Publications by authors named "H Bridge"
Damage to the primary visual cortex (V1) results in visual field deficits on the contralateral side of the world corresponding to the damaged region. Patients with such loss nonetheless show varying residual vision within this apparently blind region, with the neural mechanisms underlying this ability obscured by small study populations. We identified lesions on structural scans from 39 patients (12 female) with hemianopia and occipital lobe damage.
View Article and Find Full Text PDFCharles Bonnet syndrome (CBS) is a condition characterised by visual hallucinations of varying complexity on a background of vision loss. CBS research has gained popularity only in recent decades, despite evidence dating back to 1760. Knowledge of CBS among both the patient and professional populations unfortunately remains poor, and little is known of its underlying pathophysiology.
View Article and Find Full Text PDFDamage to the primary visual cortex causes homonymous visual impairments that appear to benefit from visual discrimination training. However, whether improvements persist without continued training remains to be determined and was the focus of the present study. After a baseline assessment visit, 20 participants trained twice daily in their blind-field for a minimum of six months (median=155 sessions), using a motion discrimination and integration task.
View Article and Find Full Text PDFArticle Synopsis
- Damage to the primary visual cortex leads to loss of vision in the opposite visual field, often resulting in homonymous visual field deficits.
- Visual training in areas of the blind field has shown potential to partially restore vision, but its effectiveness varies among individuals, possibly due to differences in residual neural circuitry after brain injuries.
- A study with 18 stroke survivors involved six months of motion discrimination training, where changes in white matter pathways were measured to determine if they related to improvements in visual function, particularly through the connection between the dorsal lateral geniculate nucleus and visual processing areas.