SBIR-STTR Award

Reliable and sensitive detection of microbial biowarfare agents (BWAs) such as Bacillus anthracis, Yersinia pestis, and Francisella tularensis is an important challenge for both military operations and domestic anti-terrorism efforts. We are proposing to develop an antibody functionalized biomimetic polymer coating for filter membranes that will become fluorescent when exposed to samples containing BWA microorganisms. These coated filter membranes will be integrated into a portable fluorescence detection device that will also be developed. The integrated device will allow rapid and easy parallel testing of solution samples - either water trapped aerosols or swab samples - for multiple BWA microorganisms. The filter will concentrate the microorganisms and then become fluorescent as the bacteria bind to the antibodies. In Phase I we will develop the antibody/polymer coatings, detect Bacillus subtilis spores as an anthrax simulant, perform appropriate control experiments, and design the detection unit. In Phase II we will prepare coated filters for the detection of several biowarfare agents, build a prototype detection unit and use this to develop screening protocols for detecting multiple microorganism targets in parallel. An easy-to-use rapid portable detection system that can be used by both combat support units and first responders for early warning of attacks with biological warfare agents and post-attack forensic purposes. This technology will also have significant dual-use applications in other areas of microorganism detection such as food safety, diagnostics and environmental testing.

Keywords:
coated filter, fluorescence detection, water, portable, antibody

Reliable and sensitive detection of biowarfare agents (BWAs) such as Bacillus anthracis, Yersinia pestis, Francisella tularensis, ricin, botulinum toxin, etc. is an important challenge for both military operations and domestic anti-terrorism efforts. We are proposing to develop a biomimetic polymer coating, containing receptors for BWA targets, that becomes fluorescent when exposed to samples containing BWAs. The polymer will be coated onto filter membranes in a cartridge that can be read by a portable fluorescence detector. The proposed detection system will allow rapid and easy parallel testing of aqueous samples such as drinking supplies, water trapped aerosols or swab samples, for multiple BWAs. The coated filters will concentrate microorganisms and then become fluorescent as the targets bind to the receptors; with appropriate receptors the coatings can also detect toxins. In Phase I, we developed polymer/antibody coatings, detected Bacillus cereus spores as an anthrax simulant, performed appropriate control experiments, and designed the detection unit. In Phase II we will prepare coated filters for the detection of several biowarfare microorganisms and toxins with increased sensitivity, and build a prototype unit for detecting multiple targets in parallel.

Keywords:
Fluorescence Detection, Coated Filter, Receptor, Water, Bwa, Portable