Relationship of Sex , Age , and Preference Level of Sour Food with Sweetness Sensitivity in Young Japanese Adults

Objectives: The aim of this study was to establish a prediction system for taste sense according to questionnaire surveys about dietary background. This study is a follow-up to a previously published Previous Article. Research Methods & Procedures: A total of 63 healthy Japanese participants, aged 20–28 years, who did not have smoking and drinking alcohol habit, were surveyed. Questionnaires about background, which included Body Mass Index (BMI), preference level of using dipping sauces in eating, eating snack food, drinking soft drinks, and preference levels for four tastes were performed. Taste examination (sweetness, saltiness, sourness, and bitterness) was performed using the dropped disc method. Correlation and multiple regression analyses were performed between the taste sense properties and questionnaire survey data. Results: Multiple regression analysis showed that sweetness sensitivity (in which a higher score indicates lower sensitivity) was significantly affected by dietary background properties, with the strongest influence of sex, age and preference level of sour food. The following prediction equation was determined: Sweetness sensitivity=3.6 + [-0.25 × sex (male: 0, female: 1)] + (-0.03 × age) + [-0.13 × preference level of sour food (1: strongly disagree, 2: disagree, 3: neither agree nor disagree, 4: agree, 5: strongly agree)]. Analysis of variance showed an overall significant effect of these variables on sweetness sensitivity (R2=0.48, P < 0.01). Conclusion: Sweetness sensitivity could be predicted by sex, age, and preference level of sour food, through a multiple regression analysis, in a healthy Japanese population.


Introduction
The sensory preference for food and food palatability may contribute to over consumption and constitute a risk factor of weight gain [1].In most developed countries, including Japan, over-eating is a risk factor for development of unhealthy diabetes, and premature mortality, as a consequence of obesity [2][3][4].Taste sense plays an important role in dietary life [5,6].Taste is affected by aging, diet and life style conditions and backgrounds, and strongly affected by aging [7].
Evaluation methods of taste sense are somewhat limited, as they rely on the subjective reaction of patients.An objective examination for evaluating the taste sensory system is required.We analyzed correlations between basic taste sense (sweetness, saltiness, sourness, and bitterness) and biochemical data for young, healthy participants, which indicated that saliva pH affects sweetness sensitivity.
Food preference relates to food habituation and habituation may be a basic mechanism underlying sensory specific satiety [8,9].However, there is no evidence regarding a relationship between preference level of basic taste sensations and dietary preference.
In the present study, we evaluated the taste sense in healthy adult subjects to advance the research of our previous report, in order to develop a simple prediction system of taste sense.63 of 100 Japanese participants who were reported on our previous report participated in this study [10].They did not have any disease, including oral disorders.All participants completed questionnaire surveys about backgrounds and dietary preference, as well as a taste examination, which utilized identical methods to the previous report [10].Taste analysis was based on a common,

Participants, Ethics and Taste Examination
This study included 63 Japanese participants (40 males and 23 females), aged 20-28 years (mean: 24.2 years) without physical, oral, or mental disability, as well as no medication, smoking and/ or, alcohol drinking habit including occasional drinkers.The participants were asked to not brush their teeth within 45 min prior to sample collection and to not eat within 2 hours of taste examination.Taste examinations were performed under resting conditions in a quiet room in the morning, between 9:00 a.m. and 12:00 noon.We used Taste Disc (Sanwakagaku, Aichi, Japan), which includes filter paper disks 8 mm in diameter and taste solutions, which were sequentially diluted (in 5 stages from 80% sucrose, 20% NaCl, 8% tartaric acid, and 4% quinine hydrochloride).The sensitivity at which each taste was recognized in the center of the tongue tip was determined by testing increasing concentrations of each solution.A smaller absorbance value was interpreted as a more sensitive taste sense, in which a score of 1 is considered the most sensitive and a score of 5 is considered no sensitivity, which was same as our previous report [10].We examined in the order of sweetness, salty, sourness and bitterness sensitivity for each participants.
This study was approved by the ethics committee of the Tokai University School of Medicine (13R034).

Questionnaire Surveys
Questionnaire surveys about background, which included body mass index (BMI), preference level of using dipping sauces while eating (e.g., soy sauce, catsup, vinegar, salad dressing, etc.), snack food/soft drink consumption, and preference level for four tastes (i.e., sweetness, saltiness, sourness, and bitterness) were performed in participants.Preference levels for each status were measured on a five-point Likert scale [11].

Statistical Analyses
All statistical analyses [i.e., the estimation of sample size, univariate analysis (correlation analysis and correlation coefficients), and multivariate analysis (multiple logistic regression)] were evaluated with the same method as our previous report [10].

