Antimicrobial performance of mesoporous titania thin films: role of pore size, hydrophobicity, and antibiotic release

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Fältnamn	Indikatorer	Metadata
000		03699naa a2200433 4500
001		oai:research.chalmers.se:3639f1bc-f797-44b7-90c9-54ba50faa1f8
003		SwePub
008		171007s2016 \| \|\|\|\|\|\|\|\|\|\|\|000 \|\|eng\|
024	7	a https://research.chalmers.se/publication/2342302 URI
024	7	a https://doi.org/10.2147/ijn.s953752 DOI
040		a (SwePub)cth
041		a engb eng
042		9 SwePub
072	7	a art2 swepub-publicationtype
072	7	a ref2 swepub-contenttype
100	1	a Atefyekta, Saba,d 1987u Chalmers tekniska högskola,Chalmers University of Technology4 aut0 (Swepub:cth)sabaa
245	1 0	a Antimicrobial performance of mesoporous titania thin films: role of pore size, hydrophobicity, and antibiotic release
264		c 2016-03
264	1	b Informa UK Limited,c 2016
338		a electronic2 rdacarrier
520		a Implant-associated infections are undesirable complications that might arise after implant surgery. If the infection is not prevented, it can lead to tremendous cost, trauma, and even life threatening conditions for the patient. Development of an implant coating loaded with antimicrobial substances would be an effective way to improve the success rate of implants. In this study, the in vitro efficacy of mesoporous titania thin films used as a novel antimicrobial release coating was evaluated. Mesoporous titania thin films with pore diameters of 4, 6, and 7 nm were synthesized using the evaporation-induced self-assembly method. The films were characterized and loaded with antimicrobial agents, including vancomycin, gentamicin, and daptomycin. Staphylococcus aureus and Pseudomonas aeruginosa were used to evaluate their effectiveness toward inhibiting bacterial colonization. Drug loading and delivery were studied using a quartz crystal microbalance with dissipation monitoring, which showed successful loading and release of the antibiotics from the surfaces. Results from counting bacterial colony-forming units showed reduced bacterial adhesion on the drug-loaded films. Interestingly, the presence of the pores alone had a desired effect on bacterial colonization, which can be attributed to the documented nanotopographical effect. In summary, this study provides significant promise for the use of mesoporous titania thin films for reducing implant infections.
650	7	a TEKNIK OCH TEKNOLOGIERx Nanoteknik0 (SwePub)2102 hsv//swe
650	7	a ENGINEERING AND TECHNOLOGYx Nano-technology0 (SwePub)2102 hsv//eng
653		a antibacterial
653		a drug delivery
653		a mesoporous titania
653		a implant coating
700	1	a Ercan, B.u Northeastern University,Orta Doğu Teknik Üniversitesi,Middle East Technical University (METU)4 aut
700	1	a Karlsson, Johan,d 1984u Chalmers tekniska högskola,Chalmers University of Technology4 aut0 (Swepub:cth)karjoha
700	1	a Taylor, E.u Northeastern University4 aut
700	1	a Chung, S.u Northeastern University4 aut
700	1	a Webster, Thomasu Chalmers tekniska högskola,Chalmers University of Technology4 aut
700	1	a Andersson, Martin,d 1974u Chalmers tekniska högskola,Chalmers University of Technology4 aut0 (Swepub:cth)martina
710	2	a Chalmers tekniska högskolab Northeastern University4 org
773	0	t International journal of nanomedicined : Informa UK Limitedg 11, s. 977-990q 11<977-990x 1176-9114x 1178-2013
856	4	u http://publications.lib.chalmers.se/records/fulltext/234230/local_234230.pdfx primaryx freey FULLTEXT
856	4	u https://www.dovepress.com/getfile.php?fileID=29356
856	4 8	u https://research.chalmers.se/publication/234230
856	4 8	u https://doi.org/10.2147/ijn.s95375

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