Effects of titanium-dental restorative alloy galvanic couples on cultured cells

## Abstract Resin‐modified glass‐ionomer (RMGIC) has been demonstrated to exhibit inhibition on the growth and differentiation of osteoblasts on its surface. In this study, the hypothesis that the different levels of inhibitory effects on osteoblasts of resin restoratives depend on elution of unpol

## Abstract Equiatomic and near‐equiatomic nickel–titanium alloys exhibit a shape‐memory effect and superelasticity. However, the properties of such alloys are extremely sensitive to the precise nickel–titanium ratio and the addition of alloying elements. High corrosion resistance is necessary for

## Abstract Rat bone marrow stromal cells were cultured on either Ra (0.14 μm) or Ra (5.8 μm) Ti~6~Al~4~V discs for 24 or 48 h. Cells on the Ra (0.14 μm) surface showed typical fibroblastic morphology, whereas cells on the Ra (5.8 μm) surface were in clusters with a more epithelial appearance. RNA

## Abstract Commercially pure titanium (cpTi), Ti6Al4V, an experimental β‐type titanium (Ti 53.4 wt%, Nb 29 wt %, Ta 13 wt %, and Zr 4.6 wt %), and 12%AuPdAg alloy plates were sandblasted, cleaned in water, and dried. cpTi plates were treated with nine alkaline treatments that differed in the type

## Abstract Cells within the periodontal ligament have the potential to regenerate a periodontal connective tissue attachment on pathologically exposed root surfaces as well as on several material surfaces including titanium. However, rather than a periodontal connective tissue attachment, a fibrou

## Abstract The surface characteristics of a calcium ion (Ca)‐incorporated titanium (Ti) surface, produced by hydrothermal treatment using an alkaline Ca‐containing solution, and its effects on osteoblastic differentiation were investigated. MC3T3‐E1 pre‐osteoblastic cells were cultured on machined