Study of the Neurophysiological Response to Foodstuffs

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

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Recruitment Status

COMPLETED

Clinical Phase

NA

Total Enrollment

30 participants

Study Classification

INTERVENTIONAL

Study Start Date

2023-03-01

Study Completion Date

2023-07-21

Brief Summary

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The goal of this clinical trial is to investigate the effect of perception of sensory attributes of different foodstuffs on physiological and neurophysiological response in health adults. The main aims are:

* To evaluate the effect of sensory perception of foodstuffs on brain activity using EEG technique;
* To evaluate the effect of food sensory perception on cardiovascular activity using EGG;
* To evaluate the effect of food sensory perception on facial mimicry via video analysis and eye tracking;
* To evaluate the effect of food sensory perception on electrodermal activity using galvanic skin response.

Participants will perform a sensory attribute perception analysis of 5 different solutions representing basic flavours. During the analysis of sensory attributes, participants will pass the solutions through the various regions of the tongue, and at the end, throw the contents away, not ingesting the solution. Between analyzing the various solutions, participants will rinse their mouth with water.

Simultaneously with the analysis of sensory attributes, each participant will be subjected to an assessment of brain activity and physiological activity through the following non-invasive methods: electroencephalography technique; electrocardiography technique; monitoring cardiac electrical activity; facial mimicry activity via video analysis and eye tracking; and electrodermal activity using galvanic skin response.

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Detailed Description

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Participation in the Study of the neurophysiological response to foodstuffs in university students with the aim of investigating the effect of the perception of the sensory attributes of different foodstuffs on the physiological and neurophysiological response of healthy university students, which consists of the following participation: Completion of a survey with the aim of finding out the participant's family history in terms of pathologies and/or allergies/intolerances, gender, age, medication, smoking habits and lifestyles, anthropometric data.

Participants will carry out an analysis of the perception of sensory attributes of 5 different solutions representing basic flavours. During the analysis of sensory attributes, the participants will have to pass the solutions over the various regions of the tongue, and at the end, throw the contents away, not ingesting the solution. Between analysing the various solutions, participants will rinse their mouths out with water.

Simultaneously with the analysis of sensory attributes, each participant will undergo an assessment of brain activity and physiological activity using the following non-invasive methods: Electroencephalography technique, which consists of monitoring brain electrical activity using a cap with electrodes on the head. The electrocardiography technique, which consists of monitoring cardiac electrical activity by placing 3 electrodes on the forearm. Facial mimicry via video analysis and eye tracking, which consists of monitoring facial mimicry by recording test videos for each participant. The participant will be recorded throughout the experiment. Electrodermal activity using the galvanic response of the skin, where the participant will place their index finger and middle finger on a sensor for analysis. The evaluation of brain activity, which includes all the techniques described above, lasts a maximum of one hour.

Conditions

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Healthy Nutrition

Study Design

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Allocation Method

RANDOMIZED

Intervention Model

CROSSOVER

Primary Study Purpose

OTHER

Blinding Strategy

TRIPLE

Participants Investigators Outcome Assessors

Study Groups

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Sensory attributes perception - bitter taste

During the experiment individuals will be exposed to caffeine solution, identifying the sensory attributes and basic flavours. Between the tastings of the different foodstuffs, neutralisation phases will occur, where participants will receive a neutral food stimulus. The judgement will be self-reported by the participants after contact with the food.

While the study is taking place, physiological and neurophysiological data will be collected from participants: brain activity (EEG); cardiac activity (ECG); electrodermal activity (galvanic skin response); and facial mimicry via video analysis and eye tracking. These data will be analysed using physiological data analysis software. All participant data will be recorded using coding, ensuring anonymity and confidentiality.

Group Type EXPERIMENTAL

Bitter taste perception

Intervention Type OTHER

Participants will perform a bitter taste perception analysis. During the analysis of sensory attributes, participants will pass the solutions through the various regions of the tongue, and at the end, throw the contents away, not ingesting the solution. Between analyzing the various solutions, participants will rinse their mouth with water.

Simultaneously with the analysis of sensory attributes, each participant will be subjected to an assessment of brain activity and physiological activity through the following non-invasive methods: electroencephalography technique; electrocardiography technique; monitoring cardiac electrical activity; facial mimicry activity via video analysis and eye tracking; and electrodermal activity using galvanic skin response.

