This is an application for a project that will use fMRI to investigate central representation of taste in the human brain. There are 2 specific aims.
Specific aim I is to evaluate whether the performance of a task influences brain responses to sapid stimuli. We know that there are anticipatory neurons interspersed with taste-responsive neurons in the cortical gustatory areas and we know that these cortical taste regions participate in affective decision-making. Therefore, it is very likely that performance of a task, such as judging pleasantness or detecting the presence of a taste, affects the response of gustatory neurons or evokes a response within the gustatory areas that could hinder or interact with detection of the response to taste. Systematic investigation of how judging perceptual attributes of a taste interact with the gustatory response is therefore clearly needed.
Specific aim II is to evaluate the general prediction that quality-specific responses can be isolated when intensity and affective value are controlled, and that such responses can be functionally grouped according the physiological meaning of the quality. Although the issue of taste-quality coding has dominated the rat and primate electrophysiological work in gustation, to date, no study has addressed this issue in humans. Since there is likely to be overlapping representation of taste intensity, affect, and quality coding, we propose to examine brain responses to taste quality while systematically manipulating or controlling for the intensity and affective value of the stimulus. Because affective value can be intrinsic to the stimulus, or the result of changes in internal state we will test the hypothesis that while the intrinsic pleasantness of a sweet taste may influence quality coding, quality coding should be independent from transient changes in pleasantness associated with satiety. We will use standard fMRI as well as 2 novel techniques, fMRI-adaptation, and effective connectivity analyses, to examine if quality is represented as spatially segregated responses (e.g. chemotopy), spatially overlapping but distinct neuronal population responses or as unique patterns of interconnectivity within a network of cortical gustatory areas. This research will provide fundamental information about human gustation and it will provide important baseline data for future studies of gustatory processing in the obese and individuals with an eating, drug or alcohol disorder. ? ? ?

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Research Project (R01)
Project #
1R01DC006706-01A2
Application #
7149605
Study Section
Somatosensory and Chemosensory Systems Study Section (SCS)
Program Officer
Davis, Barry
Project Start
2006-07-01
Project End
2011-06-30
Budget Start
2006-07-01
Budget End
2007-06-30
Support Year
1
Fiscal Year
2006
Total Cost
$406,150
Indirect Cost
Name
John B. Pierce Laboratory, Inc.
Department
Type
DUNS #
010139210
City
New Haven
State
CT
Country
United States
Zip Code
06519
Veldhuizen, Maria Geraldine; Babbs, Richard Keith; Patel, Barkha et al. (2017) Integration of Sweet Taste and Metabolism Determines Carbohydrate Reward. Curr Biol 27:2476-2485.e6
Burke, Mary V; Small, Dana M (2015) Physiological mechanisms by which non-nutritive sweeteners may impact body weight and metabolism. Physiol Behav 152:381-8
Rudenga, Kristin J; Small, Dana M (2013) Ventromedial prefrontal cortex response to concentrated sucrose reflects liking rather than sweet quality coding. Chem Senses 38:585-94
de Araujo, Ivan E; Geha, Paul; Small, Dana M (2012) Orosensory and Homeostatic Functions of the Insular Taste Cortex. Chemosens Percept 5:64-79
Veldhuizen, Maria G; Gitelman, Darren R; Small, Dana M (2012) An fMRI Study of the Interactions Between the Attention and the Gustatory Networks. Chemosens Percept 5:117-127
Small, Dana M (2012) Flavor is in the brain. Physiol Behav 107:540-52
Rudenga, K J; Small, D M (2012) Amygdala response to sucrose consumption is inversely related to artificial sweetener use. Appetite 58:504-7
Veldhuizen, Maria G; Small, Dana M (2011) Modality-specific neural effects of selective attention to taste and odor. Chem Senses 36:747-60
Veldhuizen, Maria G; Douglas, Danielle; Aschenbrenner, Katja et al. (2011) The anterior insular cortex represents breaches of taste identity expectation. J Neurosci 31:14735-44
Rudenga, K; Green, B; Nachtigal, D et al. (2010) Evidence for an integrated oral sensory module in the human anterior ventral insula. Chem Senses 35:693-703

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