SBIR-STTR Award

In Phase I we will determine the feasibility of commercially manufacturing microwire arrays for chronic multichannel neurophysiology. Our main goal is to commercialize this already mature technology, providing an inexpensive, uniform, and reliable source for microwire arrays. We seek to develop an automated array fabrication process that allows customization of electrode lengths, channel count, and array architecture. A commercial source would free investigators from the time and labor intensive task of building their own arrays. It would also permit laboratories currently unable to build or buy arrays to perform chronic multichannel recording. This is an enabling technology for research on sensory and motor maps, functional connectivity, chronic neural implants, and neural prostheses.

Thesaurus Terms:
biomedical equipment development, electrode, electronic recording system, neurophysiology electrical impedance Malacostraca

Chronically implanted microwire arrays are a simple and reliable tool for long-term multichannel neurophysiological recording and stimulation. Multichannel arrays increase data yield from individual animals and allow questions about higher brain function and functional connectivity to be addressed. These chronically implanted electrodes also allow for greater physical and behavioral freedom of the experimental subject, allowing investigators to perform recordings on awake, behaving subjects in more naturalistic settings. Finally, chronic recording techniques permit long-term access to a block of neural tissue, a fundamental advantage in studies on neural plasticity. Continuing development will provide an inexpensive, uniform, and dependable source for microwire arrays. New manufacturing approaches will allow for greater data yield, more precise electrode placement, consistent impedances across the array, better neural isolation and improved electrode geometry. Designs to improve ease of insertion and long-term biocompatibility will also be developed. Microwire array development is an enabling technology for research on sensory and motor mapping, functional electrical stimulation, chronic neural implants, and neural prostheses.

Thesaurus Terms:
biomedical equipment development, electrode, electronic recording system, neurophysiology electrical impedance, neural plasticity, sensorimotor system laboratory rat