Taste stimuli in the real world (tap water, foods, beverages) contain substances that taste different to some individuals and taste different on different tongue locations. We propose to study this variability both to understand its origins and to characterize more accurately the taste world in which people live. Taste thresholds for the bitter substance PTC (phenylthiorcarbamide). PROP (6-n-prophylthiouracil) show a bimodal distribution, leading to the designation """"""""tasters"""""""" for the more and """"""""nontasters"""""""" for the less sensitive. Family studies suggest that nontasting is a simple Mendelian recessive trait. The taste worlds for these two groups are known to be different for certain bitter and sweet compounds (e.g., sucrose, saccharin and KCl). For example, in one study stimulating the front of the tongue, tasters perceived sucrose to be about twice as sweet as nontasters did. One of the major objectives of this proposal is to test additional compounds to characterize the differences between tasters and nontasters. The differences will be evaluated with both threshold and suprathreshold (e.g., magnitude estimation and magnitude matching) procedures. Topical exposure fo the tongue to constituents of the common globe artichoke (e.g., potassium chlorogenate) induces a sweet taste in water. This phenomenon occurs only in certain subjects but no family studies exist to support any particualr model of genetic transmission. Sensitivity to this phenomenon will be evaluated with the same methods used in the PTC/PROP studies. Taste perception varies with the locus of the stimulus in the oral cavity. A second major objective of this proposal is to evaluate the spatial properties of the tongue. This is an important research problem in its own right but, in addition, regional sensitivities may play a role in the differences between tasters and nontasters. Spatial properties of the tongue will be studied by stimulating limited areas and by selective application of a topical anesthetic. The information generated by these studies will be relevant to several health issues. Genetic variability in the perceived sweetness of sucrose and artificial sweetners impacts on dental as well as other medical problems. All the studies are relevant to the evaluation of taste loss. The threshold studies will contribute to the improved evaluation of trace tastes (e.g., """"""""off"""""""" tastes in tap water).

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Research Project (R01)
Project #
8R01DC000283-05
Application #
3216414
Study Section
Communication Sciences and Disorders (CMS)
Project Start
1984-12-01
Project End
1989-11-30
Budget Start
1988-12-01
Budget End
1989-11-30
Support Year
5
Fiscal Year
1989
Total Cost
Indirect Cost
Name
John B. Pierce Laboratory, Inc.
Department
Type
DUNS #
City
New Haven
State
CT
Country
United States
Zip Code
06519
Williams, Johnny A; Bartoshuk, Linda M; Fillingim, Roger B et al. (2016) Exploring Ethnic Differences in Taste Perception. Chem Senses 41:449-56
Snyder, Derek J; Bartoshuk, Linda M (2016) Oral sensory nerve damage: Causes and consequences. Rev Endocr Metab Disord 17:149-58
Coldwell, Susan E; Mennella, Julie A; Duffy, Valerie B et al. (2013) Gustation assessment using the NIH Toolbox. Neurology 80:S20-4
Hayes, John E; Sullivan, Bridget S; Duffy, Valerie B (2010) Explaining variability in sodium intake through oral sensory phenotype, salt sensation and liking. Physiol Behav 100:369-80
Duffy, Valerie B; Hayes, John E; Davidson, Andrew C et al. (2010) Vegetable Intake in College-Aged Adults Is Explained by Oral Sensory Phenotypes and TAS2R38 Genotype. Chemosens Percept 3:137-148
Snyder, Derek J; Bartoshuk, Linda M (2009) Epidemiological studies of taste function: discussion and perspectives. Ann N Y Acad Sci 1170:574-80
Hayes, John E; Duffy, Valerie B (2008) Oral sensory phenotype identifies level of sugar and fat required for maximal liking. Physiol Behav 95:77-87
Bachmanov, Alexander A; Kiefer, Stephen W; Molina, Juan Carlos et al. (2003) Chemosensory factors influencing alcohol perception, preferences, and consumption. Alcohol Clin Exp Res 27:220-31