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Category: Rehabilitation Strategies

Neural basis of balance control

Balance control is an essential part of everyday life, allowing us to move around and interact with our environment without falling over. The neural basis of balance control is an area of active research in neuroscience, with implications for understanding the mechanisms of motor control, sensory integration, and motor learning. This article explores the neural basis of balance control and its potential applications in the development of prosthetic devices and rehabilitation strategies for people with balance disorders.

Neuroscience Balance Control Motor Control Sensory Integration Motor Learning Prosthetic Devices Rehabilitation Strategies Balance Disorders

Neural basis of gait analysis

Gait analysis is a fascinating topic in neuroscience that has seen significant advancements in recent years. It has critical implications for understanding the human bodys biomechanics and for developing new therapies for neurological disorders. With cutting-edge techniques and advances in research, gait analysis is poised to continue to be a crucial tool in the arsenal of neuroscientists worldwide.

Neuroscience Medical Research Neurological Disorders Physical Rehabilitation.

Neural basis of manual dexterity

The study of manual dexterity aims to understand how the brain and nervous system control complex movements with precision and accuracy. In this article, we discuss the neural basis of manual dexterity, including the motor cortex and sensorimotor integration processes. We explore potential applications in medicine, robotics, and virtual reality, and identify current challenges and limitations in the field.

Neuroscience Motor Control Rehabilitation Robotics Virtual Reality