2004
DOI: 10.1038/nature03132
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Early motor activity drives spindle bursts in the developing somatosensory cortex

Abstract: Sensorimotor coordination emerges early in development. The maturation period is characterized by the establishment of somatotopic cortical maps, the emergence of long-range cortical connections, heightened experience-dependent plasticity and spontaneous uncoordinated skeletal movement. How these various processes cooperate to allow the somatosensory system to form a three-dimensional representation of the body is not known. In the visual system, interactions between spontaneous network patterns and afferent a… Show more

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Cited by 565 publications
(732 citation statements)
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“…Interestingly spontaneous 10 Hz spindles were recorded in newborn rat S1 cortex (Khazipov et al, 2004). Their intrinsic frequency is unaffected by GABAergic antagonists applied in S1 cortex (Minlebaev et al, 2007(Minlebaev et al, , 2009, and they are correlated with nVPM neuronal activity (Khazipov et al, 2004), suggesting that they are generated in the thalamus and that they bear similarities with the adult cortical 7-15 Hz spindles. The adult spindles are generated during early stages of sleep by a thalamic inhibitory feedback loop between the GABAergic nucleus reticularis thalami (nRT) and the glutamatergic nVPM (Fuentealba and Steriade, 2005).…”
Section: Introductionmentioning
confidence: 92%
See 1 more Smart Citation
“…Interestingly spontaneous 10 Hz spindles were recorded in newborn rat S1 cortex (Khazipov et al, 2004). Their intrinsic frequency is unaffected by GABAergic antagonists applied in S1 cortex (Minlebaev et al, 2007(Minlebaev et al, , 2009, and they are correlated with nVPM neuronal activity (Khazipov et al, 2004), suggesting that they are generated in the thalamus and that they bear similarities with the adult cortical 7-15 Hz spindles. The adult spindles are generated during early stages of sleep by a thalamic inhibitory feedback loop between the GABAergic nucleus reticularis thalami (nRT) and the glutamatergic nVPM (Fuentealba and Steriade, 2005).…”
Section: Introductionmentioning
confidence: 92%
“…They are associated with a correlated activity in the nVPM, and their intrinsic frequency is unaffected by cortical applications of GABA A R antagonists, suggesting that the spindles are generated by subcortical circuits (Khazipov et al, 2004;Minlebaev et al, 2007). In the adult, the sleep spindles are generated by the nVPM-nRT loop (Steriade, 2005).…”
mentioning
confidence: 99%
“…In addition, spontaneous motor activity at an early developmental stage may facilitate the self-organization of neural circuits at both spinal and supra-spinal levels [21]. Thus, motor activity modulates the spinal circuits of central pattern generators (CPG) and those of nociceptive withdrawal reflexes [23], and it also modulates cortical somatosensory maps in a somatotopic manner [24]. Once established, spinal CPGs underlie fetal movements [22], but developing supra-spinal structures (such as the transient cortical subplate) presumably also play a role in more complex sequences of general movements, as demonstrated by the abnormality of general movements in human fetuses with brain disorders [10].…”
Section: Prenatal Movementsmentioning
confidence: 99%
“…The emerging thalamic spindles are transferred to the neocortex via topographic thalamo-cortical projections, and the spatially contiguous or distinct thalamic oscillations are synchronized by cortico-thalamic feedback (Kim et al, 1995;. Thalamo-cortical spindles represent the first organized pattern in the neocortex in newborn rats and pre-term human babies (Khazipov et al, 2004;Hanganu et al, 2006;Milh et al, 2006), although these early spindles are confined spatially. After the establishment of longrange cortico-cortical connections, spindles typically occur virtually synchronously across wide areas of the thalamus and cortex (Verzeano and Negishi, 1960;Bal et al, 2000).…”
Section: Slow (<1 Hz) Rhythms-mirceamentioning
confidence: 99%