Eye Movements Recording Using a Smartphone: Comparison to Standard Video-oculography and Correlation to Imaging Data in Young Athletes
Study Details
Study Description
Brief Summary
This study aims to compare measurements obtained through the e-VOG application (mobile application, usable on smartphones or tablets, to record eye movements) with measurements from the standard video-oculography device (Eye-Tracker®T2), in young athletes. This study also aims to correlate these measurements with volumetric data from cerebral imaging (if MRI done in routine care at the same period, more or less 1 month).
| Condition or Disease | Intervention/Treatment | Phase |
|---|---|---|
|
Detailed Description
e-VOG Young athletes is a collaborative study between the Memory Center of the Rainier III Center (Princess Grace Hospital, Monaco), the Neurology Department of Nice University Hospital (France), and the AS Monaco Football Academy medical team.
Memory Center of the Rainier III Center is expert in eye-tracking and is equipped with a standard video-oculography device (Eye-Tracker®T2), which records eye movements at a high frequency and measures saccades parameters (latency, speed, amplitudes etc...).
e-VOG is a mobile application, home-developed by the Neurology Department team of Nice University Hospital, to measure eye movements.
In the continuity of the e-VOG(YA) study (NCT05211752), we set-up study named e-VOG-Young Athletes-Extension. This study will increase the number of assessments carried out (standard video-oculography assessment versus e-VOG digital assessment) in a population of athletes without major health problems, and who have not presented concussion, in order to meet more powerfully the main objective of the e-VOG(YA) study. It will also make it possible to observe whether there is a correlation between disturbed oculomotor movements, oculomotor anomalies and volumetric data measured by cerebral MRI (obtained using automatic segmentation software on cerebral regions specifically involved in the eye movement control).
Study Design
Arms and Interventions
| Arm | Intervention/Treatment |
|---|---|
| Healthy young athletes (Eye-Tracker®T2 + e-VOG) Subjects who first perform standard video-oculography assessment, followed by e-VOG digital assessment. |
Other: eVOG (Mobile VideoOculoGraphy)
Eyes movements assessed with e-VOG (mobile application developed on an iPad, that uses the face detection features of the front camera to detect and record eye movements).
Study duration is about 20 minutes, the day the subject performs his standard video-oculography examination in routine care (using Eye-Tracker®T2)
|
| Healthy young athletes (e-VOG + Eye-Tracker®T2) Subjects who first perform e-VOG digital assessment, followed by the standard video-oculography assessment. |
Other: eVOG (Mobile VideoOculoGraphy)
Eyes movements assessed with e-VOG (mobile application developed on an iPad, that uses the face detection features of the front camera to detect and record eye movements).
Study duration is about 20 minutes, the day the subject performs his standard video-oculography examination in routine care (using Eye-Tracker®T2)
|
Outcome Measures
Primary Outcome Measures
- Oculomotor profiles concordance [Day 0]
Analyze of the concordance of the profiles obtained between the e-VOG digital assessment and the standard video-oculography assessment. Evaluation criteria: For each assessment, patients will be classified according to the number of oculomotor abnormality observed (based on identified parameters assessments: latency / speed / gain / altered ocular pursuits / fixation disorders / presence of internuclear ophthalmoplegia), in accordance with the literature standards
Secondary Outcome Measures
- Latency during horizontal reflex saccades [Day 0]
Measure of Latency during an horizontal reflex saccades paradigm with e-VOG Compared to the one performed with standard video-oculography device. Evaluation criteria: latency (reaction time in ms).
- Latency during vertical reflex saccades [Day 0]
Measure of Latency during a vertical reflex saccades paradigm with e-VOG Compared to the one performed with standard video-oculography device. Evaluation criteria: latency (reaction time in ms).
- Latency during horizontal voluntary saccades [Day 0]
Measure of Latency during an horizontal volontary saccades paradigm with e-VOG Compared to the one performed with standard video-oculography device. Evaluation criteria: latency (reaction time in ms).
- Velocity during horizontal reflex saccades [Day 0]
Measure of Velocity during an horizontal reflex saccades paradigm with e-VOG Compared to the one performed with standard video-oculography device. Evaluation criteria: velocity (mean and peak velocity) in °/s.
- Velocity during vertical reflex saccades [Day 0]
Measure of Velocity during a vertical reflex saccades paradigm with e-VOG Compared to the one performed with standard video-oculography device. Evaluation criteria: velocity (mean and peak velocity) in °/s.
- Inhibition capacity [Day 0]
Measure of inhibition capacity performance during an antisaccades" paradigm with e-VOG Compared to the one evaluated with standard video-oculography device. Evaluation criteria: percentage of errors.
