Quantification of bacterial adherence on different textile fabrics

This research studied the adherent behaviour of gram-negative Escherichia coli on different weft knitted textile fabrics made of cotton, polyester filaments and polyester (staple)-cotton blended yarn. We compared the bacterial adherence of 18-h-old E. coli cells on all the three types of fabrics under the same experimental conditions. The maximum adherence was found in cotton, followed by the polyester blend: the least adherence was in polyester fabrics. Scanning electron micrographs showed that surface morphology of fabrics also plays an important role during adherence. Cotton fabric, with a rough surface, attracted more bacterial cells compared to the smooth polyester surface. Comparing the FTIR spectra of different fabrics and E. coli it was found that both cotton and E. coli have abundant free hydroxyl groups that may interact strongly with each other and with other hydrophilic groups such as carboxyl, phosphate, and amides. This may be one of the reasons for the greater adherence on cotton as compared to hydrophobic polyester fabric. Finally, the effect of bacterial adherence on loss of strength in different fabrics was analysed. It was found that the maximum decrease in strength occurred in cotton fabrics and the least in polyester fabrics. The present study suggests a procedure for quantifying bacterial adherence on different textile fabrics. This technique can be used with different bacterial strains and varieties of fabrics for quantifying the adherent bacterial cells, and would be of great use in developing and comparing different antimicrobial finished products of the textile industry. (C) 2011 Elsevier Ltd. All rights reserved.