Developmental onset of functional activity in the wallaby whisker cortex in response to stimulation of the infraorbital nerve
Date
2002
Authors
Mark, R F
Flett, D
Marotte, Lauren
Waite, P M E
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Publisher
Carfax Publishing, Taylor & Francis Group
Abstract
This study used the extrauterine development of a marsupial wallaby to investigate the onset of functional activity in the somatosensory pathway from the whiskers. In vivo recordings were made from the somatosensory cortex from postnatal day (P) 55 to P138, in response to electrical stimulation of the infraorbital nerve supplying the mystacial whiskers. Current source density analysis was used to localize the responses within the cortical depth. This was correlated with development of cortical lamination and the onset of whisker-related patches, as revealed by cytochrome oxidase. The earliest evoked activity occurred at P61, when layers 5 and 6 are present, but layer 4 has not yet developed. This activity showed no polarity reversal with depth, suggesting activity in thalamocortical afferents. By P72 synaptic responses were detected in developing layer 4 and cytochrome oxidase showed the first hint of segregation into whisker-related patches. These patches were clear by P86. The evoked response at this age showed synaptic activity first in layer 4 and then in deep layer 5/upper layer 6. With maturity, responses became longer lasting with a complex sequence of synaptic activity at different cortical depths. The onset of functional activity is coincident with development of layer 4 and the onset of whisker-related pattern formation. A similar coincidence is seen in the rat, despite the markedly different chronological timetable, suggesting similar developmental mechanisms may operate in both species.
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Keywords
Keywords: cytochrome c oxidase; animal experiment; animal tissue; article; development; electrostimulation; evoked response; histochemistry; infraorbital nerve; kangaroo; nerve stimulation; newborn; nonhuman; priority journal; somatosensory cortex; vibrissa; Aging; Barrel; Evoked potential; Marsupial; Somatosensory; Trigeminal; Vibrissae
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Source
Somatosensory and Motor Research
Type
Journal article
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DOI
10.1080/0899022021000009116