Interdigitated silver-polymer-based antibacterial surface system activated by oligodynamic iontophoresis – An empirical characterization study

Rohan Shirwaiker; Richard Wysk; Subhashinie Kariyawasam; Robert Voigt; Hector Carrion; Harriet Nembhard

doi:10.1007/s10544-013-9800-x

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Interdigitated silver-polymer-based antibacterial surface system activated by oligodynamic iontophoresis – An empirical characterization study

Journal article

Peer reviewed

Interdigitated silver-polymer-based antibacterial surface system activated by oligodynamic iontophoresis – An empirical characterization study

Rohan Shirwaiker, Richard Wysk, Subhashinie Kariyawasam, Robert Voigt, Hector Carrion and Harriet Nembhard

Biomedical microdevices, Vol.16(1), pp.1-10

02/2014

DOI: 10.1007/s10544-013-9800-x

PMID: 23917746

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Abstract

There is a pressing need to control the occurrences of nosocomial infections due to their detrimental effects on patient well-being and the rising treatment costs. To prevent the contact transmission of such infections via health-critical surfaces, a prophylactic surface system that consists of an interdigitated array of oppositely charged silver electrodes with polymer separations and utilizes oligodynamic iontophoresis has been recently developed. This paper presents a systematic study that empirically characterizes the effects of the surface system parameters on its antibacterial efficacy, and validates the system’s effectiveness. In the first part of the study, a fractional factorial design of experiments (DOE) was conducted to identify the statistically significant system parameters. The data were used to develop a first-order response surface model to predict the system’s antibacterial efficacy based on the input parameters. In the second part of the study, the effectiveness of the surface system was validated by evaluating it against four bacterial species responsible for several nosocomial infections – Staphylococcus aureus, Escherichia coli, Pseudomonas aeruginosa, and Enterococcus faecalis – alongside non-antibacterial polymer (acrylic) control surfaces. The system demonstrated statistically significant efficacy against all four bacteria. The results indicate that given a constant total effective surface area, the system designed with micro-scale features (minimum feature width: 20 μm) and activated by 15 μA direct current will provide the most effective antibacterial prophylaxis.

Antibacterial surface

Biomedical Engineering

Biophysics and Biological Physics

Engineering

Engineering Fluid Dynamics

Ions

Low intensity direct electric current (LIDC)

Nanotechnology

Silver

Details

Title: Subtitle: Interdigitated silver-polymer-based antibacterial surface system activated by oligodynamic iontophoresis – An empirical characterization study
Creators: Rohan Shirwaiker - North Carolina State University
Richard Wysk - North Carolina State University
Subhashinie Kariyawasam - Pennsylvania State University
Robert Voigt - Pennsylvania State University
Hector Carrion - Pennsylvania State University
Harriet Nembhard - Pennsylvania State University
Resource Type: Journal article
Publication Details: Biomedical microdevices, Vol.16(1), pp.1-10
Publisher: Springer US
DOI: 10.1007/s10544-013-9800-x
PMID: 23917746
ISSN: 1387-2176
eISSN: 1572-8781
Language: English
Date published: 02/2014
Academic Unit: Engineering Administration; Industrial and Systems Engineering
Record Identifier: 9984186960702771

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