Sensory attributes perception - salty taste

Individuals will be exposed to sodium chloride solution, identifying the sensory attributes and basic flavours. Between the tastings of the different foodstuffs, neutralisation phases will occur, where participants will receive a neutral food stimulus. The judgement will be self-reported by the participants after contact with the food.

While the study is taking place, physiological and neurophysiological data will be collected from participants: brain activity (EEG); cardiac activity (ECG); electrodermal activity (galvanic skin response); and facial mimicry via video analysis and eye tracking. These data will be analysed using physiological data analysis software. All participant data will be recorded using coding, ensuring anonymity and confidentiality.

Group Type EXPERIMENTAL

Salty taste perception

Intervention Type OTHER

Participants will perform a salty taste perception analysis. During the analysis of sensory attributes, participants will pass the solutions through the various regions of the tongue, and at the end, throw the contents away, not ingesting the solution. Between analyzing the various solutions, participants will rinse their mouth with water.

Simultaneously with the analysis of sensory attributes, each participant will be subjected to an assessment of brain activity and physiological activity through the following non-invasive methods: electroencephalography technique; electrocardiography technique; monitoring cardiac electrical activity; facial mimicry activity via video analysis and eye tracking; and electrodermal activity using galvanic skin response.

Sensory attributes perception - sweet taste

Individuals will be exposed to sucrose solution, identifying the sensory attributes and basic flavours. Between the tastings of the different foodstuffs, neutralisation phases will occur, where participants will receive a neutral food stimulus. The judgement will be self-reported by the participants after contact with the food.

While the study is taking place, physiological and neurophysiological data will be collected from participants: brain activity (EEG); cardiac activity (ECG); electrodermal activity (galvanic skin response); and facial mimicry via video analysis and eye tracking. These data will be analysed using physiological data analysis software. All participant data will be recorded using coding, ensuring anonymity and confidentiality.

Group Type EXPERIMENTAL

Sweet taste perception

Intervention Type OTHER

Participants will perform a sweet taste perception analysis. During the analysis of sensory attributes, participants will pass the solutions through the various regions of the tongue, and at the end, throw the contents away, not ingesting the solution. Between analyzing the various solutions, participants will rinse their mouth with water.

Simultaneously with the analysis of sensory attributes, each participant will be subjected to an assessment of brain activity and physiological activity through the following non-invasive methods: electroencephalography technique; electrocardiography technique; monitoring cardiac electrical activity; facial mimicry activity via video analysis and eye tracking; and electrodermal activity using galvanic skin response.

Sensory attributes perception - acid taste

Individuals will be exposed to citric acid solution, identifying the sensory attributes and basic flavours. Between the tastings of the different foodstuffs, neutralisation phases will occur, where participants will receive a neutral food stimulus. The judgement will be self-reported by the participants after contact with the food.

While the study is taking place, physiological and neurophysiological data will be collected from participants: brain activity (EEG); cardiac activity (ECG); electrodermal activity (galvanic skin response); and facial mimicry via video analysis and eye tracking. These data will be analysed using physiological data analysis software. All participant data will be recorded using coding, ensuring anonymity and confidentiality.

Group Type EXPERIMENTAL

Acid taste perception

Intervention Type OTHER

Participants will perform a acid taste perception analysis. During the analysis of sensory attributes, participants will pass the solutions through the various regions of the tongue, and at the end, throw the contents away, not ingesting the solution. Between analyzing the various solutions, participants will rinse their mouth with water.

Simultaneously with the analysis of sensory attributes, each participant will be subjected to an assessment of brain activity and physiological activity through the following non-invasive methods: electroencephalography technique; electrocardiography technique; monitoring cardiac electrical activity; facial mimicry activity via video analysis and eye tracking; and electrodermal activity using galvanic skin response.

Sensory attributes perception - umami taste

Individuals will be exposed to sodium glutamate monohydrate solution, identifying the sensory attributes and basic flavours. Between the tastings of the different foodstuffs, neutralisation phases will occur, where participants will receive a neutral food stimulus. The judgement will be self-reported by the participants after contact with the food.

While the study is taking place, physiological and neurophysiological data will be collected from participants: brain activity (EEG); cardiac activity (ECG); electrodermal activity (galvanic skin response); and facial mimicry via video analysis and eye tracking. These data will be analysed using physiological data analysis software. All participant data will be recorded using coding, ensuring anonymity and confidentiality.

