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Clinical Trial Summary

Background & Rational: Antibiotics are a major underpinning of modern medicine. The global rise of antimicrobial resistant (AMR) organisms is a serious world health problem. With few new antimicrobial drugs on the horizon, it is imperative that we develop novel approaches to extend the service life of our existing drugs. AMR is a complex problem that is being driven by a wide range of factors. More than half of the antibiotics prescribed have no medical benefit, and outpatient visits for uncomplicated urinary tract infections (UTIs) are a major contributor to this problem. Recent studies have shown that nearly half of people treated for UTIs receive the wrong frontline drug and in 75% of patients, the duration of therapy is inappropriate. Limitations in the current diagnostic technology make it impossible to identify UTI pathogens and measure their antibiotic sensitivities during the short out-patient clinical visits that are typical for most UTI patients. These circumstances result in the inappropriate use of stronger than necessary or inappropriate antimicrobials. The aim of this study is to develop and evaluate a system that can detect bacteria in urine and find the best antibiotic in under 4 hours, thus enabling a rapid diagnosis and use of the most appropriate and cost-effective antimicrobial agent for the agent detected.


Clinical Trial Description

Testing done in this study will be performed either on bacterial isolates stored in the microbiology laboratory at the Diagnostic and Scientific Center in Calgary, or on up to one milliliter of residual urine sample submitted to the diagnostic laboratory with a request for urine culture and sensitivity. All urine cultures will be performed and reported in accordance with standards laboratory protocols. Research testing will only be done on residual sample once patient samples are processed or reported on for clinical purposes. During the first phase of the study, metabolic biomarkers for uropathogens will be identified using mass spectrometry on sub-cultures of frozen isolates from the diagnostic microbiology laboratory. This will include at least 50 isolates each of uropathogens consisting of but not limited to Escherichia coli, Klebsiella oxytoca, Klebsiella pneumoniae, Enterobacter species, Proteus mirabilis, Citrobacter species, Staphylococcus aureus, Staphylococcus saprophyticus, Pseudomonas aeruginosa, Enterococcus species, and Candida species. Biomarkers that are present in greater than 95% of the isolates will subsequently be using the analysis of 2000 negative, and 2000 positive urine cultures. Compounds that are subsequently identified as high yield will be selected for carbon 13 labeling to service standards. In phase II of the study, following the development of a biomarker enrichment device at the CMRF, a performance urinalysis of the device will be conducted using residual urine sample from 1000 negative and 2000 positive urine specimens as outlined above. The performance of the new device will be evaluated relative to standard cultures and urine liquid chromatography-mass spectrometry. Following the creation of a sensitive and specific assay, a prospective study will be carried out at the diagnostic microbiology laboratory. 3000 sample submitted for urine culture will be process in parallel with the new device and standard microbiology procedures. Sensitivity, specificity and predictive value for each analyte compared to standard culture will be determined in this portion of the study. Cost calculations and performance characteristics including turnaround time of the new assay will be compared to that in the standard laboratory procedure. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04228081
Study type Observational
Source University of Calgary
Contact Ian A Lewis, PhD
Phone 403-220-4366
Email ian.lewis2@ucalgary.ca
Status Not yet recruiting
Phase
Start date August 1, 2022
Completion date October 15, 2023

See also
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