The aim of the present work was to assess the surface ability of three bioceramic materials (A: alumina BIOLOX® forte; B: Si3N4; C: alumina matrix composite BIOLOX® delta) to inhibit bacterial biofilm formation. For this purpose, ceramic disks at standardized roughness (Ra = 0,25 μm) were used as test materials while commercial polystyrene was considered as control. Two biofilm-producing bacterial strains (S. epidermidis ATCC14990, Escherichia coli ATCC25922) were used for experiments. The viable biomass was assessed by the metabolic MTT assay after 24h incubation. Morphological data regarding biofilms structure were obtained by scanning electron microscopy. In general, results revealed that all bioceramics materials were significantly less colonized compared to polystyrene. The degree of biofilm formation onto bioceramics ranged between about 30 to 60% less than the polystyrene control. Moreover, some differences were noticed by comparing the three bioceramics inhibition ratio: bioceramic A showed significanlty less S. epidermidis biofilm formation (p<0.005) compared to B and C that showed similar performance. Conversely, no difference were noted for E. coli biofilm amount for A, B and C. In conclusion, the tested materials showed capability to reduce biofilm formation to a different extent depending on the tested bacterial strains.
Bioceramic Materials Show Reduced Pathological Biofilm Formation / C. Piconi, A.C. Ionescu, A. Cochis, E. Iasi, E. Brambilla, L. Rimondini (KEY ENGINEERING MATERIALS). - In: Key Engineering Materials / [a cura di] M.-P. Ginebra, C. Canal, M. Espanol, E.B. Montufar, R.A. Perez. - [s.l] : Trans Tech, 2015. - ISBN 978303835282-2. - pp. 448-453 (( Intervento presentato al 26. convegno Symposium and Annual Meeting of the International Society for Ceramics in Medicine tenutosi a Barcelona nel 2014 [10.4028/www.scientific.net/KEM.631.448].
Bioceramic Materials Show Reduced Pathological Biofilm Formation
A.C. Ionescu;E. BrambillaPenultimo
;
2015
Abstract
The aim of the present work was to assess the surface ability of three bioceramic materials (A: alumina BIOLOX® forte; B: Si3N4; C: alumina matrix composite BIOLOX® delta) to inhibit bacterial biofilm formation. For this purpose, ceramic disks at standardized roughness (Ra = 0,25 μm) were used as test materials while commercial polystyrene was considered as control. Two biofilm-producing bacterial strains (S. epidermidis ATCC14990, Escherichia coli ATCC25922) were used for experiments. The viable biomass was assessed by the metabolic MTT assay after 24h incubation. Morphological data regarding biofilms structure were obtained by scanning electron microscopy. In general, results revealed that all bioceramics materials were significantly less colonized compared to polystyrene. The degree of biofilm formation onto bioceramics ranged between about 30 to 60% less than the polystyrene control. Moreover, some differences were noticed by comparing the three bioceramics inhibition ratio: bioceramic A showed significanlty less S. epidermidis biofilm formation (p<0.005) compared to B and C that showed similar performance. Conversely, no difference were noted for E. coli biofilm amount for A, B and C. In conclusion, the tested materials showed capability to reduce biofilm formation to a different extent depending on the tested bacterial strains.
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