4.6 Article

Cellular transcriptional response to zirconia-basedimplant materials

期刊

DENTAL MATERIALS
卷 33, 期 2, 页码 241-255

出版社

ELSEVIER SCI LTD
DOI: 10.1016/j.dental.2016.12.005

关键词

Alveolar bone osteoblasts; Gingiva fibroblasts; Gene profiling; Zirconia composite; Dental implants

资金

  1. European Community [280741]

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Objective. To adequately address clinically important issues such as osseointegration and soft tissue integration, we screened for the direct biological cell response by culturing human osteoblasts and gingival fibroblasts on novel zirconia-based dental implant biomaterials and subjecting them to transcriptional analysis. Methods. Biomaterials used for osteoblasts involved micro-roughened surfaces made of a new type of ceria-stabilized zirconia composite with two different topographies, zirco-nium dioxide, and yttria-stabilized zirconia (control). For fibroblasts smooth ceria-and yttria-stabilized zirconia surface were used. The expression of 90 issue-relevant genes was determined on mRNA transcription level by real-time PCR Array technology after growth periods of 1 and 7 days. Results. Generally, modulation of gene transcription exhibited a dual dependence, first by time and second by the biomaterial, whereas biomaterial-triggered changes were pre dominantly caused by the biomaterials' chemistry rather than surface topography. Per se, modulated genes assigned to regenerative tissue processes such as fracture healing and wound healing and in detail included colony stimulating factors (CSF2 and CSF3), growth factors, which regulate bone matrix properties (e.g. BMP3 and TGFB1), osteogenic BMPs (BMP2/4/6/7) and transcription factors (RUNX2 and SP7), matrix collagens and osteocalcin, laminins as well as integrin 1 and MMP- Significance. With respect to the biomaterials under study, the screening showed that a new zirconia-based composite stabilized with ceria may be promising to provide clinically desired periodontal tissue integration. Moreover, by detecting biomarkers modulated in a time-and/or biomaterial-dependent manner, we identified candidate genes for the targeted analysis of cell-implant bioresponse during biomaterial research and development. (C) 2016 The Academy of Dental Materials. Published by Elsevier Ltd. All rights reserved.

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