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Query: UMLS:C0038379 (strabismus)
 9,317 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It has recently been reported that exogenous supply of nerve growth factor prevents the effects of monocular deprivation both in rats and in cats. Here we have extended these experiments to the case of strabismus. Repeated intraventricular injections of nerve growth factor were performed in rats made surgically strabismic early in the critical period. At the end of the critical period the ocular dominance distribution of visual cortical neurons was assessed in strabismic untreated, strabismic nerve growth factor-treated and strabismic Cytochrome C-treated (control) rats by means of extracellular recordings. We found that in rats surgical strabismus causes a consistent loss of binocular neurons. By contrast the treatment with nerve growth factor maintains the normal ocular dominance distribution of neurons in the primary visual cortex. We conclude that nerve growth factor exogenously supplied prevents the effects induced by surgical strabismus in rats and suggest that nerve growth factor has a role in visual cortical plasticity.
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PMID:Exogenous supply of nerve growth factor prevents the effects of strabismus in the rat. 133 36

We present a series of 12 consecutive cases of optic nerve hypoplasia. Eight of these were unassociated with significant CNS malformations; of these, two had tomographic evidence of cerebral atrophy. This represents the first adequately documented cases of isolated cerebral atrophy associated with optic nerve hypoplasia. We discuss the increasing prevalence and marked variability of optic nerve hypoplasia, note the lack of clear distinction between primary failure of differentiation and secondary degeneration of optic pathways, and mention the inadequacy of the classic explanation of primary failure of ganglion cell development as the cause of hypoplastic nerves. The cause of cerebral atrophy are mentioned, and we hypothesize that the wide range of CNS insults resulting in atrophy may be responsible for a correspondingly wide range of abnormalities of the optic nerves. We speculate that cerebral atrophy may result in an inadequate cortical mass for induction of normal optic nerve growth, possibly by decreased retrograde axoplasmic flow and insufficient nerve growth factor. We encourage a complete neurologic evaluation, including CAT scan of the brain, in children with optic nerve hypoplasia.
J Pediatr Ophthalmol Strabismus
PMID:Bilateral optic nerve hypoplasia associated with cerebral atrophy. 733 43

The physiological role of nerve growth factor (NGF), the prototype member of the neurotrophin family, has been widely studied. NGF has been shown to promote survival, sprouting and differentiation of sympathetic ganglion cells and sensory neurons in the peripheral nervous system; it has also been shown to support survival and regeneration of cholinergic neurons in the central nervous system. Recent evidence indicates that NGF is also involved in the neuronal plasticity of the visual cortex. Exogenous supplies of NGF have been shown to interfere with normal processes underlying activity- and age-dependent synaptic modifications in both developing and adult visual cortex. In parallel to these physiological effects, numerous neuronal markers in the visual cortex have been found to be influenced by NGF. Several proposals have been introduced to explain the physiological role of NGF in visual cortex plasticity. Although the mechanisms underlying NGF effects in the visual cortex are still under active investigation, current evidence implies that NGF, and perhaps other neurotrophins as well, may be useful for preventing or correcting inappropriate or anomalous connections in the visual cortex, and thus for treating visual dysfunctions such as amblyopia and strabismus.
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PMID:Involvement of nerve growth factor in visual cortex plasticity. 884 73