Abstract

The proposed studies seek to understand how cortical and midbrain centers interact in mediating visually guided behaviors and how this interaction may be important for our ability to restore visual capacities in the cortically blind animal. The ability of an animal to detect and orient towards a novel stimulus (the """"""""orienting response') is permanently lost in the blind hemifield opposite to a large cortical lesion. Destruction of the crossed subcortical pathway from the substantia nigra """"""""critical zone"""""""" to the superior colliculus results in a rapid recovery of the orienting response in the previously blind hemifield. We propose: 1) to study the origin of the pathways that produce the recovery as they course through the commissure of the superior colliculus; 2) to study the input and output connections of that zone of the substantia nigra responsible for the recovery; 3) to test the hypothesis that the ipsilateral substantia nigra also may play a role in visual recovery; 4) to learn if pharmacological agents applied to the substantia nigra or superior colliculus will produce either a recovery or loss of visual orienting, and 5) to learn why neurotoxin lesions of one superior colliculus produce an enduring loss of vision that appears indistinguishable from cortical blindness. It is now clear that the visual cortex is neither necessary nor sufficient for visual orientation behavior in the cat. It is also clear in all species thus far studied that the substantia nigra, pars reticulata exerts a powerful inhibitory effect on cells in the deeper layers of the superior colliculus which function to mediate visuomotor behaviors such as the orienting response. Our ability to produce or eliminate a hemifield blindness or neglect by activation or inactivation of this and related subcortical circuits point to their importance in normal vision and may lead to therapeutic interventions in humans suffering from syndromes of sensory loss or neglect, e.g. cortical blindness. Finally, this work adds to our recent appreciation that the nigrotectal connection is a major output pathway by which the basal ganglia control sensorimotor functions.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Eye Institute (NEI)
Type
Research Project (R01)
Project #
2R01EY002654-14
Application #
3256974
Study Section
Visual Sciences B Study Section (VISB)
Project Start
1978-09-01
Project End
1996-11-30
Budget Start
1991-12-06
Budget End
1992-11-30
Support Year
14
Fiscal Year
1992
Total Cost
Indirect Cost

  Institution

Name
University of Pennsylvania
Department
Type
Schools of Medicine
DUNS #
042250712
City
Philadelphia
State
PA
Country
United States
Zip Code
19104

  Publications

Fitzmaurice, Marnie C; Ciaramitaro, Vivian M; Palmer, Larry A et al. (2003) Visual detection deficits following inactivation of the superior colliculus in the cat. Vis Neurosci 20:687-701
Durmer, J S; Rosenquist, A C (2001) Ibotenic acid lesions in the pedunculopontine region result in recovery of visual orienting in the hemianopic cat. Neuroscience 106:765-81
Ciaramitaro, V M; Wallace, S F; Rosenquist, A C (1997) Ibotenic acid lesions of the substantia nigra pars reticulata ipsilateral to a visual cortical lesion fail to restore visual orienting responses in the cat. J Comp Neurol 377:596-610
Ciaramitaro, V M; Todd, W E; Rosenquist, A C (1997) Disinhibition of the superior colliculus restores orienting to visual stimuli in the hemianopic field of the cat. J Comp Neurol 387:568-87
Crino, P B; Galetta, S L; Sater, R A et al. (1996) Clinicopathologic study of paraneoplastic brainstem encephalitis and ophthalmoparesis. J Neuroophthalmol 16:44-8
Sprague, J M (1996) Neural mechanisms of visual orienting responses. Prog Brain Res 112:1-15
De Weerd, P; Sprague, J M; Vandenbussche, E et al. (1994) Two stages in visual texture segregation: a lesion study in the cat. J Neurosci 14:929-48
Lexa, F J; Grossman, R I; Rosenquist, A C (1994) Dyke Award paper. MR of wallerian degeneration in the feline visual system: characterization by magnetization transfer rate with histopathologic correlation. AJNR Am J Neuroradiol 15:201-12
Sprague, J M; De Weerd, P; Vandenbussche, E et al. (1993) Orientation discrimination in the cat and its cortical loci. Prog Brain Res 95:381-400
De Weerd, P; Sprague, J M; Raiguel, S et al. (1993) Effects of visual cortex lesions on orientation discrimination of illusory contours in the cat. Eur J Neurosci 5:1695-710

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