A Novel Hybrid-Structured Titanium Surface Promotes Adhesion of Human Dermal Fibroblasts and Osteogenesis of Human Mesenchymal Stem Cells while Reducing S-epidermidis Biofilm Accumulation
Title
A Novel Hybrid-Structured Titanium Surface Promotes Adhesion of Human Dermal Fibroblasts and Osteogenesis of Human Mesenchymal Stem Cells while Reducing S-epidermidis Biofilm Accumulation
Creator
Park B W; Krieger J; Sondag G R; Moussa F M; Rankenberg J; Safadi F F; Gatsonis N A; McGimpsey W G; Lambert C R; Malcuit C
Publisher
Advanced Engineering Materials
Date
2016
2016-04
Description
We provide a comparative analysis of protein adsorption, primary human cell behavior, and biofilm formation on modified titanium substrates of either micro-, nano-, or hybrid micro/nano-scale feature sizes. While studies revealed that nano-scale structures initially decreased the attachment and spreading of both human fibroblasts (hDFs) and mesenchymal stem cells (hMSCs), hMSC differentiation studies revealed that hybrid structures promoted the highest levels of osteogenic gene expression and attenuated biofilm formation by Staphylococcus epidermidis. Taken together, this novel approach of generating a hybrid topographical feature results in a potential implant material capable of enhanced dermal cell adhesion and osteogenic differentiation while limiting biofilm accumulation.
Subject
differentiation; energy; hydrophilicity; implants; in-vitro; Materials Science; nanotopography; osseointegration; osteoactivin; osteoblast lineage cells; responses
Identifier
Format
Journal Article
URL Address
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Rights
Article information provided for research and reference use only. All rights are retained by the journal listed under publisher and/or the creator(s).
Pages
518-531
Issue
4
Volume
18
Citation
Park B W; Krieger J; Sondag G R; Moussa F M; Rankenberg J; Safadi F F; Gatsonis N A; McGimpsey W G; Lambert C R; Malcuit C, “A Novel Hybrid-Structured Titanium Surface Promotes Adhesion of Human Dermal Fibroblasts and Osteogenesis of Human Mesenchymal Stem Cells while Reducing S-epidermidis Biofilm Accumulation,” NEOMED Bibliography Database, accessed January 25, 2025, https://neomed.omeka.net/items/show/6720.