1993
DOI: 10.1016/0378-3782(93)90209-d
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Environmental deprivation delays the maturation of motor pyramids during the early postnatal period

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Cited by 24 publications
(20 citation statements)
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References 31 publications
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“…The finding of neuronal MTB and LSO dendritic arbor alterations associated with neonatal undernutrition and ear binaural occlusion provided new information on the plastic cytoarchitectonic reorganization of the first synaptic relays of the auditory system. Regarding this, the present data agree with the results of other studies showing that visual and somatosensory cues deprivation decreases, while polysensorial stimulation increases the dendritic arborizations of neurons in motor pyramids [39], visual cortex [40,41], claustrum [42], amygdala [8], hippocampus [43], and medial superior olivary neurons [33]. Moreover, there is a sharp increase in the number of spines or dendritic branching after renutrition or ear and eye opening.…”
Section: Discussionsupporting
confidence: 82%
“…The finding of neuronal MTB and LSO dendritic arbor alterations associated with neonatal undernutrition and ear binaural occlusion provided new information on the plastic cytoarchitectonic reorganization of the first synaptic relays of the auditory system. Regarding this, the present data agree with the results of other studies showing that visual and somatosensory cues deprivation decreases, while polysensorial stimulation increases the dendritic arborizations of neurons in motor pyramids [39], visual cortex [40,41], claustrum [42], amygdala [8], hippocampus [43], and medial superior olivary neurons [33]. Moreover, there is a sharp increase in the number of spines or dendritic branching after renutrition or ear and eye opening.…”
Section: Discussionsupporting
confidence: 82%
“…Unfortunately, these procedures produce unexpected tactile stimulation and movement restriction of the lower face that may negatively affect the development of the sCPG (Comrie & Helm, 1997;Finan & Barlow, 1996). In animal models, the combination of sensory deprivation and motor restriction has been shown to disrupt development of key brain structures involved in sensorimotor control, including motor cortex and cerebellum (Pascual & Figueroa, 1996;Pascual et al, 1993;Pascual et al, 1998). This is consistent with the notion of a critical period during early postnatal life, when manipulations in trigeminal sensory systems may significantly alter the structure and function of the developing brain (Bosma, 1973).…”
Section: Introductionsupporting
confidence: 53%
“…Bosma (1973) suggested that "appropriate oral experiences may be critical in the final weeks of gestation, and that their interruption may impair fragile syntheses of central neural representations of these functions." The importance of experience in brain development and plasticity is highlighted by the resultant physiological and cortical structural changes that modify motor and sensory system circuitry (Pascual et al, 1993;Pascual et al, 1998). Infants with perinatal distress and neurologic impairment compared to normal full-term infants manifest a significantly slower mean rate of NNS and a greater intra-individual variability of rate (Dreier & Wolff, 1972).…”
Section: Discussionmentioning
confidence: 99%
“…Neuronal circuits are shaped by experience during critical periods of early postnatal life and may remain in a waiting state until appropriate sensory 9 This notion is supported by animal studies in which deprivation of somatosensory experiences and motor restriction during the early postnatal period has been shown to negatively influence dendritic length and density of pyramidal neurons in the sensorimotor cortex of the cerebrum and Purkinje cells in the cerebellum, and degrade fine motor control. 26,27 Conversely, sensorimotor enhancement during the early postnatal period produces elaboration of pyramidal neuron dendritic length and arborization in motor cortex and enhanced behavioral motor responses. 28 Critical periods are described as windows in development in which systems or processes are particularly vulnerable.…”
Section: Discussionmentioning
confidence: 99%