NeuroSearches

Neural basis of Tourette syndrome

Tourette Syndrome (TS) is a complex neuropsychiatric disorder characterized by repetitive, involuntary movements and sounds known as tics. The neural basis of Tourette syndrome is incredibly complex and involves a range of brain regions and neural circuits. Several theories attempt to explain the underlying causes of TS, including abnormalities in dopamine, glutamate, and GABA systems. Neuroimaging studies have shown abnormal activation in prefrontal, striatal, and thalamic regions. Additionally, the basal ganglia and CSTC circuits are thought to play a critical role in the onset and maintenance of tics. This post explores the neural basis of Tourette syndrome and its underlying causes, highlighting potential applications and challenges in understanding TS.

Neuroscience Neurodevelopmental Disorders Tourette Syndrome Basal Ganglia Prefrontal Cortex CSTC Circuits Genetic Factors Deep Brain Stimulation Treatment

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 brain-inspired computing

Brain-inspired computing is an emerging field of research that seeks to replicate the neural processes of the brain in order to create more efficient and powerful computing systems. This article explores the neural basis of brain-inspired computing, including the structure and function of neurons, the connections between them, and the potential applications of this technology.

Neuroscience Artificial Intelligence Robotics Autonomous Vehicles

Neural basis of computational neuroscience

Computational neuroscience is a field that involves using mathematical modeling and theoretical approaches to study the complex relationships between brain and behavior. It seeks to understand the brains information processing abilities and how they emerge from the interplay of neural systems. In this post, we will delve into the neural basis of computational neuroscience and explore its potential applications, challenges, and limitations.

- Neuroscience - Mathematics and Computer Science - Healthcare - Education - Robotics and Automation

Neural basis of dopamine receptors

This article delves into the complexities of the neural basis of dopamine receptors, their role in reward and pleasure systems in the brain, and their significance in various neuropsychiatric disorders. It discusses several examples and case studies, potential applications, challenges and limitations, future research scope, and the implications of dopamine receptors in neuroscience.

Neuroscience Neuropsychiatric Disorders Brain and Nervous System Dopamine Receptors

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

Neural basis of the somatosensory cortex and touch

In this post, we explore the neural mechanisms that underlie touch perception in the somatosensory cortex. We provide a brief background on the somatosensory system and the anatomy of the somatosensory cortex. We review examples and case studies that illustrate how the somatosensory cortex processes touch information. We discuss the potential applications of this knowledge for fields like prosthetics and neuro-rehabilitation. We also address some of the challenges and limitations of the current research.

Neuroscience Somatosensory System Touch Perception

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