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An optimal antimicrobial drug regimen is the key to successful clinical outcomes of bacterial infections. To direct the choice of antibiotic, access to fast and precise antibiotic susceptibility profiling of the infecting bacteria is critical. We have developed a high-throughput nanowell antibiotic susceptibility testing (AST) device for direct, multiplexed analysis. By processing in real time the optical recordings of nanoscale cultures of reference and clinical uropathogenicEscherichia coli strains with a mathematical algorithm, the time point when growth shifts from lag phase to early logarithmic phase (T lag ) was identified for each of the several hundreds of cultures tested. Based onT lag , the MIC could be defined within 4 h. Heatmap presentation of data from this high-throughput analysis allowed multiple resistance patterns to be differentiated at a glance. With a possibility to enhance multiplexing capacity, this device serves as a high-throughput diagnostic tool that rapidly aids clinicians in prescribing the optimal antibiotic therapy.

Bacterial Nanoscale Cultures for Phenotypic Multiplexed Antibiotic Susceptibility Testing