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Cell-Based Olfactory Sensing for Biometrics [48U08UMDabsh]

$391,000FY2008CSENSF

University Of Maryland, College Park, College Park MD

Investigators

Abstract

The gold standard against which chemical sensors are compared is the dog?s nose. However, dogs are expensive to train and can only be used a few hours per day. By detecting the electrical signals produced by olfactory sensory neurons (OSNs), it should be possible to achieve high-sensitivity, high-specificity, high-speed, stand-off detection of trace amounts of compounds associated with volatile human compounds characteristic of gender, stress, individual ?fingerprint?, and various medical conditions. The team plans to develop a miniaturized system for human biometric characterization using, initially immortalized cell lines for detection of human compounds and then developing techniques for direct detection of airborne odorants using artificial mucous, thin membranes, continuous perfusion with water or a combination. Cell-based chemical sensors will have broad societal benefits through diverse applications, outside of biometric detection: explosives detection, monitoring food and air, odor-based medical diagnosis, drug detection in airports, and screening of pharmaceuticals, to name a few. This project will support two full time graduate research assistants. The PIs are actively engaged in educating graduate and undergraduate students and interdisciplinary curricular development. The PIs have demonstrated strong track records of mentoring and supporting students from underrepresented groups and of developing and supporting programs that train and promote these students.

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