Taste Examination
The sensitivity results for each taste type of the 63 healthy subjects are shown in table 1.The mean sensitivity values for sweetness, salty, sourness, and bitterness taste components were 97%, 98%, 98%, and 97%, respectively, for up to three absorbance measures.Multiple regression analysis was performed using up to 3 variables.We extracted the independent variables that were most relevant to taste sense, as determined by the univariate analyses.

Questionnaire Survey Data
Sweetness sensitivity was significantly influenced by background and questionnaire survey data in the multiple regression analysis (R² = 0.48, P < 0.01, based on ANOVA), as shown in table 6, and the following equation was obtained: Sweetness sensitivity=3.6 + [-0.25 × sex (male: 0, female: 1)] + (-0.03 × age) + [-0.13 × preference level of sour food (1: strongly disagree, 2: disagree, 3: neither agree nor disagree, 4: agree, 5: strongly agree)].Therefore, sex and preference level of sour food showed the strongest influence on sweetness sensitivity.BMI, preference level of salty and bitter food, dipping sauce use, snack food, soft drink, and coffee/tea consumption were dropped as non-significant during stepwise selection.
We confirmed that all parameters were in the range of ±3SD.Saltiness, sourness, and bitterness taste sensitivities were not significantly related to any factors tested.

Discussion
Taste sense is related to chronic disease, medication use, smoking, alcohol consumption, and oral disorders, including dehydration of oral mucosa [12,13].A recent study has shown that the preference and habituation for a specific beverage and food is associated with diet [14].Therefore, we performed taste examination and conducted questionnaire surveys about dietary habituation and palatability, in healthy participants, who did not smoke or drink alcohol.
Of the four basic tastes, sweetness sensitivity plays the most important role in body weight control.This is because sugars that contribute to this sense are typically found in high-calorie food.Thus, sweetness sense is strongly linked to obesity [5,6,15].Our

Relationship of Sex, Age, and Preference Level of Sour Food with Sweetness Sensitivity in Young Japanese Adults
Copyright: © 2017 Ken A, et al. previous report suggested that sweetness sensitivity was the only sense of the four basic taste senses to be affected by saliva pH, in a multiple logistic regression [10].The current study also indicated, through multivariate analysis, that sweetness sensitivity was associated with dietary preference, which supports previous report [10].
Human thresholds for stimulus detection appear to differ between sexes for a broad range of stimuli, with women detecting basic taste stimuli at lower concentrations than men [16].Female rats show a decreased number of aversive responses, but a greater number of ingestive behaviors, toward sweet tastes [17].Additionally, female rats receive different sensory information from the periphery regarding salty and sour stimuli, whereas input concerning sweet and bitter tastes is not affected by sex [16].A recent human study has shown that there are sex differences in taste sensitivity for the four basic tastes, and that sweetness sensitivity is more robust than the other tastes [18].The present study supports the above findings, and is the first to report that sex (female) affects sweetness sense in a human study.
A recent report also suggested that young adults showed significantly lower recognition thresholds of basic four tastes than an early-elderly group (aged 69-71 years), and the earlyelderly group showed significantly lower recognition thresholds of those than a late-elderly group (aged 79-81 years) [18].However, in the present report, age was negatively correlated with sweetness sense.Participants of present study were aged 20-28 years (mean: 24.2 years), which was younger than those of the afore mentioned report [18].In addition, the current study examined participants who were healthy, not smoking, and did not consume alcohol.However, the previous study included participants who exhibited systemic/oral disease, drinking, and smoking habituation [10].
It is well known that sourness strongly relates to pH [19].Our previous report indicated that saliva pH affects sweetness sense [10].Habituation to the sweetness palatability is related with dietary symptoms such as obesity or lifestyle disease [20].Habituation to the sweetness palatability is related with dietary symptoms, such as obesity and/or lifestyle disease [20].The present results support these findings, as multiple logistic regressions indicated a preference for sour food.
In conclusion, sweetness sensitivity was able to be predicted by sex, age, and preference level of sour food, via a multiple regression analysis, in a healthy Japanese population.However, the result of multiple regressions was significantly, but moderately influenced (R²=0.48,P < 0.01).Further studies are warranted to clarify the biological mechanism of sweetness sensory mechanism.

Table 2 :
Questionnaire Results about Dietary Life

Relationship of Sex, Age, and Preference Level of Sour Food with Sweetness Sensitivity in Young Japanese Adults Copyright: © 2017 Ken A, et al.Table 3 :
Questionnaire Results about Preference of Each Taste The results of univariate analyses for determining the correlation between each taste sensitivity value and questionnaire survey data are shown in table 4. Additionally, correlations among questionnaire survey measures are presented in table 5.

Table 5 :
Correlation Analysis of each Questionnaire Parameter

Table 6 :
Multiple Regression Analysis of Taste Sensitivity with Questionnaire Parameters