Author:
Tsui Christopher T.,Lal Preet,Fox Katelyn V. R.,Churchward Matthew A.,Todd Kathryn G.
Abstract
AbstractNeural interface devices interact with the central nervous system (CNS) to substitute for some sort of functional deficit and improve quality of life for persons with disabilities. Design of safe, biocompatible neural interface devices is a fast-emerging field of neuroscience research. Development of invasive implant materials designed to directly interface with brain or spinal cord tissue has focussed on mitigation of glial scar reactivity toward the implant itself, but little exists in the literature that directly documents the effects of electrical stimulation on glial cells. In this review, a survey of studies documenting such effects has been compiled and categorized based on the various types of stimulation paradigms used and their observed effects on glia. A hybrid neuroscience cell biology-engineering perspective is offered to highlight considerations that must be made in both disciplines in the development of a safe implant. To advance knowledge on how electrical stimulation affects glia, we also suggest experiments elucidating electrochemical reactions that may occur as a result of electrical stimulation and how such reactions may affect glia. Designing a biocompatible stimulation paradigm should be a forefront consideration in the development of a device with improved safety and longevity.
Funder
Natural Sciences and Engineering Research Council of Canada
Canada Foundation for Innovation
Alberta Health Services
Davey Endowment for Brain Research
Publisher
Springer Science and Business Media LLC
Subject
Energy Engineering and Power Technology,Fuel Technology
Cited by
8 articles.
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