Microfluidics has found widespread application in the fields of molecular biology, DNA analysis and most recently, point of care diagnostics. We present a paper based microfluidic device for rapid, in-the-field detection of pathogenic bacteria in water. Conventional detection methods require a 24 hour culturing step, making them incapable of providing real time results. This means communities are allowed to continue using contaminated water until a result is obtained and a warning is issued. By then, it may be too late to prevent illness. The device makes use of the natural recognition properties of antibodies for antigens and uses nano-gold particles to create a visual test result. The device is designed using design programmes and manufactured using solid ink printing technology. Initial targeted users include municipal field workers and waste water treatment plants.
Reference:
Govindasamy, K, Potgieter, S, Kumar, S, Land, K and Muzenda, E. Paper based microfluidic devices for environmental diagnostics. The South African Institution of Chemical Engineers Conference 2012 (SAIChE 2012), Champagne Sports Resort, Drakensberg, KwaZulu-Natal, 16-19 September 2012
Govindasamy, K., Potgieter, S., Kumar, S., Land, K., & Muzenda, E. (2012). Paper based microfluidic devices for environmental diagnostics. http://hdl.handle.net/10204/6131
Govindasamy, K, S Potgieter, S Kumar, K Land, and E Muzenda. "Paper based microfluidic devices for environmental diagnostics." (2012): http://hdl.handle.net/10204/6131
Govindasamy K, Potgieter S, Kumar S, Land K, Muzenda E, Paper based microfluidic devices for environmental diagnostics; 2012. http://hdl.handle.net/10204/6131 .
The South African Institution of Chemical Engineers Conference 2012 (SAIChE 2012), Champagne Sports Resort, Drakensberg, KwaZulu-Natal, 16-19 September 2012
