Postnatal development of neurons and synapses in the visual and motor cortex of rabbits: A quantitative light and electron microscopic study

Abstract Introductory to a morphological investigation on the effects of early visual deprivation and on the critical periods in early postnatal life we have studied quantitatively the normal postnatal growth of neurons and synapses in the visual and motor cortex of rabbits. The major results of this analytical study are: (1) rapid decrease in neuron density and a rapid increase in neuronal volume are observed. They are almost completed at postnatal Day 10, i.e., before natural eye opening. The drop in neuron density is caused to a very large extent by an increase in cortical volume and not by a considerable disappearance of neurons; (2) the formation of synaptic contact zones starts at Day 6 to 7 and is most pronounced between Day 10 and Day 21, i.e., after natural eye opening. At Day 27 synaptic density has reached adult levels in the visual cortex and is in excess of the adult level in the motor cortex. In visual area I and in the motor cortex a significant difference in synaptic increase is observed between the left and right hemisphere, resulting in a lower synaptic density in the left counterparts at Day 27 and in adult animals [56,57]. In the visual cortex a small but highly correlated increase in synaptic vesicle density is observed. In the motor cortex no correlated relation between age and vesicle density is observed. In both cortical areas synaptic vesicle density has reached about 70 percent of the adult level at Day 27; and (3) in newborn and young rabbits the motor cortex seems to be more mature than the visual cortex.

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