Keating Mj scite author profile

SUMMARYThere were two primary aims of this study. First, to observe if the map of auditory space in the superior colliculus (SC) of the guinea-pig could recover after periods of normal visual experience following visual deprivation during the crucial period. Second, to determine whether any degradation of the space map was observed when the animal was visually deprived for different lengths of time after the crucial period. Animals deprived of visual experience during the crucial period and then allowed normal experience did show a limited ability to construct a SC auditory space map. Whereas visual deprivation following normal auditory and visual experience during the crucial period caused a profound degradation, of both spatial tuning and topography, of auditory receptive fields in the SC. Additional data indicate that the SC auditory space map remains vulnerable to visual deprivation until at least 100 days after birth.

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The relationship between retinal and tectal growth in larvalXenopus:implications for the development of the retino-tectal projection

Östberg

et al. 1979

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The modes of retinal and tectal histogenesis, as well as the patterns of terminal distribution of optic axons in larval Xenopus were studied, using anatomical techniques. We show that the retina grows by adding strips of cells at its ciliary margin. The pattern of retinal growth is asymmetrical along the dorso-ventral axis of the retina. On the other hand, the ectum grows by adding newly formed cells caudo-medially. The most rapid tectal growth takes place between stages 50 and 53, and thereafter only a small proportion of cells are added near the midline of the caudal tectum. Despite such incongruent modes of retinal and tectal growth, retinotopic order is maintained throughout larval life. We present here further evidence supporting the idea that connexions between the arrays of retinal and tectal cells shift progressively caudo-medially on the tectum during the period of growth. When the temporal pole of the retina is destroyed at various developmental stages, the density of degenerating synapses is always highest in the rostral pole of the tectum. Moreover, optic terminals stemming from the central retina spread caudally, invading newly maturing regions of the tectum. Quantitative analysis of the terminal distributions of optic axons suggest that orderly shifts in synaptic contacts between optic axons and tectal dendrites take place in the course of development. Ultrastructural observations on the maturing tectal neuropil are consistent with this view.

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Keating Mj

The Role of Visual Function in the Patterning of Binocular Visual Connexions

Post‐crucial period effects of visual experience and deprivation on the guinea‐pig superior collicular map of auditory space

The relationship between retinal and tectal growth in larvalXenopus:implications for the development of the retino-tectal projection

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