Experience-Dependent Neural Integration of Taste and Smell in the Human Brain

doi:10.1152/jn.00050.2004

Experience-Dependent Neural Integration of Taste and Smell in the Human Brain

Dana M. Small¹^,5^,6, Joel Voss¹^,4, Y. Erica Mak¹, Katharine B. Simmons¹, Todd Parrish¹^,2^,3 and Darren Gitelman¹^,2^,4

¹Cognitive Neurology and Alzheimer's Disease Center and ²Departments of Neurology and ³Radiology, Northwestern University Feinberg School of Medicine, Chicago 60611-3008; ⁴Northwestern University Institute for Neuroscience, Evanston, Illinois 60208-3520; ⁵The John B. Pierce Laboratory, New Haven 06519; and ⁶Yale University School of Medicine, New Haven, Connecticut 06510

Submitted 15 January 2004; accepted in final form 18 April 2004

Flavor perception arises from the central integration of peripherallydistinct sensory inputs (taste, smell, texture, temperature,sight, and even sound of foods). The results from psychophysicaland neuroimaging studies in humans are converging with electrophysiologicalfindings in animals and a picture of the neural correlates offlavor processing is beginning to emerge. Here we used event-relatedfMRI to evaluate brain response during perception of flavors(i.e., taste/odor liquid mixtures not differing in temperatureor texture) compared with the sum of the independent presentationof their constituents (taste and/or odor). All stimuli werepresented in liquid form so that olfactory stimulation was bythe retronasal route. Mode of olfactory delivery is importantbecause neural suppression has been observed in chemosensoryregions during congruent taste–odor pairs when the odorsare delivered by the orthonasal route and require subjects tosniff. There were 2 flavors. One contained a familiar/congruenttaste–odor pair (vanilla/sweet) and the other an unfamiliar/incongruenttaste–odor pair (vanilla/salty). Three unimodal stimuli,including 2 tastes (sweet and salty) and one odor (vanilla),as well as a tasteless/odorless liquid (baseline) were presented.Superadditive responses during the perception of the congruentflavor compared with the sum of its constituents were observedin the anterior cingulate cortex (ACC), dorsal insula, anteriorventral insula extending into the caudal orbitofrontal cortex(OFC), frontal operculum, ventral lateral prefrontal cortex,and posterior parietal cortex. These regions were not presentin a similar analysis of the incongruent flavor compared withthe sum of its constituents. All of these regions except theventrolateral prefrontal cortex were also isolated in a directcontrast of congruent – incongruent. Additionally, theanterior cingulate, posterior parietal cortex, frontal operculum,and ventral insula/caudal OFC were also more active in vanilla+ salty minus incongruent, suggesting that delivery of an unfamiliartaste–odor combination may lead to suppressed neural responses.Taken together with previous findings in the literature, theseresults suggest that the insula, OFC, and ACC are key componentsof the network underlying flavor perception and that taste–smellintegration within these and other regions is dependent on 1)mode of olfactory delivery and 2) previous experience with taste/smellcombinations.

Address for reprint requests and other correspondence: D. M. Small, The John B. Pierce Laboratory, 290 Congress Ave., New Haven, CT 06519 (E-mail: dsmall{at}jbpierce.org).

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				M. G. Veldhuizen, G. Bender, R. T. Constable, and D. M. Small Trying to Detect Taste in a Tasteless Solution: Modulation of Early Gustatory Cortex by Attention to Taste Chem Senses, July 1, 2007; 32(6): 569 - 581. [Abstract] [Full Text] [PDF]

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