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Development of a bacterial detection assay for point-of-care infection monitoring
Ineffective diagnosis of bacterial infections leads to excess healthcare costs of $25
billion/year worldwide due to transmission of infections while waiting for diagnosis,
unnecessary antibiotic treatments and resulting increased drug resistance, etc. Point-of-care
molecular testing can help provide timely and effective diagnoses leading to better (and more
cost-effective) patient management. Markets where point-of-care testing would make a large
difference are the hospital-acquired infections markets, sexually transmitted infection (STI)
market, and upper respiratory infections market.
This proposal will marry a unique bacterial detection strategy with a multiplexed chip-based
device for rapid analysis of infectious pathogens. The applicant, Dr. Das, has developed a
strategy that allows trace quantities of bacteria to be analyzed in 30 minutes or less. In the
proposed project, he will test whether it can be run on a multiplexed chip and whether the
resulting assay will be practical for use in a point-of-care testing system. The sponsor,
Xagenic (Canada) Inc., will benefit from this effort as it will speed the….
Faculty Supervisor:
Shana Kelley
Student:
Partner:
Xagenic Inc
Discipline:
Life Sciences
Sector:
University:
University of Toronto
Program:
Accelerate
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