SBIR-STTR Award

Agentase seeks Phase I SBIR funding to adapt its single-use surface-sensing technology to an on-line, real-time sensor format for detection of trace amounts of nerve agent contamination in air. The proposed unit will be small, rugged, self-contained, inexpensive, and compatible with other sensor constructs. Previous work in our lab suggests the unit will have excellent sensitivity, rapid response to contamination, and high accuracy and reliability in detection contamination. The efforts of this Phase I proposal are directed at developing and building prototype sensors having practical utility in a field environment. Many tests within e2B the US and Europe have shown that the Agentase single point technology is highly successful in detecting nerve agents, and operational tests have shown that this new sensing technology is well suited and accepted by potential end users within the military and homeland security communities. This enzyme-based biosensor is capable of detecting nerve agents on surfaces, in solution, and in air. The sensor technology makes use of the pH-dependent catalytic activity of enzymes to develop a dynamic pH equilibrium and provides a positive signal by changing color from yellow to red in the presence of nerve agents. Enzymes per definition are highly specific to nerve agents and are superior to any other conventional detection mechanism. Agentase seeks to utilize its technology and expertise to extend the use of its sensing technology towards continuous air monitoring equipment allowing an early detection and thus limiting human exposure. As shown in preliminary experiments, Agentase intents to supply a continuous stream of substrate to its sensing polymer to turn its single point detection mechanism into a continuous format for detection of nerve agents in air. In addition an electronic signal reader will be added capable of quantitative signal interpretation and suitable for remote sensing applications. Phase II will involve prototype construction and field testing of the nerve agent unit as well as development work for expansion to other hazardous chemicals

Thesaurus Terms:
air sampling /monitoring, biohazard detection, biosensor, catalyst, hazardous substance, nerve gas, polymer, technology /technique development bioengineering /biomedical engineering, biotechnology, bioterrorism /chemical warfare

This Phase II SBIR proposal describes the development of a prototype device for monitoring the presence of a number of hazardous chemicals in the air. This device is fundamentally different than typical spectroscopic instruments in that it uses enzyme-based plastics as sensing elements. Phase I showed that enzymatic plastics can be employed to continuously monitor the environment when properly adapted to a simple device. Agentase will adapt its proven enzyme-based chemistries for nerve, blood, and blister agent detection into forms that are compatible with continuous monitoring in the proposed Phase II effort. After optimizing individual sensors for sensitivity to agents and response time, a battery of experiments will be conducted to ensure that sensors have sufficient shelf life, operational lifetimes, and resistance to environmental interference. Custom built hardware will also be constructed to house the sensors and ensure their proper implementation. The work plan concludes with a series of operational assessments that serve as a true test of product feasibility prior to use in studies with warfare grade chemical agents. Successful completion of the effort will provide an inexpensive tool for monitoring air quality for the presence of hazardous chemicals. Once hardened and validated, such a device can be used to warn against an event of chemical terrorism. Early detection of released chemicals is the key to minimizing the impact of a chemical event on site and ensuring the best possible medical and emergency responses.

Thesaurus Terms:
Air Sampling /Monitoring, Biohazard Detection, Catalyst, Enzyme Activity, Hazardous Substance, Monitoring Device, Nerve Gas, Technology /Technique Development Environmental Exposure Bioterrorism /Chemical Warfare