The impact of individual variations in taste sensitivity on coffee perceptions and preferences

Despite a few relationships between fungiform papillae (FP) density and 6-n-propylthiouracil (PROP) taster status have been reported for sensory qualities within foods, the impact on preferences remains relatively unclear. The present study investigated responses of FP number and PROP taster groups...

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Published inPhysiology & behavior Vol. 138; pp. 219 - 226
Main Authors Masi, Camilla, Dinnella, Caterina, Monteleone, Erminio, Prescott, John
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.01.2015
Subjects
6-n-propylthiouracil
Adult
astringency
bitter-tasting compounds
Bitterness
Caffeine - administration & dosage
Caffeine - chemistry
Coffee - chemistry
Dietary Sucrose - administration & dosage
Female
Food Preferences - physiology
foods
Fungiform papillae
Humans
Hydrochloric Acid - administration & dosage
Hydrochloric Acid - chemistry
Male
Middle Aged
propylthiouracil
Propylthiouracil - administration & dosage
Psychiatry
Psychophysics
Quinine - administration & dosage
Quinine - chemistry
sourness
Sugar use
sugars
Taste Perception - physiology
taste sensitivity
Taste Threshold - physiology
Tongue - anatomy & histology
Young Adult
Fungiform papillae
Bitterness
Sugar use
6-n-propylthiouracil
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Abstract Despite a few relationships between fungiform papillae (FP) density and 6-n-propylthiouracil (PROP) taster status have been reported for sensory qualities within foods, the impact on preferences remains relatively unclear. The present study investigated responses of FP number and PROP taster groups to different bitter compounds and how these affect coffee perception, consumption and liking. Subjects (Ss) with higher FP numbers (HFP) gave higher liking ratings to coffee samples than those with lower FP numbers (LFP), but only for sweetened coffee. Moreover, HFP Ss added more sugar to the samples than LFP Ss. Significant differences between FP groups were also found for the sourness of the coffee samples, but not for bitterness and astringency. However, HFP Ss rated bitter taste stimuli as stronger than did LFP Ss. While coffee liking was unrelated to PROP status, PROP non-tasters (NTs) added more sugar to the coffee samples than did super-tasters (STs). In addition, STs rated sourness, bitterness and astringency as stronger than NTs, both in coffee and standard solutions. These results confirm that FP density and PROP status play a significant role in taste sensitivity for bitter compounds in general and also demonstrate that sugar use is partly a function of fundamental individual differences in physiology. •Physiological measures underlying taste perception were investigated•The impact of physiological indices on coffee lixking and consumption was studied•Fungiform papillae density affects both taste perception and coffee preference•PROP taste status affects taste perception both in coffee and in standard solutions•Sugar use depends both on fungiform papillae density and PROP taste status
AbstractList Despite a few relationships between fungiform papillae (FP) density and 6-n-propylthiouracil (PROP) taster status have been reported for sensory qualities within foods, the impact on preferences remains relatively unclear. The present study investigated responses of FP number and PROP taster groups to different bitter compounds and how these affect coffee perception, consumption and liking. Subjects (Ss) with higher FP numbers (HFP) gave higher liking ratings to coffee samples than those with lower FP numbers (LFP), but only for sweetened coffee. Moreover, HFP Ss added more sugar to the samples than LFP Ss. Significant differences between FP groups were also found for the sourness of the coffee samples, but not for bitterness and astringency. However, HFP Ss rated bitter taste stimuli as stronger than did LFP Ss. While coffee liking was unrelated to PROP status, PROP non-tasters (NTs) added more sugar to the coffee samples than did super-tasters (STs). In addition, STs rated sourness, bitterness and astringency as stronger than NTs, both in coffee and standard solutions. These results confirm that FP density and PROP status play a significant role in taste sensitivity for bitter compounds in general and also demonstrate that sugar use is partly a function of fundamental individual differences in physiology.
Abstract Despite a few relationships between fungiform papillae (FP) density and 6-n-propylthiouracil (PROP) taster status have been reported for sensory qualities within foods, the impact on preferences remains relatively unclear. The present study investigated responses of FP number and PROP taster groups to different bitter compounds and how these affect coffee perception, consumption and liking. Subjects (Ss) with higher FP numbers (HFP) gave higher liking ratings to coffee samples than those with lower FP numbers (LFP), but only for sweetened coffee. Moreover, HFP Ss added more sugar to the samples than LFP Ss. Significant differences between FP groups were also found for the sourness of the coffee samples, but not for bitterness and astringency. However, HFP Ss rated bitter taste stimuli as stronger than did LFP Ss. While coffee liking was unrelated to PROP status, PROP non-tasters (NTs) added more sugar to the coffee samples than did super-tasters (STs). In addition, STs rated sourness, bitterness and astringency as stronger than NTs, both in coffee and standard solutions. These results confirm that FP density and PROP status play a significant role in taste sensitivity for bitter compounds in general and also demonstrate that sugar use is partly a function of fundamental individual differences in physiology.
