Memorial Day Offer

Discover your mystery discount!

Neural engineering

Overview of Neural Engineering: – Draws on computational neuroscience, experimental neuroscience, neurology, electrical engineering, and signal processing. – Goals include restoring and augmenting human function […]

« Back to Glossary Index

Overview of Neural Engineering:
– Draws on computational neuroscience, experimental neuroscience, neurology, electrical engineering, and signal processing.
– Goals include restoring and augmenting human function through interactions between the nervous system and artificial devices.
– Research focuses on understanding information coding in sensory and motor systems, and manipulation through brain-computer interfaces.
– Involves neural implants connected with external technology.
– Neurohydrodynamics is a division focusing on the hydrodynamics of the neurological system.

Fundamentals and Applications:
– Neuroengineering involves understanding neurons, neural networks, and nervous system functions to develop devices that interpret and control signals.
– Models are used to understand and interact with complex neural systems.
– Research and applications utilize devices to study neural system functions and contribute to finding clinical solutions.
– Techniques include functional MRI, PET, and CT scans to study neural network activity, structure, and function.
– Neural imaging investigates neural network activity using techniques like fMRI, MRI, PET, and CT scans.

Neural Engineering Research and Techniques:
– Engineers use quantitative tools to understand complex neural systems.
– Signal processing techniques and computational modeling aid in studying neural system activity.
– Neural networks are created to model neural systems and analyze neuronal system control of movements.
– Neural interfaces enhance or replace neuronal function with engineered devices.
– Techniques like liquid-based assembly are used to engineer 3D neural networks.

Neural Tissue Regeneration and Repair:
– Combines neuroscience and engineering to focus on devices and materials for neuron growth.
– Involves genetic and tissue engineering to develop scaffolds for spinal cord regeneration.
– Aims to find clinical solutions for brain damage or malfunction through peripheral nerve, spinal cord, and retinal tissue regeneration.
– Strategies include autologous tissue grafts, nerve guidance channels, biomolecular therapies, and advanced therapies for nerve regeneration.

Key Studies and Publications in Neural Engineering:
– Includes research papers and clinical studies on neural engineering concepts, brain-machine interfaces, and neuroengineering.
– Various journals like The Journal of Neural Engineering and The Journal of NeuroEngineering and Rehabilitation have contributed significantly to the field.
– International conferences by the IEEE have played a crucial role in the growth and recognition of neural engineering.
– Notable research papers and clinical studies provide insights into the advancements and challenges in neural engineering.

Neural engineering (Wikipedia)

Neural engineering (also known as neuroengineering) is a discipline within biomedical engineering that uses engineering techniques to understand, repair, replace, or enhance neural systems. Neural engineers are uniquely qualified to solve design problems at the interface of living neural tissue and non-living constructs (Hetling, 2008).

« Back to Glossary Index
This site uses cookies to offer you a better browsing experience. By browsing this website, you agree to our use of cookies.