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AUCD Experts

Max Kurz, Ph.D.

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Contact Information:
402-559-9599
Leadership:
Primary Activity Coordinators:
Research
Discipline Coordinators:
Specialty Resource Contacts:
Sensory Motor Laboratory - Research
Discipline(s):
AUCD Council Membership:
No Council Membership
Vita/Bio:
Service:
Linked Projects

Support Treadmill Training for Children with Cerebral Palsy
Support Treadmill Training for Children with Cerebral Palsy
Clinical Trial for the PoNS device
Feasibility of Using Peripheral Nerve Stimulation to Promote Muscular and Cortical Plasticity
Feasibility of Using Peripheral Nerve Stimulation to Promote Muscular and Cortical Plasticity
Linked Products

Restorative Effect of Endurance Exercise on Behavioral Deficits in teh Chronic Mouse Model of Parkinson's Disease with Severe Neurodegeneration
Aging and Partial Body Weight Support Affects Gait Variability
Walking in Simulated Martian Gravity: Influence of the Portable Life Support System's Design on Dynamic Stability
Mechanical Work Performed by the Legs of Children with Spastic Diplegic Cerebral Palsy
Levodopa Influences the Regularity of the Ankle Joint Kinematics in Individuals with Parkingson's Disease

Step Width is Related to Functional Mobility in Community Ambulating Children with Cerebral Palsy
Children have Greater Cortical Activity than Adults for Controlling Gait
Neuromagnetic Activity in the Somatosensory Cortices of Children with Cerebral Palsy
Body Weight Supported Treadmill Training Improves the Regularity of the Stepping Kinematics in Children with Cerebral Palsy
Evaluation of Lower Body Positive Pressure Supported Treadmill Training for Children with Cerebral Palsy
Parkinson's Disease Influences the Structural Variations Present in the Leg Swing Kinematics
Stride-Time Variability and Sensorimotor Cortical Activation During Walking
Children with Cerebral Palsy have Greater Cortical Activity than Typically Developing Children During Gait
Exploring the Feasibility of Using Electrotactile Balance-Related Biofeedback on the Tongue to Improve the Balance of Children
Differences in the Dynamic Gait Stability of Children with Cerebral Palsy and Typically Developing Children.
Coactivation of Lower Leg Muscles During Body Weight-Supported Treadmill Walking Decreases with Age in Adolescents
Neuromagnetic Activity of the Somatosensory Cortices Associated with Body Weight-Supported Treadmill Training in Children with Cerebral Palsy
Overground body-weight-supported gait training for children and youth with neuromuscular impairments
The neuromagnetic activity of the somatosensory cortices and the ankle force control is altered in children with cerebral palsy.
Intervention to advance postural transitions in young children with neuromotor disabilities and resulting effects on trunk and pelvic movement.
Torque variability and EMG activation differs between adults with and without multiple sclerosis at the ankle.
Ankle plantar flexor force control is improved after gait and balance rehabilitation in individuals with multiple sclerosis.
Neuromagnetic activity of the sensorimotor cortices during the motor planning and execution stages in children with cerebral palsy.
The neuromagnetic activity of the somatosensory cortices and the ankle force control is altered in children with cerebral palsy.
Intervention to Advance Postural Transitions and Problem Solving Ability in children with cerebral palsy.
Ankle plantar flexor force control is improved after gait and balance rehabilitation in individuals with multiple sclerosis
Gait-related alterations in the sensorimotor cortical activity of children with cerebral palsy
Motor Control in Children with Cerebral Palsy. School of Allied Health,
Aberrant synchrony in the somatosensory cortices predicts motor performance errors in children with cerebral palsy.
Functional specialization within the supplementary motor area: A fNIRS study of bimanual coordination
Children with cerebral palsy have greater stochastic features present in the variability of their gait kinematics.
The stochastic component of the postural sway variability is higher in children with balance impairments
Motor control of the lower extremity musculature in children with cerebral palsy
The neuromagnetic activity of the somatosensory cortices and the ankle force control is altered in children with cerebral palsy
Torque variability and EMG activation differs between adults with and without multiple sclerosis at the ankle
Ankle plantar flexor force control is improved after gait and balance rehabilitation in individuals with multiple sclerosis
Taking steps towards improving the mobility of children with cerebral palsy
Oscillatory activity in the somatosensory cortices predicts the motor performance of children with cerebral palsy
Oscillatory activity in the somatosensory cortices predicts the motor performance of children with cerebral palsy
Gait-related alterations in the sensorimotor cortical activity of children with cerebral palsy.
Improving the motor skill of children with posterior fossa syndrome: a case series
Neurophysiological abnormalities in the sensorimotor cortices during the motor planning and movement execution stages of children with cerebral palsy
An fNIRS Exploratory investigation of the cortical activity during gait in children with spastic diplegic cerebral palsy
Hyper-synchrony despite pathologically-reduced beta oscillations in patients with Parkinson's disease: a pharmacomagnetoencephalograohy study
Multiple sclerosis influences the precision of the ankle plantarflexion muscular force production
Age-related differences in the motor planning of a lower leg target matching task.
Neurorehabilitation strategies focusing on ankle control improve mobility and posture in persons with multiple sclerosis
Children with cerebral palsy have uncharacteristic somatosensory cortical oscillations after stimulation of the hand mechanoreceptors.
Dissipation of disturbances seen in the knee joint kinematics of children with cerebral palsy
Mechanical Work Performed by the Legs of Children with Hemiplegic Cerebral Palsy.
Beta Frequency Sensorimotor Cortical Oscillations During Ankle Plantarflexion are Related to Spatiotemporal Gait Kinematics.
Improving the Mobility and Postural Balance of Individuals with Multiple Sclerosis.
Planning sequential motor actions in children with hemiplegic cerebral palsy
Effects of muscle strength scaling on musculoskeletal modeling analyses of children with cerebral palsy
Sensitivity of simulated muscle forces to estimates of ankle foot orthosis mechanical properties during gait for children with cerebral palsy
Individuals with multiple sclerosis redistribute the positive mechanical work from the ankle to the hip during walking.
Neuromechanical changes associated with learning an isometric ankle plantarflexion target matching task
Planning sequential motor actions in children with hemiplegic cerebral palsy.
). Improving the Mobility and Postural Balance of Individuals with Multiple Sclerosis.
Altered sensorimotor cortical oscillations in individuals with multiple sclerosis suggests a faulty internal model
Effects of strength training on muscle force production and muscle function in children with cerebral palsy
Beta Frequency Sensorimotor Cortical Oscillations During Ankle Plantarflexion are Related to Spatiotemporal Gait Kinematics.
Mechanical Work Performed by the Legs of Children with Hemiplegic Cerebral Palsy.
Motor Control of the Lower Extremity Musculature in Children with Cerebral Palsy
Visual Motion Perception is Aberrant in Children with Cerebral Palsy
Visual Motion Perception is Aberrant in Children with Cerebral Palsy
Beta oscillations during movement execution in the sensorimotor cortex change after practicing a motor task