Max Kurz, Ph.D.

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Clinical Trial for the PoNS device

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Medical Science Interdepartmental Area/ MMI Rehab Science Program

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Motor Planning in Children with Cerebral Plasy

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Motor Planning in Children with Cerebral Plasy

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Motor Planning in Children with Cerebral Plasy

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Serimotor Learning in Children with Cerebral Plasy

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Sensorimotor Learning in Children with Cerebral Plasy

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Sensorimotor Learning in Children with Cerebral Plasy

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NASA Nebraska Space Grant Fellowships

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Sensorimotor Learning in Children with Cerebral Plasy

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NASA Nebraska Space Grant Fellowship

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Sensorimotor Learning in Children with Cerebral Plasy

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Neurophysiology of Pain in Children

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Neurophysiology of Pain in Children

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Sensorimotor Learning in Children with Cerebral Plasy

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Neurophysiology of Responders and Non-Responders

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Step Width is Related to Functional Mobility in Community Ambulating Children with Cerebral Palsy

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Children have Greater Cortical Activity than Adults for Controlling Gait

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Neuromagnetic Activity in the Somatosensory Cortices of Children with Cerebral Palsy

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Body Weight Supported Treadmill Training Improves the Regularity of the Stepping Kinematics in Children with Cerebral Palsy

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Evaluation of Lower Body Positive Pressure Supported Treadmill Training for Children with Cerebral Palsy

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Parkinson's Disease Influences the Structural Variations Present in the Leg Swing Kinematics

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Stride-Time Variability and Sensorimotor Cortical Activation During Walking

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Children with Cerebral Palsy have Greater Cortical Activity than Typically Developing Children During Gait

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Exploring the Feasibility of Using Electrotactile Balance-Related Biofeedback on the Tongue to Improve the Balance of Children

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Differences in the Dynamic Gait Stability of Children with Cerebral Palsy and Typically Developing Children.

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Coactivation of Lower Leg Muscles During Body Weight-Supported Treadmill Walking Decreases with Age in Adolescents

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Neuromagnetic Activity of the Somatosensory Cortices Associated with Body Weight-Supported Treadmill Training in Children with Cerebral Palsy

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Overground body-weight-supported gait training for children and youth with neuromuscular impairments

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The neuromagnetic activity of the somatosensory cortices and the ankle force control is altered in children with cerebral palsy.

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Intervention to advance postural transitions in young children with neuromotor disabilities and resulting effects on trunk and pelvic movement.

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Torque variability and EMG activation differs between adults with and without multiple sclerosis at the ankle.

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Ankle plantar flexor force control is improved after gait and balance rehabilitation in individuals with multiple sclerosis.

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Neuromagnetic activity of the sensorimotor cortices during the motor planning and execution stages in children with cerebral palsy.

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The neuromagnetic activity of the somatosensory cortices and the ankle force control is altered in children with cerebral palsy.

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Intervention to Advance Postural Transitions and Problem Solving Ability in children with cerebral palsy.

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Ankle plantar flexor force control is improved after gait and balance rehabilitation in individuals with multiple sclerosis

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Gait-related alterations in the sensorimotor cortical activity of children with cerebral palsy

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Motor Control in Children with Cerebral Palsy. School of Allied Health,

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Aberrant synchrony in the somatosensory cortices predicts motor performance errors in children with cerebral palsy.

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Functional specialization within the supplementary motor area: A fNIRS study of bimanual coordination

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Children with cerebral palsy have greater stochastic features present in the variability of their gait kinematics.

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The stochastic component of the postural sway variability is higher in children with balance impairments

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Motor control of the lower extremity musculature in children with cerebral palsy

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The neuromagnetic activity of the somatosensory cortices and the ankle force control is altered in children with cerebral palsy

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Torque variability and EMG activation differs between adults with and without multiple sclerosis at the ankle

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Ankle plantar flexor force control is improved after gait and balance rehabilitation in individuals with multiple sclerosis

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Taking steps towards improving the mobility of children with cerebral palsy

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Oscillatory activity in the somatosensory cortices predicts the motor performance of children with cerebral palsy

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Oscillatory activity in the somatosensory cortices predicts the motor performance of children with cerebral palsy

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Gait-related alterations in the sensorimotor cortical activity of children with cerebral palsy.

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Improving the motor skill of children with posterior fossa syndrome: a case series

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Neurophysiological abnormalities in the sensorimotor cortices during the motor planning and movement execution stages of children with cerebral palsy

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An fNIRS Exploratory investigation of the cortical activity during gait in children with spastic diplegic cerebral palsy

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Hyper-synchrony despite pathologically-reduced beta oscillations in patients with Parkinson's disease: a pharmacomagnetoencephalograohy study

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Multiple sclerosis influences the precision of the ankle plantarflexion muscular force production

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Age-related differences in the motor planning of a lower leg target matching task.

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Neurorehabilitation strategies focusing on ankle control improve mobility and posture in persons with multiple sclerosis

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Children with cerebral palsy have uncharacteristic somatosensory cortical oscillations after stimulation of the hand mechanoreceptors.

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Dissipation of disturbances seen in the knee joint kinematics of children with cerebral palsy

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Mechanical Work Performed by the Legs of Children with Hemiplegic Cerebral Palsy.

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Beta Frequency Sensorimotor Cortical Oscillations During Ankle Plantarflexion are Related to Spatiotemporal Gait Kinematics.

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Improving the Mobility and Postural Balance of Individuals with Multiple Sclerosis.

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Planning sequential motor actions in children with hemiplegic cerebral palsy

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Effects of muscle strength scaling on musculoskeletal modeling analyses of children with cerebral palsy

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Sensitivity of simulated muscle forces to estimates of ankle foot orthosis mechanical properties during gait for children with cerebral palsy

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Individuals with multiple sclerosis redistribute the positive mechanical work from the ankle to the hip during walking.

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Neuromechanical changes associated with learning an isometric ankle plantarflexion target matching task

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Planning sequential motor actions in children with hemiplegic cerebral palsy.

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). Improving the Mobility and Postural Balance of Individuals with Multiple Sclerosis.

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Altered sensorimotor cortical oscillations in individuals with multiple sclerosis suggests a faulty internal model

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Effects of strength training on muscle force production and muscle function in children with cerebral palsy

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Beta Frequency Sensorimotor Cortical Oscillations During Ankle Plantarflexion are Related to Spatiotemporal Gait Kinematics.

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Mechanical Work Performed by the Legs of Children with Hemiplegic Cerebral Palsy.

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Motor Control of the Lower Extremity Musculature in Children with Cerebral Palsy

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Visual Motion Perception is Aberrant in Children with Cerebral Palsy

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Visual Motion Perception is Aberrant in Children with Cerebral Palsy

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Beta oscillations during movement execution in the sensorimotor cortex change after practicing a motor task