Group Type EXPERIMENTAL

Umami taste perception

Intervention Type OTHER

Participants will perform a umami taste perception analysis. During the analysis of sensory attributes, participants will pass the solutions through the various regions of the tongue, and at the end, throw the contents away, not ingesting the solution. Between analyzing the various solutions, participants will rinse their mouth with water.

Simultaneously with the analysis of sensory attributes, each participant will be subjected to an assessment of brain activity and physiological activity through the following non-invasive methods: electroencephalography technique; electrocardiography technique; monitoring cardiac electrical activity; facial mimicry activity via video analysis and eye tracking; and electrodermal activity using galvanic skin response.

Interventions

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Bitter taste perception

Participants will perform a bitter taste perception analysis. During the analysis of sensory attributes, participants will pass the solutions through the various regions of the tongue, and at the end, throw the contents away, not ingesting the solution. Between analyzing the various solutions, participants will rinse their mouth with water.

Simultaneously with the analysis of sensory attributes, each participant will be subjected to an assessment of brain activity and physiological activity through the following non-invasive methods: electroencephalography technique; electrocardiography technique; monitoring cardiac electrical activity; facial mimicry activity via video analysis and eye tracking; and electrodermal activity using galvanic skin response.

Intervention Type OTHER

Salty taste perception

Participants will perform a salty taste perception analysis. During the analysis of sensory attributes, participants will pass the solutions through the various regions of the tongue, and at the end, throw the contents away, not ingesting the solution. Between analyzing the various solutions, participants will rinse their mouth with water.

Simultaneously with the analysis of sensory attributes, each participant will be subjected to an assessment of brain activity and physiological activity through the following non-invasive methods: electroencephalography technique; electrocardiography technique; monitoring cardiac electrical activity; facial mimicry activity via video analysis and eye tracking; and electrodermal activity using galvanic skin response.

Intervention Type OTHER

Sweet taste perception

Participants will perform a sweet taste perception analysis. During the analysis of sensory attributes, participants will pass the solutions through the various regions of the tongue, and at the end, throw the contents away, not ingesting the solution. Between analyzing the various solutions, participants will rinse their mouth with water.

Simultaneously with the analysis of sensory attributes, each participant will be subjected to an assessment of brain activity and physiological activity through the following non-invasive methods: electroencephalography technique; electrocardiography technique; monitoring cardiac electrical activity; facial mimicry activity via video analysis and eye tracking; and electrodermal activity using galvanic skin response.

Intervention Type OTHER

Acid taste perception

Participants will perform a acid taste perception analysis. During the analysis of sensory attributes, participants will pass the solutions through the various regions of the tongue, and at the end, throw the contents away, not ingesting the solution. Between analyzing the various solutions, participants will rinse their mouth with water.

Simultaneously with the analysis of sensory attributes, each participant will be subjected to an assessment of brain activity and physiological activity through the following non-invasive methods: electroencephalography technique; electrocardiography technique; monitoring cardiac electrical activity; facial mimicry activity via video analysis and eye tracking; and electrodermal activity using galvanic skin response.

Intervention Type OTHER

Umami taste perception

Participants will perform a umami taste perception analysis. During the analysis of sensory attributes, participants will pass the solutions through the various regions of the tongue, and at the end, throw the contents away, not ingesting the solution. Between analyzing the various solutions, participants will rinse their mouth with water.

Simultaneously with the analysis of sensory attributes, each participant will be subjected to an assessment of brain activity and physiological activity through the following non-invasive methods: electroencephalography technique; electrocardiography technique; monitoring cardiac electrical activity; facial mimicry activity via video analysis and eye tracking; and electrodermal activity using galvanic skin response.

Intervention Type OTHER

Eligibility Criteria

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Inclusion Criteria

* healthy adults
* agree to take part in the study
* aged between 18 and 25

Exclusion Criteria

* Participants with cardiovascular, neurological or psychiatric conditions
* Participants with food allergies or intolerances
* Participants with disability that does not allow them to fully utilise their sense of taste (ageusia) and smell (anosmia).

Minimum Eligible Age

18 Years

Maximum Eligible Age

25 Years

Eligible Sex

ALL

Accepts Healthy Volunteers

Yes