2446
An Advanced Magnetoelastic (ME) Sensing of Salmonella By the Improvement of Pathogen Recovery Rate Using Tween20 Modified Swabs

Wednesday, 16 May 2018: 17:40
Room 303 (Washington State Convention Center)
Y. Liu, S. Du (Materials Research & Education Center, Auburn University), S. Horikawa (Auburn University), I. H. Chen, J. Xi, X. Lu (Material Research & Education Center, Auburn University), T. S. Huang (Auburn University), and B. A. Chin (Material Research & Education Center, Auburn University)
Swabbing, as an inexpensive, easy-to-use, and widely accepted sampling method, has been used to help magnetoelastic (ME) biosensing system for the surface pathogen quick detection. This paper introduced a modification method using a surfactant, Tween20, to help to improve the recovery rate of different swabs. In our previous research, swabbing substituted the direct ME sensor detection on the sample surfaces, which improved the detection area of one sensor from 0.2X1 mm2 into 30X30 mm2. This amendment altered the former surface spot measurement into a large area measurement. To improve the accuracy of this swabbing technique to a better level, a higher recovery rate is needed. Tween20, a stable and relatively non-toxic surfactant, was employed to modify the fibers of swabs so that after the pathogens are picked up, they would be easier to be released into DI water and detected by ME sensors. In this research, traditional swabs, such as cotton-tipped, rayon-tipped, and novel flocked swabs are used for comparison.