2015
DOI: 10.1523/jneurosci.0564-15.2015
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Sensorimotor Processing in the Newborn Rat Red Nucleus during Active Sleep

Abstract: Sensory feedback from sleep-related myoclonic twitches is thought to drive activity-dependent development in spinal cord and brain. However, little is known about the neural pathways involved in the generation of twitches early in development. The red nucleus (RN), source of the rubrospinal tract, has been implicated in the production of phasic motor activity during active sleep in adults. Here we hypothesized that the RN is also a major source of motor output for twitching in early infancy, a period when twit… Show more

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Cited by 44 publications
(65 citation statements)
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“…First, the motor cortex plays a negligible role in the production of movement—whether sleep or wake movement—at these early ages. This conclusion is wholly consistent with what is known about the brainstem generators of twitches [32] and the development of the cortical control of wake movements [34]. …”
Section: Sleep Myoclonic Twitching and Embodimentsupporting
confidence: 90%
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“…First, the motor cortex plays a negligible role in the production of movement—whether sleep or wake movement—at these early ages. This conclusion is wholly consistent with what is known about the brainstem generators of twitches [32] and the development of the cortical control of wake movements [34]. …”
Section: Sleep Myoclonic Twitching and Embodimentsupporting
confidence: 90%
“…(Activity in the basal ganglia is also likely to be influenced by twitch-related reafference, but this possibility has not yet been investigated.) Moreover, the red nucleus, which is part of a group of premotor structures in the mesodiencephalic junction [31], contributes to the production of twitches while also receiving reafference, suggesting that the integration of motor output and sensory feedback occurs even within this so-called motor nucleus [32]. It also notable that the nuclei within the mesodienchephalic junction are associated with the evolution of limbs and flapping fins, and appear to have been differentially recruited across species for the control of highly specialized structures such as the human hand and the elephant’s trunk [33].…”
Section: Sleep Myoclonic Twitching and Embodimentmentioning
confidence: 99%
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“…RN recordings in week-old rats confirmed an important role for this nucleus in twitching [41]. In stark contrast with motor cortex at this age (see Figure 3), RN neurons fired bursts of action potentials just before wake-related limb movements and sleep-related limb twitches.…”
Section: Causes and Consequences Of Myoclonic Twitchingmentioning
confidence: 77%
“…In week-old rats, unilateral pharmacological inactivation of the RN reduced twitching immediately but by only 50% [41]. And in adult cats, lesions of the red nucleus reduced twitching, but only transiently as twitching returned within several days [38,39].…”
Section: Causes and Consequences Of Myoclonic Twitchingmentioning
confidence: 99%