Advanced Taste Sensors Based on Artificial Lipids with Global Selectivity to Basic Taste Qualities and High Correlation to Sensory Scores

Advanced Taste Sensors Based on Artificial Lipids with Global Selectivity to Basic Taste Qualities and High Correlation to Sensory Scores

Effective R&D and strict quality control of a broad range of foods, beverages, and pharmaceutical products require objective taste evaluation. Advanced taste sensors using artificial-lipid membranes have been developed based on concepts of global selectivity and high correlation with human s...

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Bibliographic Details
Main Authors: Yoshikazu Kobayashi, Masaaki Habara, Hidekazu Ikezazki, Ronggang Chen, Yoshinobu Naito, Kiyoshi Toko
Format: Article
Language:English
Published: MDPI AG 2010-04-01
Series:Sensors
Subjects:
taste sensor
artificial lipid
CPA value
global selectivity
high correlation to human sensory score
Online Access:http://www.mdpi.com/1424-8220/10/4/3411/
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spelling doaj-2a62b2272cb147cea3b07de0fb1bb1e22020-11-25T00:29:21ZengMDPI AGSensors1424-82202010-04-011043411344310.3390/s100403411Advanced Taste Sensors Based on Artificial Lipids with Global Selectivity to Basic Taste Qualities and High Correlation to Sensory ScoresYoshikazu KobayashiMasaaki HabaraHidekazu IkezazkiRonggang ChenYoshinobu NaitoKiyoshi TokoEffective R&D and strict quality control of a broad range of foods, beverages, and pharmaceutical products require objective taste evaluation. Advanced taste sensors using artificial-lipid membranes have been developed based on concepts of global selectivity and high correlation with human sensory score. These sensors respond similarly to similar basic tastes, which they quantify with high correlations to sensory score. Using these unique properties, these sensors can quantify the basic tastes of saltiness, sourness, bitterness, umami, astringency and richness without multivariate analysis or artificial neural networks. This review describes all aspects of these taste sensors based on artificial lipid, ranging from the response principle and optimal design methods to applications in the food, beverage, and pharmaceutical markets. http://www.mdpi.com/1424-8220/10/4/3411/taste sensorartificial lipidCPA valueglobal selectivityhigh correlation to human sensory score
collection DOAJ
language English
format Article
sources DOAJ
author Yoshikazu Kobayashi
Masaaki Habara
Hidekazu Ikezazki
Ronggang Chen
Yoshinobu Naito
Kiyoshi Toko
spellingShingle Yoshikazu Kobayashi
Masaaki Habara
Hidekazu Ikezazki
Ronggang Chen
Yoshinobu Naito
Kiyoshi Toko
Advanced Taste Sensors Based on Artificial Lipids with Global Selectivity to Basic Taste Qualities and High Correlation to Sensory Scores
Sensors
taste sensor
artificial lipid
CPA value
global selectivity
high correlation to human sensory score
author_facet Yoshikazu Kobayashi
Masaaki Habara
Hidekazu Ikezazki
Ronggang Chen
Yoshinobu Naito
Kiyoshi Toko
author_sort Yoshikazu Kobayashi
title Advanced Taste Sensors Based on Artificial Lipids with Global Selectivity to Basic Taste Qualities and High Correlation to Sensory Scores
title_short Advanced Taste Sensors Based on Artificial Lipids with Global Selectivity to Basic Taste Qualities and High Correlation to Sensory Scores
title_full Advanced Taste Sensors Based on Artificial Lipids with Global Selectivity to Basic Taste Qualities and High Correlation to Sensory Scores
title_fullStr Advanced Taste Sensors Based on Artificial Lipids with Global Selectivity to Basic Taste Qualities and High Correlation to Sensory Scores
title_full_unstemmed Advanced Taste Sensors Based on Artificial Lipids with Global Selectivity to Basic Taste Qualities and High Correlation to Sensory Scores
title_sort advanced taste sensors based on artificial lipids with global selectivity to basic taste qualities and high correlation to sensory scores
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2010-04-01
description Effective R&D and strict quality control of a broad range of foods, beverages, and pharmaceutical products require objective taste evaluation. Advanced taste sensors using artificial-lipid membranes have been developed based on concepts of global selectivity and high correlation with human sensory score. These sensors respond similarly to similar basic tastes, which they quantify with high correlations to sensory score. Using these unique properties, these sensors can quantify the basic tastes of saltiness, sourness, bitterness, umami, astringency and richness without multivariate analysis or artificial neural networks. This review describes all aspects of these taste sensors based on artificial lipid, ranging from the response principle and optimal design methods to applications in the food, beverage, and pharmaceutical markets.
topic taste sensor
artificial lipid
CPA value
global selectivity
high correlation to human sensory score
url http://www.mdpi.com/1424-8220/10/4/3411/
work_keys_str_mv AT yoshikazukobayashi advancedtastesensorsbasedonartificiallipidswithglobalselectivitytobasictastequalitiesandhighcorrelationtosensoryscores
AT masaakihabara advancedtastesensorsbasedonartificiallipidswithglobalselectivitytobasictastequalitiesandhighcorrelationtosensoryscores
AT hidekazuikezazki advancedtastesensorsbasedonartificiallipidswithglobalselectivitytobasictastequalitiesandhighcorrelationtosensoryscores
AT ronggangchen advancedtastesensorsbasedonartificiallipidswithglobalselectivitytobasictastequalitiesandhighcorrelationtosensoryscores
AT yoshinobunaito advancedtastesensorsbasedonartificiallipidswithglobalselectivitytobasictastequalitiesandhighcorrelationtosensoryscores
AT kiyoshitoko advancedtastesensorsbasedonartificiallipidswithglobalselectivitytobasictastequalitiesandhighcorrelationtosensoryscores
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