SBIR-STTR Award

Error-reduction in dipole-source localization models
Award last edited on: 5/9/08

Sponsored Program
SBIR
Awarding Agency
NIH : NINDS
Total Award Amount
$1,003,105
Award Phase
2
Solicitation Topic Code
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Principal Investigator
Don L Jewett

Company Information

Abratech Corporation

69 Ridge Avenue
Mill Valley, CA 94941
   (415) 331-3775
   N/A
   www.abratech.com
Location: Single
Congr. District: 02
County: Marin

Phase I

Contract Number: 1R43NS041776-01
Start Date: 00/00/00    Completed: 00/00/00
Phase I year
2001
Phase I Amount
$104,487
Multiple-channel brain evoked-response data is often recorded from the scalp, either electrically, or magnetically. The analysis of this multi-channel data commonly utilizes mathematical models, which assume that the neural generators of the evoked-response are dipoles. Such DSL can be accurate or inaccurate, depending upon many factors, most of which are not accessible to the researchers or clinicians who use the DSL. The problem is compounded by the fact that a given model may be accurate for dipoles in some locations, but not accurate for dipoles in other locations. Furthermore, the use of the least-square error by the DSL has been shown to increase dipole parameter errors. A method of evaluating whether insidious errors may be present in DSL analysis has been developed, based upon the fact that poor models show a sensitivity to neural-generator wave shape. The applicants have developed a proprietary, technically innovative method to utilize this sensitivity as an error-signal to allow adaptive-adjustment of model constants to reduce errors. The Phase I research will test this method using computer simulations. This research is health-related because DSL methods are widely used to analyze human brain activity, whether normal or abnormal. PROPOSED COMMERCIAL APPLICATION: The methodology will be incorporated into existing or future DSL software under license, since it would remove the present uncertainty of DSL results.

Phase II

Contract Number: 2R44NS041776-02
Start Date: 00/00/00    Completed: 00/00/00
Phase II year
2005
(last award dollars: 2006)
Phase II Amount
$898,618

We are developing means to reduce errors in Dipole Source Localization (DSL). DSL is commonly used to analyze brain waves for clinical and research purposes. It is known from our work and the work of others that the models used to compute the DSL are not perfect, but it is not known how much the imperfect models affect the solutions obtained. Based upon our prior work, and some new concepts, we have developed the DSME (Dipole-Source Model- Error). We have tested its efficacy in spheres, and will do so in headshape models in this project. We will compare errors both by simulations, and also by determining whether the DSL has errors when analyzing evoked-responses from known neural generators. The health-related aspects include the clinical uses of evoked-responses and DSL, and the fact that improvements in the accuracy of the technique will improve these uses.

Thesaurus Terms:
computer simulation, dipole moment, electroencephalography, evoked potential, method development, structural model auditory stimulus, computational neuroscience, longitudinal human study, model design /development bioimaging /biomedical imaging, clinical research, human subject, magnetic resonance imaging