Identification of a critical period for motor development in neonatal rats

Manipulation of the developing nervous system has provided valuable insights into nervous system function. One important concept to arise from this type of study has been the identification of specific "critical periods" for the development of various functions. A critical period has been...

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Bibliographic Details
Published inNeuroscience Vol. 51; no. 4; p. 763
Main Authors Walton, K D, Lieberman, D, Llinás, A, Begin, M, Llinás, R R
Format Journal Article
LanguageEnglish
Published United States 01.12.1992
Subjects
Aging - psychology
Animals
Animals, Newborn - physiology
Critical Period (Psychology)
Gait - physiology
Movement - physiology
Nervous System - growth & development
Nervous System Physiological Phenomena
Rats
Swimming
Weightlessness
NASA Discipline Neuroscience
Non-NASA Center
Online AccessGet more information

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Summary:Manipulation of the developing nervous system has provided valuable insights into nervous system function. One important concept to arise from this type of study has been the identification of specific "critical periods" for the development of various functions. A critical period has been most clearly shown for the visual system where monocular eye closure for a few weeks led to functionally significant changes in visually guided behaviors and the connectivity of the visual cortex. Critical periods have also been defined for other sensory systems. Although studies of the effect of manipulating sensory systems during development are sometimes difficult to interpret (e.g. Ref. 7), this difficulty is compounded in the case of the motor system. Problems arise because manipulations of the postnatal motor system are difficult to implement and usually require invasive procedures such as tenotomy, neurotomy, and nerve crush (for review, see Ref. 17). We have approached the problem of manipulating the motor environment by adapting a paradigm widely used to study the experimental effects of simulated weightlessness in adult rats: namely, tail suspension. This method has several advantages for manipulating the motor system: (i) because it is noninvasive, it is less discomforting than neurotomy, tenotomy or nerve crush; (ii) it does not immobilize the animals, they move about the cage and extend and flex their hindlimbs; and (iii) it specifically examines the importance of load-bearing on the development of antigravity muscles and their neuronal circuits.
ISSN:0306-4522
DOI:10.1016/0306-4522(92)90517-6