Despite a few relationships between fungiform papillae (FP) density and 6-n-propylthiouracil (PROP) taster status have been reported for sensory qualities within foods, the impact on preferences remains relatively unclear. The present study investigated responses of FP number and PROP taster groups to different bitter compounds and how these affect coffee perception, consumption and liking. Subjects (Ss) with higher FP numbers (HFP) gave higher liking ratings to coffee samples than those with lower FP numbers (LFP), but only for sweetened coffee. Moreover, HFP Ss added more sugar to the samples than LFP Ss. Significant differences between FP groups were also found for the sourness of the coffee samples, but not for bitterness and astringency. However, HFP Ss rated bitter taste stimuli as stronger than did LFP Ss. While coffee liking was unrelated to PROP status, PROP non-tasters (NTs) added more sugar to the coffee samples than did super-tasters (STs). In addition, STs rated sourness, bitterness and astringency as stronger than NTs, both in coffee and standard solutions. These results confirm that FP density and PROP status play a significant role in taste sensitivity for bitter compounds in general and also demonstrate that sugar use is partly a function of fundamental individual differences in physiology. •Physiological measures underlying taste perception were investigated•The impact of physiological indices on coffee lixking and consumption was studied•Fungiform papillae density affects both taste perception and coffee preference•PROP taste status affects taste perception both in coffee and in standard solutions•Sugar use depends both on fungiform papillae density and PROP taste status
Despite a few relationships between fungiform papillae (FP) density and 6-n-propylthiouracil (PROP) taster status have been reported for sensory qualities within foods, the impact on preferences remains relatively unclear. The present study investigated responses of FP number and PROP taster groups to different bitter compounds and how these affect coffee perception, consumption and liking. Subjects (Ss) with higher FP numbers (HFP) gave higher liking ratings to coffee samples than those with lower FP numbers (LFP), but only for sweetened coffee. Moreover, HFP Ss added more sugar to the samples than LFP Ss. Significant differences between FP groups were also found for the sourness of the coffee samples, but not for bitterness and astringency. However, HFP Ss rated bitter taste stimuli as stronger than did LFP Ss. While coffee liking was unrelated to PROP status, PROP non-tasters (NTs) added more sugar to the coffee samples than did super-tasters (STs). In addition, STs rated sourness, bitterness and astringency as stronger than NTs, both in coffee and standard solutions. These results confirm that FP density and PROP status play a significant role in taste sensitivity for bitter compounds in general and also demonstrate that sugar use is partly a function of fundamental individual differences in physiology.Despite a few relationships between fungiform papillae (FP) density and 6-n-propylthiouracil (PROP) taster status have been reported for sensory qualities within foods, the impact on preferences remains relatively unclear. The present study investigated responses of FP number and PROP taster groups to different bitter compounds and how these affect coffee perception, consumption and liking. Subjects (Ss) with higher FP numbers (HFP) gave higher liking ratings to coffee samples than those with lower FP numbers (LFP), but only for sweetened coffee. Moreover, HFP Ss added more sugar to the samples than LFP Ss. Significant differences between FP groups were also found for the sourness of the coffee samples, but not for bitterness and astringency. However, HFP Ss rated bitter taste stimuli as stronger than did LFP Ss. While coffee liking was unrelated to PROP status, PROP non-tasters (NTs) added more sugar to the coffee samples than did super-tasters (STs). In addition, STs rated sourness, bitterness and astringency as stronger than NTs, both in coffee and standard solutions. These results confirm that FP density and PROP status play a significant role in taste sensitivity for bitter compounds in general and also demonstrate that sugar use is partly a function of fundamental individual differences in physiology.
Author Monteleone, Erminio
Prescott, John
Masi, Camilla
Dinnella, Caterina
Author_xml – sequence: 1
  givenname: Camilla
  surname: Masi
  fullname: Masi, Camilla
  email: camilla.masi@unifi.it
  organization: GESAAF, University of Florence, Via Donizetti, 6 50144 Firenze, Italy
– sequence: 2
  givenname: Caterina
  surname: Dinnella
  fullname: Dinnella, Caterina
  organization: GESAAF, University of Florence, Via Donizetti, 6 50144 Firenze, Italy
– sequence: 3
  givenname: Erminio
  surname: Monteleone
  fullname: Monteleone, Erminio
  organization: GESAAF, University of Florence, Via Donizetti, 6 50144 Firenze, Italy
– sequence: 4
  givenname: John
  surname: Prescott
  fullname: Prescott, John
  organization: TasteMatters Research & Consulting, Sydney, Australia
BackLink https://www.ncbi.nlm.nih.gov/pubmed/25446205$$D View this record in MEDLINE/PubMed
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Keywords Fungiform papillae
Bitterness
Sugar use
6-n-propylthiouracil
Language English
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PublicationDate_xml – month: 01
  year: 2015
  text: 2015-01-01
  day: 01
PublicationDecade 2010
PublicationPlace United States
PublicationPlace_xml – name: United States
PublicationTitle Physiology & behavior
PublicationTitleAlternate Physiol Behav
PublicationYear 2015
Publisher Elsevier Inc
Publisher_xml – name: Elsevier Inc
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Snippet Despite a few relationships between fungiform papillae (FP) density and 6-n-propylthiouracil (PROP) taster status have been reported for sensory qualities...
Abstract Despite a few relationships between fungiform papillae (FP) density and 6-n-propylthiouracil (PROP) taster status have been reported for sensory...
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SubjectTerms 6-n-propylthiouracil
Adult
astringency
bitter-tasting compounds
Bitterness
Caffeine - administration & dosage
Caffeine - chemistry
Coffee - chemistry
Dietary Sucrose - administration & dosage
Female
Food Preferences - physiology
foods
Fungiform papillae
Humans
Hydrochloric Acid - administration & dosage
Hydrochloric Acid - chemistry
Male
Middle Aged
propylthiouracil
Propylthiouracil - administration & dosage
Psychiatry
Psychophysics
Quinine - administration & dosage
Quinine - chemistry
sourness
Sugar use
sugars
Taste Perception - physiology
taste sensitivity
Taste Threshold - physiology
Tongue - anatomy & histology
Young Adult
Title The impact of individual variations in taste sensitivity on coffee perceptions and preferences
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