Surface modification of titanium with poly(amidoamine) dendrimer and its impact on bacterial adhesion and biofilm formation

Name: Wanida Wattanakaroon

Organization : Silpakorn University. Faculty of Engineering and Industrial Technology

Email : watanakaroon_w@su.ac.th

Name: Kidtiya Boonkasam

Organization : Silpakorn University. Faculty of Engineering and Industrial Technology

Name: Rossanee Fordsoongnern

Organization : Silpakorn University. Faculty of Engineering and Industrial Technology

Name: Yanisa Jongrakwit

Organization : Silpakorn University. Faculty of Engineering and Industrial Technology

Name: Nareenart Sripho-on

Organization : Silpakorn University. Faculty of Engineering and Industrial Technology

keyword: Poly(amidoamine) dendrimers

LCSH: Titanium -- Surface

; Surface modification (Materials)

LCSH: Biofilms -- Prevention

Abstract: Titanium-based materials have been widely used as implants in various applications. However, bacterial infections associated with titanium implants remain a serious clinical problem. Development of functional materials to improve efficacy and prevent infection is a promising solution. Thus, the use of poly(amidoamine) (PAMAM) dendrimer for coating was proposed as an effective strategy to control bacterial infection and colonization on the device surface. In this study, we performed the surface coating or functionalization of titanium with PAMAM dendrimer at a concentration of 1.0 mM. The effects of incubation period and the number of coatings (layer-by-layer) with PAMAM dendrimer were evaluated for optimization of surface modification. Additionally, the coated titanium surface was tested its properties regarding bacterial adhesion and biofilm formation. Results showed that the PAMAM dendrimer adsorbed on the titanium, and the coated surface exhibited functionality. No noticeable discrimination was observed between the incubation of 1 hour with double coating (bilayers) and of 2 hours with single coating (a monolayer). Titanium coated with PAMAM dendrimer showed a reduction in the number of Enterococcus faecalis TISTR 379 attached to the surface of the material compared to non-coated titanium. The antimicrobial test of the treated surfaces indicated the log reduction value of 0.157 ± 0.049 for 1-hour incubation and coating as bilayers and 0.072 ± 0.026 for 2-hour incubation and coating as a monolayer. This alternative coating method has great potential for the preparation of titanium implants and prevention of infections

King Mongkut's University of Technology North Bangkok. Central Library

Address: BANGKOK

Email: library@kmutnb.ac.th

Created: 2024

Modified: 2024-12-03

Issued: 2024-12-03

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application/pdf

BibliograpyCitation : In Kasetsart University. Faculty of Science. The Pure and Applied Chemistry International Conference 2024 (PACCON 2024) (pp.667-670). Bangkok : Kasetsart University, 2024

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