Study Results
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Basic Information
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COMPLETED
NA
169 participants
INTERVENTIONAL
2013-05-30
2018-05-31
Brief Summary
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Detailed Description
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Conditions
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Study Design
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NON_RANDOMIZED
PARALLEL
BASIC_SCIENCE
NONE
Study Groups
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Cognitive Fatigability
Electroencephalography (EEG) multi-sensor
Electrophysiological measurements of cerebral activity will be performed by multi-sensor electroencephalography (EEG), which is a non-invasive method.
Magnetoencephalography (MEG)
Electrophysiological measurements of brain activity will be performed by magnetoencephalography (MEG) which is a non-invasive method.
Behavioral Measures
The evaluation of cognitive performance will be carried out by means of behavioral measures, push-button type, handling of a mouse or a joystick.
Reaction time measurement
The assessment of cognitive performance will be carried out using standard behavioral measures, such as reaction time measurement.
Assessment of physical performance
The assessment of physical performance will be based both on bioenergetic measurements and on quantitative data collected in continuous and relative to the effort (eg instantaneous pedaling speed).
Electrooculogram (EOG)
In order to extract artifacts and verify the physical performances of the subjects, under the conditions of physical fatigability, peripheral electrophysiological recordings will be necessary and complementary to meet the objectives set in this study.
Electromyogram (EMG)
In order to extract artifacts and verify the physical performances of the subjects, under the conditions of physical fatigability, peripheral electrophysiological recordings will be necessary and complementary to meet the objectives set in this study.
Electrocardiogram with 3 leads
In order to extract artifacts and verify the physical performances of the subjects, under the conditions of physical fatigability, peripheral electrophysiological recordings will be necessary and complementary to meet the objectives set in this study.
Physical Fatigability
Electroencephalography (EEG) multi-sensor
Electrophysiological measurements of cerebral activity will be performed by multi-sensor electroencephalography (EEG), which is a non-invasive method.
Magnetoencephalography (MEG)
Electrophysiological measurements of brain activity will be performed by magnetoencephalography (MEG) which is a non-invasive method.
Behavioral Measures
The evaluation of cognitive performance will be carried out by means of behavioral measures, push-button type, handling of a mouse or a joystick.
Reaction time measurement
The assessment of cognitive performance will be carried out using standard behavioral measures, such as reaction time measurement.
Assessment of physical performance
The assessment of physical performance will be based both on bioenergetic measurements and on quantitative data collected in continuous and relative to the effort (eg instantaneous pedaling speed).
Electrooculogram (EOG)
In order to extract artifacts and verify the physical performances of the subjects, under the conditions of physical fatigability, peripheral electrophysiological recordings will be necessary and complementary to meet the objectives set in this study.
Electromyogram (EMG)
In order to extract artifacts and verify the physical performances of the subjects, under the conditions of physical fatigability, peripheral electrophysiological recordings will be necessary and complementary to meet the objectives set in this study.
Electrocardiogram with 3 leads
In order to extract artifacts and verify the physical performances of the subjects, under the conditions of physical fatigability, peripheral electrophysiological recordings will be necessary and complementary to meet the objectives set in this study.
Electrodermogram (EDG)
In order to extract artifacts and verify the physical performances of the subjects, under the conditions of physical fatigability, peripheral electrophysiological recordings will be necessary and complementary to meet the objectives set in this study.
Consumption of O2 (VO2)
In order to extract artifacts and verify the physical performances of the subjects, under the conditions of physical fatigability, peripheral electrophysiological recordings will be necessary and complementary to meet the objectives set in this study.
Production of CO2 (VCO2)
In order to extract artifacts and verify the physical performances of the subjects, under the conditions of physical fatigability, peripheral electrophysiological recordings will be necessary and complementary to meet the objectives set in this study.
Interventions
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Electroencephalography (EEG) multi-sensor
Electrophysiological measurements of cerebral activity will be performed by multi-sensor electroencephalography (EEG), which is a non-invasive method.
Magnetoencephalography (MEG)
Electrophysiological measurements of brain activity will be performed by magnetoencephalography (MEG) which is a non-invasive method.
Behavioral Measures
The evaluation of cognitive performance will be carried out by means of behavioral measures, push-button type, handling of a mouse or a joystick.
Reaction time measurement
The assessment of cognitive performance will be carried out using standard behavioral measures, such as reaction time measurement.
Assessment of physical performance
The assessment of physical performance will be based both on bioenergetic measurements and on quantitative data collected in continuous and relative to the effort (eg instantaneous pedaling speed).
