Lectures related to Electrical Stimulation for Actuation

Hybrid Neural Models: Introduction and Applications

Covers hybrid neural models for neuroprosthetics, nerve stimulation optimization, and grasping restoration after spinal cord injury.

Restoration of Thermal Sensation in Amputee Patients

Explores restoring thermal sensation in amputees and inducing freezing of gait in Parkinson's patients.

Optimization of Neuroprosthetic Systems

Explores the optimization of neuroprosthetic systems, including sensory feedback restoration and neural stimulation strategies.

Spinal Cord Stimulation: Motor Rehabilitation Benefits

Explores the benefits of spinal cord stimulation on motor rehabilitation in chronic SCI patients, focusing on lower limb and trunk stability.

Neural Signals and Signal Processing

Explores neural signals, EMG control, muscle synergies, and HD-EMG for prosthetic devices.

NeuroRestore: Advancements in Neuromodulation Therapies for Walking Recovery

Covers neuromodulation therapies designed to restore walking in individuals with spinal cord injuries and explores their implications for other neurological disorders.

Biological Intelligence: Motor Learning and Neuromodulation

Explores the relationship between biological intelligence, motor learning, and the role of neuromodulation in adaptive behavior.

Functional Electrical Stimulation: Nerve Stimulation and Muscle Contraction

Delves into functional electrical stimulation for movement, focusing on nerve and muscle stimulation through electrodes.

Motor Neuron Diseases: Pathophysiology & Therapies

Explores the motor system, motor neuron diseases, control of movements, and spinal cord organization.

Electrical Stimulation Circuit

Covers neurostimulation techniques and electrical stimulation circuits for neural stimulator chips.

Computational Models of Spinal Locomotor Circuitry

Delves into computational models of spinal locomotor circuitry, showcasing accurate reproductions of speed-dependent gait expressions and experimentally observed changes.

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Non-Invasive Brain Stimulation: Historical Overview and Applications

Covers the history and applications of non-invasive brain stimulation techniques in clinical settings.

Neuromodulation and Spinal Cord Control

Explores neuromodulation, spinal cord control, and the potential for recovery after spinal cord injury through innovative research and groundbreaking results.

Neural Control of Movement

Delves into the neural control of movement, focusing on spinal motor neurons and motor units, exploring techniques like EMG recordings and wearable neural interfaces.

Neural Mechanisms of Locomotion: Insights and Innovations

Discusses the neural mechanisms of locomotion and the role of electrical stimulation in restoring movement in individuals with spinal cord injuries.

Motor Cortex and Basal Ganglia

Explores the control of movement, motor cortex characteristics, mirror neurons, brain-machine interfaces, and the role of basal ganglia in movement initiation and suppression.

Neural Control of Movement: Sensorimotor Systems

Explores the neural control of movement, focusing on sensorimotor systems, spinal cord circuitry, and muscle stretch reflexes.

Deep Brain Stimulation

Explores the fundamentals and applications of Deep Brain Stimulation, including its evolution, basic principles, and future prospects.

Modeling in Neuroprosthetics

Covers hybrid neural models, nerve histology, sensory feedback restoration, and deep brain stimulation in neuroprosthetics.