14 results found
    1. Neuroscience

    Long ascending propriospinal neurons provide flexible, context-specific control of interlimb coordination

    Amanda M Pocratsky et al.
    Conditional silencing of long ascending propriospinal neurons disrupts interlimb coordination of the fore and hindlimb pairs, but in a highly context-specific manner.
    1. Neuroscience

    Computational modeling of spinal circuits controlling limb coordination and gaits in quadrupeds

    Simon M Danner et al.
    Organization of commissural and long propriospinal neuronal pathways defines gait expression in quadrupeds.
    1. Neuroscience

    Computational modeling of brainstem circuits controlling locomotor frequency and gait

    Jessica Ausborn et al.
    A new computational model of brainstem control of locomotor speed and gait was developed to reproduce and explain recent experimental data and propose predictions for subsequent experimental testing.
    1. Developmental Biology
    2. Neuroscience

    Spinal lumbar dI2 interneurons contribute to stability of bipedal stepping

    Baruch Haimson et al.
    Spinal dI2 interneurons relay peripheral and intraspinal feedback to premotor networks in the spinal cord and the cerebellum to ensure the stability of bipedal stepping.
    1. Neuroscience

    A dystonia-like movement disorder with brain and spinal neuronal defects is caused by mutation of the mouse laminin β1 subunit, Lamb1

    Yi Bessie Liu et al.
    A mouse with a defined mutation in an extracellular matrix protein that is expressed in selected neurons sheds light on circuit abnormalities producing transient hyperkinetic movements.
    1. Neuroscience

    Left-right side-specific endocrine signaling complements neural pathways to mediate acute asymmetric effects of brain injury

    Nikolay Lukoyanov et al.
    In addition to the well-established involvement of descending neural tracts, the left-right side-specific endocrine mechanism may contribute to signaling from injured brain to spinal motor circuits.
    1. Neuroscience

    The corticospinal tract primarily modulates sensory inputs in the mouse lumbar cord

    Yunuen Moreno-Lopez et al.
    While the corticospinal tract is often considered exclusively as a motor path, a combination of intersectional viral strategy and in vivo electrophysiology reveals that, in the mouse lumbar cord, its main role is the modulation of sensory inputs.
    1. Neuroscience

    Cortex-dependent recovery of unassisted hindlimb locomotion after complete spinal cord injury in adult rats

    Anitha Manohar et al.
    After complete spinal transection in adult rats, careful combinations of pharmacological and physical therapies create a novel cortical sensorimotor circuit that may bypass the lesion through biomechanical coupling, allowing animals to recover unassisted hindlimb locomotion.
    1. Neuroscience

    Resting state functional connectivity in the human spinal cord

    Robert L Barry et al.
    Resting state spinal fMRI will be useful in studies of normal spinal cord function and central nervous system disorders.
    1. Neuroscience

    Remodeling of lumbar motor circuitry remote to a thoracic spinal cord injury promotes locomotor recovery

    Ying Wang et al.
    Retrograde transport of NT-3 stimulated the reorganization of lumbar neural circuitry and synaptic connectivity remote to a thoracic SCI, along with improved behavioral recovery.

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