30487335-73B2F3D6-61E4-4AE4-A509-5BBDE9369ABBQ30495899-A79869A5-B804-474A-BF2C-7C880871C51EQ33562169-4F9127B1-01B4-4093-B55B-18C9AEC060D5Q33587938-19B42797-1ECE-4B39-9701-DBD5E230DD39Q33645225-A51BE17A-2878-4DAB-AEB6-DACE90C3B1F8Q33784250-81C80FD3-3830-4B77-87F3-7501998CF0D0Q33812125-969EBAA3-B401-4299-BADE-A0E345CD4960Q34299502-AF2A2DE6-BE89-460C-B179-A43FA5D45AA9Q34349543-06F7C6E9-65E4-4BEC-A104-786AF28631E7Q34980093-A9FE04A8-3384-48B4-BEF1-30334FD519ADQ35069564-4EA61816-9B3F-4FC0-A52E-1A00B42891B4Q36073371-E210668D-798F-4DFC-A094-A1353FFE1DD7Q36105722-F86D4CC6-276A-4846-AE28-7BE6A0B6B3A5Q36336765-94B731AB-561C-41F0-B7FB-EAAECBA8A130Q36451043-4914D13B-79DE-4B36-A65D-6C471C1113D6Q36456691-4AE09C82-AA35-4599-B854-9FA5603FE007Q36776932-6A3AE6BD-65F3-4A1A-85A3-00EEF232F6ECQ37085375-B20E07CA-A21D-474D-9172-3690DEB3819AQ37242914-4C03B494-E421-49F5-828E-EBAB8B62D489Q37376692-728E5FE7-9F8C-4EF9-B501-B4241015FB1EQ37592125-C19BEF93-212F-4E1D-872F-087CC39B066EQ38472574-17FF534B-723C-4BCE-80A7-7EE873E802E3Q38630659-60F4DEBC-BCFB-4216-9031-694B35F5A357Q39076779-FD4E6FC6-9113-476F-9CD4-18DA812CB51FQ44346140-9CC71745-9D3E-4B5A-BE8F-AD0C67CB4190Q44402567-32152D8D-30C4-4B04-AB67-937805E6515EQ45305124-7FBF0B99-C524-4402-9EA1-8DAA709DCDEDQ45780233-592A8DFC-8F58-4D1C-844D-6E835CDC14CAQ45998235-E69F02CD-47A5-4DB5-8844-E52B5D694DC4Q47162544-E8CA5E00-61CD-40FB-9BB0-67858EF09BCCQ47680898-4177AA40-926E-44E6-825C-7F60872F3F34Q47832751-9B82CEBC-C046-401E-A13E-9984AAAFF8B9Q48397937-B0BE2F07-899F-4DCC-B027-BE896CDC6C4EQ48415534-7661ADAE-962D-4889-81F7-242D28A33A18Q49084745-89F8FB8A-0859-4159-9908-33E1A32D5BD6Q51700691-93E02772-DBD1-44E6-874D-CF8CBC3322CFQ51988626-012D4F89-2D10-4953-AF85-A5A3E77D8630Q53390740-655218D6-FBF6-48C4-B08B-1BC62BC60C29
P2860
fMRI activation in response to odorants orally delivered in aqueous solutions.
description
2001 nî lūn-bûn
@nan
2001 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
fMRI activation in response to odorants orally delivered in aqueous solutions.
@ast
fMRI activation in response to odorants orally delivered in aqueous solutions.
@en
type
label
fMRI activation in response to odorants orally delivered in aqueous solutions.
@ast
fMRI activation in response to odorants orally delivered in aqueous solutions.
@en
prefLabel
fMRI activation in response to odorants orally delivered in aqueous solutions.
@ast
fMRI activation in response to odorants orally delivered in aqueous solutions.
@en
P356
P1433
P1476
fMRI activation in response to odorants orally delivered in aqueous solutions.
@en
P2093
Cerf-Ducastel B
P304
P356
10.1093/CHEMSE/26.6.625
P577
2001-07-01T00:00:00Z