SBIR-STTR Award

Acquisition System for Behavioral Electrophysiology
Award last edited on: 3/5/07

Sponsored Program
SBIR
Awarding Agency
NIH : NIMH
Total Award Amount
$1,107,411
Award Phase
2
Solicitation Topic Code
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Principal Investigator
James K Goebel

Company Information

Neural Arts (AKA: Cosmo Cogs Company)

21 Bay State Road
Boston, MA 02215
   (617) 867-0244
   info@neuralarts.com
   www.neuralarts.com
Location: Single
Congr. District: 07
County: Suffolk

Phase I

Contract Number: 1R43MH059500-01
Start Date: 00/00/00    Completed: 00/00/00
Phase I year
1999
Phase I Amount
$82,460
There is no text on file for this abstract biomedical equipment development, electronic recording system, microelectrode, neural transmission, neuron, neurophysiology cell cell interaction, neural information processing bioimaging /biomedical imaging

Phase II

Contract Number: 2R44MH059500-02
Start Date: 00/00/00    Completed: 00/00/00
Phase II year
2001
(last award dollars: 2002)
Phase II Amount
$1,024,951

This project is related to NIMH research topic number 115-B-7. It is a proposal to manufacture a multi-neuron recording system capable of simultaneously detecting, amplifying, filtering, digitizing, isolating, and recording over a hundred neurons from the brains of behaving animals. Goals include (1) to provide many channel acquisition at a significantly lower cost than competing systems, (2) to support several microelectrode acquisition methods including tetrodes, (3) to provide advanced tools for behavioral experiments including on-line spike-sorting and experimental design, (4) to offer an open and extensible architecture for researchers to build on, and (5) to provide a complete solution including not only the acquisition system, but also amplifiers, preamplifiers, cable, connectors and headstages. Such a multi-neuron recording system can improve the efficiency of data collection yielding more single-unit neuronal recordings in an experimental session. More importantly, it extends the researcher's capabilities from the level of single cell analysis to that of neural ensembles believed to be the functional units of information processing in cortical areas of the brain. This technology will facilitate the study of representation and communication in neural networks associated with behavior, improving our understanding of biological information processing and thus supporting NIMH's research mission. PROPOSED COMMERCIAL APPLICATION: This research canbe applied to producing, a data acquisition system for recording from large ensembles of single neurons in behaving animals.