- Internuclear ophthalmoplegia (INO) detection [Day 0]
Highlight presence/absence of INO with e-VOG Compared to standard video-oculography device. Evaluation criteria: INO is present if calculated ratio of abducting to adducting eye movement (both mean and peak velocity) is >1.
- Fixations impairments detection [Day 0]
Highlight presence/absence of Fixations impairments with e-VOG Compared to standard video-oculography device. Evaluation criteria: presence/absence/frequency of square wave-jerks, nystagmus, flutters.
- Impairment of horizontal smooth pursuit [Day 0]
Highlight Impairment of horizontal smooth pursuit with e-VOG Compared to standard video-oculography device. Evaluation criteria: presence/absence of saccade and perturbation.
- Impairment of vertical smooth pursuit [Day 0]
Highlight Impairment of horizontal smooth pursuit with e-VOG Compared to standard video-oculography device. Evaluation criteria: presence/absence of saccade and perturbation.
- Imaging data correlation: Total brain volume [Day 0]
Analyze if there are correlation between oculomotor abnormalities and volumetric data measured by brain MRI. Evaluation criteria: Total brain volume (Data from cerebellar MRI performed in routine care, obtained using automatic segmentation software).
- Imaging data correlation: Frontal Lobe Volume [Day 0]
Analyze if there are correlation between oculomotor abnormalities and volumetric data measured by brain MRI. Evaluation criteria: Frontal Lobe Volume (Data from cerebellar MRI performed in routine care, obtained using automatic segmentation software).
- Imaging data correlation: Parietal Lobe Volume [Day 0]
Analyze if there are correlation between oculomotor abnormalities and volumetric data measured by brain MRI. Evaluation criteria: Parietal Lobe Volume (Data from cerebellar MRI performed in routine care, obtained using automatic segmentation software).
- Imaging data correlation: Volume of additional motor areas [Day 0]
Analyze if there are correlation between oculomotor abnormalities and volumetric data measured by brain MRI. Evaluation criteria: Volume of additional motor areas (Data from cerebellar MRI performed in routine care, obtained using automatic segmentation software).
- Imaging data correlation: Basal ganglia volume [Day 0]
Analyze if there are correlation between oculomotor abnormalities and volumetric data measured by brain MRI. Evaluation criteria: Basal ganglia volume (Data from cerebellar MRI performed in routine care, obtained using automatic segmentation software).
- Imaging data correlation: Total thalamic volume [Day 0]
Analyze if there are correlation between oculomotor abnormalities and volumetric data measured by brain MRI. Evaluation criteria: Total thalamic volume (Data from cerebellar MRI performed in routine care, obtained using automatic segmentation software).
- Imaging data correlation: cerebellar volume [Day 0]
Analyze if there are correlation between oculomotor abnormalities and volumetric data measured by brain MRI. Evaluation criteria: Cerebellar volume (Data from cerebellar MRI performed in routine care, obtained using automatic segmentation software).
Eligibility Criteria
Criteria
Inclusion Criteria:
-
Young Athletes from AS Monaco Academy
-
referred by AS Monaco Medical Team to perform a video-oculography (Eye-Tracking) examination as part of routine care.
-
covered by a health insurance system
-
volunteer, able to give free, informed and written consent.
Exclusion Criteria:
-
General anaesthesia within 3 months.
-
Head trauma within 3 months
-
Neurological, ophthalmological or general pathology preventing the realization of a video-oculography examination.
-
Oculomotor abnormality detectable on clinical examination by the neurologist prescribing the standard video-oculography examination.
Contacts and Locations
Locations
| Site | City | State | Country | Postal Code | |
|---|---|---|---|---|---|
| 1 | Centre Mémoire / Centre de Gérontologie Clinique Rainier III / Princess Grace Hospital | Monaco | Monaco | 98000 |
Sponsors and Collaborators
- Association de Recherche Bibliographique pour les Neurosciences
- Centre Hospitalier Princesse Grace
- Centre Hospitalier Universitaire de Nice
- Association Sportive Monaco Football Club
Investigators
- Principal Investigator: Mikael COHEN, MD, Centre de Ressources et de Compétences SEP, UMRC Pasteur 2, Université Nice Côte d'Azur, Nice-France
- Principal Investigator: Sandrine LOUCHART DE LA CHAPELLE, MD-PHD, Centre Mémoire, Centre de Gérontologie Clinique RAINIER III, Princess Grace Hospital, Monaco
- Study Director: Alain PESCE, MD-PHD, AREBISN (Association de Recherche Bibliographique pour les Neurosciences), Nice (France)
Study Documents (Full-Text)
None provided.More Information
Publications
None provided.- e-VOG-Young Athletes-Extension