View clinical trials related to Taste, Altered.
Filter by:The aim of this study is to investigate whether differences in taste perception and preference behavior can be attributed to inflammatory processes induced by physical activity. The focus will be on sweet taste and the perception of fat. A non-invasive, observational study design will be used.
Taste problems and xerostomia (dry mouth) are common among patients with advanced cancer. These symptoms can affect the pleasure of eating and drinking, reduce dietary intake, cause low mood, and a lower quality of life. This study will explore the relationship between dry mouth and taste problems in patients with advanced cancer.
Some evidence suggests that taste perception might be modulated by physical exercise, with differences observed after aerobic exercise (DOI:10.1093/chemse/23.4.417) and with habitual exercise (DOI:10.3390/nu11010155). However, the effects of resistance exercise on taste perception has not been studied. This knowledge is important as it may impact the acceptability of foods consumed after exercise. While plant-protein supplement powders are gaining increased popularity, their palatability and, thereby, acceptability may be a shortcoming. This randomised crossover trial aims to investigate (1) the taste perception and acceptability of plant protein supplement powders and (2) whether resistance exercise modulates taste perception and appetite responses to plant protein.
The perception of astringency is thought to involve the interaction between tannins and salivary proteins. However, the mechanisms underlying this interaction are poorly understood. The tannins' subclass known as type A proanthocyanidins seems to have a positive effect on human health. Despite that, humans show large individual differences in the sensory perception and acceptance of astringent foods such as tea, wine and chocolate suggesting that this variation may have a genetic basis. Salivary proteins play an essential role both in affecting oral taste perception and in maintaining a healthy oral environment. Diverse microorganisms inhabit the oral cavity. The interactions between oral microbiota, host and environmental factors influence microbial homeostasis and ultimately human oral health. Understanding individual differences in salivary proteins, oral microbiome and the mechanisms by which tannins evoke the perception of astringency could provide important insights into the role of these compounds in human nutrition and health.
A single arm intervention study examining ONS-flavour preference in cancer patients with and without taste alterations
Purpose and Objective: Compare the incidence of taste alteration in treatment vs. control arms and Compare weight loss in treatment vs. control arms
50 females will be included in this study. they will be divided into 2 groups (study group which will include 25 postmenopausal females - and control group which will include premenopausal females) For testing gustatory function, a whole mouth above threshold taste test will be carried out in which a concentration of sucrose, sodium chloride, citric acid and quinine hydrochloride solutions were used for sweet, salty, sour and bitter types of taste respectively . Saliva will be collected to evaluate MUC1 expression
The purpose of the study is to explore the effects of GLP-1 receptor agonist (GLP-1 RA) semaglutide on modulation of taste sensitivity, tongue tissue transcriptome, modulation of neural response in central reward processing regions and gastric emptying rate. In addition, we aim to investigate the associations between semaglutide induced modulation of taste sensitivity, neural responses and gastric emptying with changes in body mass, eating- behavioural pattern, food perception and food intake.
We are trying to figure out whether the fatty acid taste is differentiated from sour taste.
Genetic differences in taste are believed to play an important role in food selection, especially for strong-tasting foods and beverages. The overall goal of this project is to better understand how genes that control food preferences differ among people and whether saliva composition and oral health are related to these differences. This study examines the effects of a daily cranberry extract oral rinse on salivary protein responses and the oral microbiome (as a proxy measure of oral health). The study will be conducted in healthy adults who are presumably at high-risk (non-tasters of PROP; homozygous recessive for tas2R38 gene) or low-risk (super-taster of PROP; homozygous dominant for tas2R38 gene) of oral disease. The specific aims are to determine if the use of cranberry polyphenol extract rinse will: 1. alter the oral microbial profile 2. induce changes in the salivary protein response 3. be associated with changes in taste and flavor perception Participants will be screened for good overall and oral health (see inclusion/exclusion criteria below). Each subject's period of participation will be 2 weeks. Days 1-3 of the study is a run-in period. Subjects rinse with spring water 2-times/day (after brushing their teeth in the morning and evening). During days 4-14, subjects will rinse in a similar manner with a solution of cranberry-derived polyphenol extract (CPE) in spring water. Saliva will be collected from subjects in a brief session (10 min) on Days 3 and Day 14. Saliva samples will be analyzed for salivary proteins and microbial profile analysis. The purpose of this analysis is to measure the relative ratios of beneficial vs. disease-causing microbes in the mouth using 16S RNA sequencing. On each of the testing days, subjects will also evaluate food samples for standard taste and flavor attributes.