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  • Rapid Bacteria Detection at Low Concentrations Using Sequential Immunomagnetic Separation and Paper-Based Isotachophoresis.

Rapid Bacteria Detection at Low Concentrations Using Sequential Immunomagnetic Separation and Paper-Based Isotachophoresis.

Analytical chemistry (2019-07-10)
Federico Schaumburg, Cody S Carrell, Charles S Henry
ABSTRACT

Detecting bacteria is important in the fields of human health, environmental monitoring, and food safety. Foodborne pathogens alone are estimated to cause 420 000 deaths annually, with low-income regions affected most. Despite improvements in bacterial detection, fast, disposable, low-cost, sensitive, and user-friendly methods are still needed. Traditional methods for detecting bacteria rely primarily on cell culturing or polymerase chain reaction (PCR), which require highly trained personnel and a central laboratory and take several hours or even days to deliver results. Low-cost methods like lateral flow immunoassays exist but frequently suffer from poor sensitivity and/or lack quantitative results. Here, a rapid method for detecting bacteria at very low concentrations is presented using two sequential preconcentration steps. In the first preconcentration step, the sample is mixed with antibody-modified magnetic particles and free antibodies conjugated to β-galactosidase (β-gal). The target bacteria are isolated and concentrated using immunomagnetic separation. The isolated bacteria are then incubated with chlorophenol red-β-d-galactopyranoside (CPRG), which reacts with β-gal to produce chlorophenol red (CPR) in a bacteria concentration-dependent manner. In the second step, CPR and CPRG are separated and focused using an isotachophoretic microfluidic paper-based analytical device, significantly improving the final detection limit relative to paper-based devices lacking the focusing mechanism. Moreover, CPR and CPRG form two visible color bands that act as test and control bands, respectively, improving assay robustness. The method was tested with E. coli DH5-α and successfully detected concentrations as low as 9.2 CFU/mL in laboratory samples and 920 CFU/mL in apple juice samples in ∼90 min.