Electrooculogram (EOG)
In order to extract artifacts and verify the physical performances of the subjects, under the conditions of physical fatigability, peripheral electrophysiological recordings will be necessary and complementary to meet the objectives set in this study.
Electromyogram (EMG)
In order to extract artifacts and verify the physical performances of the subjects, under the conditions of physical fatigability, peripheral electrophysiological recordings will be necessary and complementary to meet the objectives set in this study.
Electrocardiogram with 3 leads
In order to extract artifacts and verify the physical performances of the subjects, under the conditions of physical fatigability, peripheral electrophysiological recordings will be necessary and complementary to meet the objectives set in this study.
Electrodermogram (EDG)
In order to extract artifacts and verify the physical performances of the subjects, under the conditions of physical fatigability, peripheral electrophysiological recordings will be necessary and complementary to meet the objectives set in this study.
Consumption of O2 (VO2)
In order to extract artifacts and verify the physical performances of the subjects, under the conditions of physical fatigability, peripheral electrophysiological recordings will be necessary and complementary to meet the objectives set in this study.
Production of CO2 (VCO2)
In order to extract artifacts and verify the physical performances of the subjects, under the conditions of physical fatigability, peripheral electrophysiological recordings will be necessary and complementary to meet the objectives set in this study.
Eligibility Criteria
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Inclusion Criteria
* Having duly completed the entire confidential medical questionnaire;
* Written consent of free, informed and express participation;
* No hearing problems;
* Having normal or corrected vision;
* Affiliation to a Social Security scheme.
* Adult subjects, male or female, right-handed or left-handed, from 18 years up to 35 years;
* Practicing at least five hours of sports per week;
* Presenting a certificate of no contraindication to an exercise test, intense sports practice or an energy sport in competition of the current year;
* Having duly completed the entire confidential medical questionnaire;
* Without cardiovascular or motor disability;
* Without tumoral, inflammatory, cardiac, pulmonary, renal, digestive (malabsorption syndrome) or liver disease;
* Written consent of free, informed and express participation;
* Affiliation to a Social Security scheme.
Exclusion Criteria
* Persons under guardianship, curatorship or any other administrative or judicial measure of deprivation of liberty or of liberty
* Persons protected by the law
* Persons who have performed a maximum stress test within 15 days of the date of inclusion,
* In the course of drug treatments against indicated for the protocol (treatment for neurological diseases, psychiatric ...).
* Metal implants incompatible with MRI (for the subjects concerned, see appendices)
* Metallic implants incompatible with the MEG (for the subjects concerned, see appendices)
18 Years
70 Years
ALL
Yes
Sponsors
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Hospices Civils de Lyon
OTHER
Responsible Party
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Principal Investigators
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Julien JUNG, MD
Role: PRINCIPAL_INVESTIGATOR
Hospices Civils de Lyon
Locations
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Hospices Civils de Lyon, HFME
Bron, , France
Countries
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References
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Luc Poinsard, Christian Berthomier, Michel Clémençon, Marie Brandewinder, Slim Essid, Cécilia Damon, François Rigaud, Alexis Bénichoux, Emmanuel Maby, Lesly Fornoni, Patrick Bouchet, Pascal Van Beers, Bertrand Massot, Patrice Revol, Thomas Creveaux, Christian Collet, Jérémie Mattout, Vincent Pialoux and Véronique Billat. EEG-Metabolic Coupling and Time Limit at VO2max During Constant-Load Exercise. Journal of Functional Morphology and Kinesiology. 2025, 10, 369.
Véronique Billat, Christian Berthomier, Michel Clémençon, Marie Brandewinder, Slim Essid, Cécilia Damon, François Rigaud, Alexis Bénichoux, Emmanuel Maby, Lesly Fornoni, Patrick Bouchet , Pascal Van Beers, Bertrand Massot, Patrice Revol, Luc Poinsard, Thomas Creveaux, Christian Collet, Jérémie Mattout and Vincent Pialoux. Electroencephalography Response during an Incremental Test According to the VO2max Plateau Incidence. Applied Sciences. 2024, 14, 5411.
Seguin P, Maby E, Fouillen M, Otman A, Luaute J, Giraux P, Morlet D, Mattout J. The challenge of controlling an auditory BCI in the case of severe motor disability. J Neuroeng Rehabil. 2024 Jan 18;21(1):9. doi: 10.1186/s12984-023-01289-3.
Other Identifiers
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69HCL16_0661
Identifier Type: -
Identifier Source: org_study_id
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