Eye Movements and Visuo-spatial Perception

Cerebellum Disease Clinical Trial

Official title:

Coupling Between Adaptation of Saccadic Eye Movements and Visuo-spatial Perception and Attention Processes: a Behavioural Study in Humans.

Clinical Trial Details — Status: Completed

Administrative data

• NCT number: NCT03112408
• Other study ID #: 69HCL17_0109
• Secondary ID: 2017-A00942-51
• Status: Completed
• Phase: N/A
• Start date: September 26, 2018
• Est. completion date: October 2, 2020

Study information

• Verified date: April 2022
• Source: Hospices Civils de Lyon
• Contact: n/a
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

This research aims to highlight the key roles of the cerebellar and cortical fronto-parietal networks in the coupling of eye movements with visual perception and visuo-spatial attention.

Description:

The first axe of this research focuses on the role of the cerebellum which has a major contribution to sensorimotor adaptation and more precisely in saccadic adaptation but the nature of this contribution is still debated. A classical assumption stipulates cerebellum has an exclusive action on saccadic burst generator in the brainstem whereas recent data increasingly support the view that cerebellum could also modulates cerebral cortex through a cerebello-thalamo-cortical pathway. On the other hand, several studies have shown that modification of saccade amplitude by saccadic adaptation leads to a distortion of the visual localization of briefly flashed spatial probes but no study to date has tested, the contribution of the cerebellum in these adaptation-induced mislocalizations. The main objective of this axe is to define the role of the cerebellum not only in saccadic adaptation, but also in mislocalizations which occur after adaptation. Moreover, in testing this assumption, arguments in favour -or in disfavor- of the action of the cerebellum on cortical stages dedicated to visuo-spatial perceptual processing will be provided. Besides, variability of cerebellar lesion (or cerebellar dysfunction) location in patients can lead to different pattern in saccadic adaptation and localization task performances. Identification of dissociations between these two abilities in some patients will define more precisely the role of the cerebellum in the coupling between saccadic adaptation and visuo spatial perception as an oculomotor plasticity territory and / or as a territory underlying the error signal coding generating this type of plasticity. This second axe of this research aims to apply basic findings in healthy subject on the coupling between oculomotor plasticity and spatial attention to patients with parietal lesion, in order to evaluate a rehabilitation procedure for neglect patients. Habchi and colleagues showed that the adaptation of reactive saccades in the left hemifield has a boosting effect on attentional performance in the same hemifield. The coupling between these two mechanisms highlighted in healthy subjects can be used as fundamentals in the elaboration of a rehabilitation procedure for attentional disorders in the neglect syndrome. This syndrome is mainly observed after cerebral lesions in the right hemisphere, and is characterized by very disabling cognitive disorders such as an alteration of the spatial representation of left hemi-space and/or left hemi-body. stimulation of sensorimotor plasticity thanks to prismatic adaptation could be used as a rehabilitation procedure for this syndrome. Being another efficient way to stimulate sensorimotor plasticity, the equip believe that saccadic adaptation can also be used as a rehabilitation procedure for neglect patients. Moreover, due to its tight coupling with visual attention, the benefits of saccadic adaptation could be even stronger and longer lasting than the visuo-manual plasticity induced by prismatic adaptation.

Recruitment information / eligibility

• Status: Completed
• Enrollment: 24
• Est. completion date: October 2, 2020
• Est. primary completion date: October 2, 2020
• Accepts healthy volunteers: Accepts Healthy Volunteers
• Gender: All
• Age group: 18 Years to 80 Years

Eligibility

Inclusion Criteria:

• Age : from 18 to 80 ans included
• Visual acuity monocularly at distance and near corrected : > 5/10
• Possible understanding of experimental guidelines
• Possible respect for sustained seated position
• Subject covered by social security
• Agreement of the subject

Inclusion Criteria, specific to Axe 1:

• Cerebellar patients - Cerebellar degenerative disease (group A) or stroke (group B, délai depuis l'AVC : delay from the stroke : at least 1 month)
• Scanner or MRI showing diffuse atrophy (group A) or focal cerebellar lesion (group B)
• Healthy subjects
• Absence of known ophtalmological or neurological pathology

Inclusion Criteria, specific to Axe 2:

• Stroke patients - ischemic or hemorrhagic stroke
• Encephalic MRI or CT scan showing an unique lesion
• Minimal delay of one year after the stroke

Exclusion Criteria:

• Visual acuity monocularly < 5/10
• Language disorder restricting oral and reading comprehension of the study
• Severe disability limiting the maintenance of sitting position and concentration capacities for a period of 30 minutes consecutive
• Poor French language skills
• Non-stabilized medical condition
• Psychotropic medication intake
• Pregnant and / or nursing women
• Subject under guardianship or curatorship
• Subject frequently in healthcare or social care for purposes other than research
• Subject deprived of liberty by a judicial or administrative decision

Exclusion Criteria, specific to Axe 1:

• Cerebellar patients
• Disorders prohibiting the correct performance of the task (tremor, ocular instability)

Exclusion Criteria, specific to Axe 2:

• Stroke patients
• Hemianopsia homonima lateral
• Neurological degenerative disease

Related Conditions & MeSH terms

• Cerebellar Diseases
• Cerebellum Disease

Intervention

Behavioral:
• Forward adaptation of reactive saccades
Protocol of reactive saccade where the target is displaced in the same direction as the saccade in order to induce an adaptive increase of saccade amplitude ('forward adaptation')
• Backward adaptation of reactive saccades
Protocol of reactive saccade where the target is displaced in a direction opposite to the saccade in order to induce an adaptive decrease of saccade amplitude ('backward adaptation')
• Execution of reactive saccades
Control protocol of reactive saccade with no displacement of the saccadic target (controlling for non specific factors possibly involved in forward and backward adaptation conditions)
• Generation of reactive saccades
Control protocol of reactive saccade with no displacement of the saccadic target (controlling for non specific factors possibly involved in adaptation condition)

Locations

Country	Name	City	State
France	Hospices Civils de Lyon	Bron

Sponsors (1)

Lead Sponsor	Collaborator
Hospices Civils de Lyon

Country where clinical trial is conducted

France, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	Saccadic adaptation efficiency	?Adaptation?_rate= (?Amplitude ?_post-?Amplitude ?_pre)/?Amplitude ?_pre	At time of each experimental session, up to 2 months, since first experimental visit until last visit
Secondary	Evolution of localization-task performances	?Improvement?_performances= (?Mislocalization ?_post-?Mislocalization ?_pre)/?Mislocalization ?_pre	At time of each experimental session, up to 2 months, since first experimental visit until last visit
Secondary	Evolution of attentional performances assessed by neuropsychological tests of neglect	?Improvement?_performances= (?Score ?_post-?Score?_pre)/?Score?_pre	At time of each experimental session, up to 2 months, since first experimental visit until last visit