Dental Implants

Osseointegration is a major factor influencing the success of dental implants. To achieve rapid and strong durable osseoin-tegration, biomaterial researchers have investigated various surface treatment methods for titanium dental implants. Current dental implant research has studied the interaction between bone and implant surface in order to understand the osseointegration process. This special dental implant issue addresses the role of titanium dental implant surface treatment, chemical or topographic modification, and cells interactions. All these parameters can affect bone healing, promote accelerated osteogenesis, and increase bone-implant contact and bond strength. The themes include a relevant interest about the properties of dental implant surfaces, analysis of molecular mechanisms which occur at the interface between bone and dental implant, evaluation of the biological behavior of the host's tissues at the interface with the implant, and considerations of implant micro-and nanotopography and its superficial chemical structure. Researchers present their results of investigation of various surface treatment methods for dental titanium implants, show the biological basis for successful implant therapy, and analyzed the effect of plasma fibronectin. In F. P. S. Guastaldi et al. 's paper, the authors propose a novel plasma treatment for dental implant surfaces. Their results suggested that even after 30 days of plasma treatment, the biological responses were better than those of nontreated surfaces. In M. Monjo et al. 's paper, the authors compared the cyto-toxicity, cell morphology and proliferation, alkaline phos-phatase activity, gene expression, and the release of a wide array of osteoblast markers of two commercial titanium (Ti) surfaces (OsseoSpeed and TiOblast). They observed changes in cell shape and BMP-2 secretion after 2 days between the surfaces, and this was followed by increased IGF-I, BSP, osterix gene expression and mineralization after 14 days. In C. N. Elias et al's paper, the authors research the effects of dental implant surface treatment with fluoride and fibronectin adsorption on the adhesion of osteoblasts. They investigated the biofunctionalization of titanium surfaces and examine their effects on the interaction with osteoblastic cells. They observed that the association indexes of osteoblastic cells in fibronectin-treated samples were significantly higher than those in samples without fibronectin. The radioactivity values suggested that fibronectin incorporation is an important determinant of the in vitro cytocompatibility of the surfaces. They concluded that the preparation of bioactive titanium surfaces via fluoride and FN retention proved to be a useful treatment to optimize and to accelerate the osseointegration process of dental implants. In C. …