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CHRiSS: Cardiac Health Risk Stratification System

Award Information
Agency: Department of Health and Human Services
Branch: National Institutes of Health
Contract: 1R43DA036264-01
Agency Tracking Number: R43DA036264
Amount: $636,503.00
Phase: Phase I
Program: SBIR
Solicitation Topic Code: NIDA
Solicitation Number: PA11-134
Timeline
Solicitation Year: 2013
Award Year: 2013
Award Start Date (Proposal Award Date): N/A
Award End Date (Contract End Date): N/A
Small Business Information
806 Cromwell Park Drive Suite R
Glen Burnie, MD 21061
United States
DUNS: 78763618
HUBZone Owned: No
Woman Owned: Yes
Socially and Economically Disadvantaged: No
Principal Investigator
 BRIAN JAMIESON
 (240) 456-4728
 brianj@sbmicrosystems.us
Business Contact
 BRIAN JAMIESON
Phone: (240) 456-4728
Email: brian@diagnosticbiochips.com
Research Institution
 Stub
Abstract

DESCRIPTION (provided by applicant): The specific aim of this proposal is to test the feasibility of developing a long-lasting, implantable probe for rapid measurement of multiple neurochemicals in the brain. Currently, neuroscience research is limited tothree techniques for measuring the concentrations of neurochemicals in vivo; microdialysis to obtain average concentrations over a relatively long time period (5-20 minutes), enzyme-based biosensors to detect a single neurochemical every second over a relatively large spatial area (500 m length electrode), and carbon-fiber microelectrodes to detect dopamine with fast scan cyclic voltammetry (FSCV). A new tool is required for rapid detection of concentrations of multiple neurochemicals with spatial resolution on the cellular level. Such a tool would allow neuroscience researchers to ask new questions about the mechanisms behind disease states and behaviors, such as drug consumption. The proposed neural probe fulfills this need by detecting two neurochemicalsevery 4 seconds with 50 m spatial resolution. The proposed probe will detect cocaine and substance P, a neuropeptide implied in cocaine addiction (Kampman, 2010). In 2008, reports stated that 1.4 million Americans meet the criteria for abuse or dependence on cocaine, which is associated with violence and incarceration (NIDA 2010; Nyamathi et al., 2012). SB Microsystems has already developed a proprietary MEMS process for fabricating implantable, multi-site neural probes for studying the rat brain. Our existing probes have the feature size necessary for a 10-fold spatial resolution improvement over the available enzyme-based electrodes. The proposed probe will build on our existing platform by functionalizing the probe site surfaces with molecules for the detection of specific neurochemicals. Detection of multiple neurochemicals will be achieved by patterning different neurochemical- specific detection molecules onto adjacent probe sites. Our Phase I proposal will determine feasibility for commercializationof these probes by; 1) improving functionalized probe fabrication by adjusting aptamer molecule modifications, immobilization technique, and electrical signal detection to achieve the best possible sensitivity and time response and 2) developing a Potentiostat circuit based for detection. Next, we will 3) functionalize the probe to detect multiple analytes with the cocaine and substance P aptamers and 4) implant probes into rats for in vivo data collection. Success in this Phase I feasibility study will bedetermined by te accurate detection of physiologically relevant concentrations of cocaine and substance P by probes that are stable in vivo for 2 days. In Phase II, we plan to develop more aptamers that can be applied to our probes for the detection of more than 2 neurotransmitters. We will use principles of robust design to turn our prototype into a commercial product. The attached letters of support indicate that we may be able to sell a successful prototype from Phase I to neuroscience researchers.PUBLIC HEALTH RELEVANCE PUBLIC HEALTH RELEVANCE: The proposed work will result in a tool that can be used to study the brain mechanisms behind disease states such as Parkinson's disease, and behaviors such as drug consumption and dependence. Through the rapid detection of multiple neurochemicals, this product can provide more detailed information than currently available neuroscience tools. SB Microsystems is an engineering services firm with experience in the field of neuroscience tools and hasthe expertise required to produce robust, commercially viable implantable biosensors for neuroscience and clinical applications.

* Information listed above is at the time of submission. *

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