Resazurin reduction based colorimetric antibiogram in microfluidic plastic chip

When drug-resistant bacteria pose a threat, a simple and inexpensive method for identifying their presence and quickly determining the right antibiotic for treatment, is critical. A simple optical detection technique combined with microfluidic technology will have great potential for configuring a portable antibiogram device. We report a colorimetric antibiogram method, based on viability-dependent resazurin dye reduction (intense blue colour changing to pink and leuco). The antibiogram protocol was developed initially in a 96-well plate format. This was tested using 20 clinical bacterial isolates against the minimum inhibitory concentration (MIC) of four antibiotics after 6 h of incubation. The antibiogram results obtained colorimetrically or visually were matched and confirmed with those of the liquid turbidity method (LTM). This antibiogram protocol was then transferred to a Poly(methyl methacrylate) (PMMA) plastic microfluidic chip containing 40 micro wells (8 rows and 5 columns, 20 mu l volume per well). These microfluidic units can serve as disposable devices for portable instrumentation. The plastic microfluidic chip antibiogram showed 98% match with what was obtained in the 96-well plate method. The microfluidic chip offers a novel, compact and inexpensive platform technology for testing/screening of drug-resistant bacteria, and determining their antibiogram. This approach will lead the way for developing portable and low-cost point-of-care antibiotic susceptibility testing instrumentation for the future. Crown Copyright (C) 2012 Published by Elsevier B.V. All rights reserved.