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Vision Loss Partial clinical trials

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NCT ID: NCT06352086 Not yet recruiting - Stroke, Ischemic Clinical Trials

Understanding Visual Processing After Occipital Stroke

Start date: September 2024
Phase:
Study type: Observational

The purpose of this study is to investigate how visual orientation discrimination and metacognition (i.e., perceptual confidence) are affected by occipital stroke that causes hemianopia and quadrantanopia in adults. This research will provide insight as to how the residual visual system, which not directly damaged by the occipital stroke, processes orientation (assayed in terms of orientation discrimination) and metacognition (by measuring perceptual confidence for orientation discrimination). These measures will be used to refine computational models that attempt to explain how the brain copes with loss of primary visual cortex (V1) as a result of stroke. This knowledge is essential to devise more effective visual rehabilitation therapies for patients suffering from occipital strokes.

NCT ID: NCT06121219 Active, not recruiting - Stroke, Ischemic Clinical Trials

Effect of Visual Retraining After Stroke

urochester
Start date: May 7, 2024
Phase: N/A
Study type: Interventional

This project is intended to collect data using standard clinical tests and psychophysics to quantify the effect of visual cortical damage on the structure of the residual visual system, visual perception, spatial awareness, and brain function. The investigators will also assess the effect of intensive visual retraining on the residual visual system, processing of visual information and the use of such information in real-world situations following damage. This research is intended to improve our understanding of the consequences of permanent visual system damage in humans, of methods that can be used to reverse visual loss, and of brain mechanisms by which visual recovery is achieved.

NCT ID: NCT06047717 Recruiting - Stroke, Ischemic Clinical Trials

Vision Loss Impact on Navigation in Virtual Reality

Start date: November 28, 2023
Phase: N/A
Study type: Interventional

The purpose of this research is to better understand the impact of cortically-induced blindness (CB) and the compensatory strategies subjects with this condition may develop on naturalistic behaviors, specifically, driving. Using a novel Virtual Reality (VR) program, the researchers will gather data on steering behavior in a variety of simulated naturalistic environments. Through the combined use of computer vision, deep learning, and gaze-contingent manipulations of the visual field, this work will test the central hypothesis that changes to visually guided steering behaviors in CB are a consequence of changes to the visual sampling and processing of task-related motion information (i.e., optic flow).

NCT ID: NCT05098236 Active, not recruiting - Stroke, Ischemic Clinical Trials

Effect of Visual Retraining on Visual Loss Following Visual Cortical Damage

Start date: September 26, 2003
Phase: N/A
Study type: Interventional

This project is intended to collect data using standard clinical tests and psychophysics to quantify the effect of visual cortical damage on the structure of the residual visual system, visual perception, spatial awareness, and brain function. The investigators will also assess the effect of intensive visual retraining on the residual visual system, processing of visual information and the use of such information in real-world situations following damage. This research is intended to improve our understanding of the consequences of permanent visual system damage in humans, of methods that can be used to reverse visual loss, and of brain mechanisms by which visual recovery is achieved.

NCT ID: NCT04798924 Recruiting - Stroke, Ischemic Clinical Trials

Visual Rehabilitation After Occipital Stroke

Start date: July 19, 2021
Phase: N/A
Study type: Interventional

This research aims to examine changes in plastic potential of the visual system with time from stroke affecting primary visual cortex. We will measure structural and mechanistic aspects of progressive degeneration along the early visual pathways, correlating them with changes in visual performance, and in responsiveness to visual restoration training. This project will advance both scientific knowledge, as well as technical capability and clinical practices for restoring vision and quality of life for people suffering from cortical blindness.

NCT ID: NCT03011541 Recruiting - Glaucoma Clinical Trials

Stem Cell Ophthalmology Treatment Study II

SCOTS2
Start date: January 2016
Phase: N/A
Study type: Interventional

This study will evaluate the use of autologous bone marrow derived stem cells (BMSC) for the treatment of retinal and optic nerve damage or disease.