J. Chevallier scite author profile

The interaction between dental pulp derived mesenchymal stem cells (DP-MSCs) and three different tantalum nanotopographies with and without a fibronectin coating is examined: sputter-coated tantalum surfaces with low surface roughness <0.2 nm, hut-nanostructured surfaces with a height of 2.9 +/- 0.6 nm and a width of 35 +/- 8 nm, and dome structures with a height of 13 +/- 2 nm and a width of 52 +/- 14 nm. Using ellipsometry, the adsorption and the availability of fibronectin cell-binding domains on the tantalum surfaces were examined, as well as cellular attachment, proliferation, and vinculin focal adhesion spot assembly on the respective surfaces. The results showed the highest fibronectin mass uptake on the hut structures, with a slightly higher availability of cell-binding domains and the most pronounced formation of vinculin focal adhesion spots as compared to the other surfaces. The proliferation of DP-MSCs was found to be significantly higher on dome and hut surfaces coated with fibronectin compared to the uncoated flat tantalum surfaces. Consequently, the results presented in this study indicate that fibronectin-coated nanotopographies with a vertical dimension of less than 5 nm influence cell adhesion. This rather interesting behavior is argued to originate from the more available fibronectin cell-binding domains observed on the hut structures.

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Bovine serum albumin adsorption on nano-rough platinum surfaces studied by QCM-D

Dolatshahi-Pirouz

Rechendorff

Hovgaard

et al. 2008

Colloids and Surfaces B: Biointerfaces

146

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Adsorption of fibrinogen on tantalum oxide, titanium oxide and gold studied by the QCM-D technique

Hemmersam

Foss

Chevallier

et al. 2005

Colloids and Surfaces B: Biointerfaces

114

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Supercritical Propanol–Water Synthesis and Comprehensive Size Characterisation of Highly Crystalline anatase TiO2 Nanoparticles

Hald

Becker

Bremholm

et al. 2006

Journal of Solid State Chemistry

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Fibronectin Adsorption on Tantalum: The Influence of Nanoroughness

et al. 2008

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The complex mechanisms of protein adsorption at the solid-liquid interface is of great importance in many research areas, including protein purification, biocompatibility of medical implants, biosensing, and biofouling. The protein adsorption process depends crucially on both the nanoscale chemistry and topography of the interface. Here, we investigate the adsorption of the cell-binding protein fibronectin on flat and nanometer scale rough tantalum oxide surfaces using ellipsometry and quartz crystal microbalance with dissipation (QCM-D). On the flat tantalum oxide surfaces, the interfacial protein spreading causes an increase in the rigidity and a decrease in the thickness of the adsorbed fibronectin layer with decreasing bulk protein concentration. For the tantalum oxide surfaces with well-controlled, stochastic nanometer scale roughness, similar concentration effects are observed for the rigidity of the fibronectin layer and saturated fibronectin uptake. However, we find that the nanorough tantalum oxide surfaces promote additional protein conformational changes, an effect especially apparent from the QCM-D signals, interpreted as an additional stiffening of the formed fibronectin layers.

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J. Chevallier

Fibronectin Adsorption, Cell Adhesion, and Proliferation on Nanostructured Tantalum Surfaces

Bovine serum albumin adsorption on nano-rough platinum surfaces studied by QCM-D

Adsorption of fibrinogen on tantalum oxide, titanium oxide and gold studied by the QCM-D technique

Supercritical Propanol–Water Synthesis and Comprehensive Size Characterisation of Highly Crystalline anatase TiO2 Nanoparticles

Fibronectin Adsorption on Tantalum: The Influence of Nanoroughness

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