Specific detection and quantification of culturable and non-culturable mycobacteria in metalworking fluids by fluorescence-based methods

Aims: To optimize and evaluate fluorescence microscopy assays for specific assessment of mycobacteria and co‐contaminants, including culturable and non‐culturable sub‐populations, in metalworking fluids (MWF). Methods and Results: Auramine‐O‐rhodamine (AR) staining and LIVE/DEAD BacLight? Bacterial Viability staining (L/D staining) were adapted and evaluated for detection/quantification and differentiation (viable vs non‐viable) of the MWF‐associated mycobacteria and the background bacterial flora, respectively. The AR staining method was found to be specific to MWF mycobacteria with a minimum detection limit of 10 cells ml^?1 and was comparable to the QPCR in quantification efficiency in MWF matrix. The L/D staining‐based microscopy allowed differential quantification of viable vs non‐viable cells. In general, a 3‐log difference was observed between the L/D microscopy count and culture count accounting for the presence of non‐culturable fraction in the bacterial population in in‐use MWF. Conclusions: The optimized AR staining‐ and the L/D staining‐based microscopy methods have the potential for rapid, specific and differential assessment (viable vs non‐viable) of MWF‐associated mycobacteria and co‐contaminants in field MWF. Significance and Impact of the study: Early detection of MWF mycobacteria by rapid, low‐cost, less‐skill intensive and culture‐independent fluorescence‐based microscopy methods will facilitate timely intervention to protect the machine workers from occupational hazards.