Strabismus is a disease that develops in 1-2% of children, affecting many for the rest of their lives. It is characterized by misalignment of the eyes. The crucial point is that the ocular misalignment usually occurs without any abnormality of the cranial nerves or intrinsic disorder of the eyes. The primary culprit is a failure of the neural mechanisms responsible for maintaining binocular fusion. The goal of this project is to elucidate the defects in brain function responsible for strabismus. Children with strabismus avoid seeing two images by using visual suppression, at the cost of stereovision. If the suppression remains constant in one eye, rather than alternating between the eyes, they may also develop amblyopia. Visual suppression is a critical factor in the development of strabismus, because it eliminates the drive to compensate by fusing separate images. It is unknown how visual suppression occurs, or even where signals from the deviated eye are blocked in the visual pathway. The first specific aim in this grant is to map the visual fields in a large population of human subjects with common forms of strabismus: infantile esotropia, accommodative esotropia, and exotropia. The testing will be done under dichoptic conditions, by presenting different colored images to each eye of subjects wearing colored filters. These experiments will reveal which portions of the visual field are perceived by each eye. The second specific aim is to map dichoptic visual fields in macaques raised with strabismus. The macaque is extremely similar to the human in the organization and function of its visual system.
This aim will determine if macaques with strabismus exhibit suppression scotomas similar to those in humans. The advantage of pursuing experiments in nonhuman primates is that one can perform microelectrode studies in the visual cortex to probe the neural basis of visual suppression. The third specific aim is to undertake electrophysiological recordings in awake, strabismic macaques while they are looking with both eyes at visual stimuli, to learn how binocular interactions at the level of single cells give rise to suppression scotomas. Recordings will be made in different regions of the primary visual cortex (V1) in both hemispheres, to correlate single cell recordings with previously mapped suppression scotomas. The fourth specific aim is to examine the pattern of metabolic activity in V1 of macaques with strabismus. Inputs serving each eye are organized into alternating bands called ocular dominance columns. Strabismus induces abnormal staining patterns of the mitochondrial enzyme, cytochrome oxidase (CO), in ocular dominance columns. The pattern of CO activity throughout each V1 will be documented and compared with the pattern of suppression in the visual field mapped behaviorally. If there is a match, it will establish that suppression is mediated by a reduction of activity in columns of cells serving the non-perceiving eye within a suppression scotoma.
| Economides, John R; Rapone, Brittany C; Adams, Daniel L et al. (2018) Normal Topography and Binocularity of the Superior Colliculus in Strabismus. J Neurosci 38:173-182 |
| Horton, Jonathan C; Barkovich, A James (2017) Bilateral Optic Disc Pits With Posterior Pituitary Ectopia. J Neuroophthalmol 37:401-402 |
| Horton, Jonathan C (2017) Invited Commentary: Ganglion Cell Complex Measurement in Compressive Optic Neuropathy. J Neuroophthalmol 37:13-15 |
| Adams, Daniel L; Economides, John R; Horton, Jonathan C (2016) Cortical Representation of a Myopic Peripapillary Crescent. Ophthalmology 123:1494-9 |
| Economides, John R; Adams, Daniel L; Horton, Jonathan C (2016) Variability of Ocular Deviation in Strabismus. JAMA Ophthalmol 134:63-9 |
| Horton, Jonathan C; Miller, Steven (2015) Magnetic Resonance Imaging in Epidemic Adenoviral Keratoconjunctivitis. JAMA Ophthalmol 133:960-1 |
| Adams, Daniel L; Economides, John R; Horton, Jonathan C (2015) Contrasting effects of strabismic amblyopia on metabolic activity in superficial and deep layers of striate cortex. J Neurophysiol 113:3337-44 |
| Adams, Daniel L; Piserchia, Valentina; Economides, John R et al. (2015) Vascular Supply of the Cerebral Cortex is Specialized for Cell Layers but Not Columns. Cereb Cortex 25:3673-81 |
| Adams, Daniel L; Economides, John R; Horton, Jonathan C (2015) Co-localization of glutamic acid decarboxylase and vesicular GABA transporter in cytochrome oxidase patches of macaque striate cortex. Vis Neurosci 32:E026 |
| Horton, Jonathan C; Parker, Alicia B; Botelho, James V et al. (2015) Spontaneous Regeneration of Human Photoreceptor Outer Segments. Sci Rep 5:12364 |
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