Alkali- and heat-treated porous titanium for orthopedic implants

## Abstract In cementless fixation systems, surface character is an important factor. Alkali and heat treatments of titanium metal have been shown to produce strong bonding to bone and a higher ongrowth rate. In this study we examined the effect of alkali and heat treatments on titanium rods in an

## Abstract Recent results indicate varying degrees of bone ingrowth into porous metal and ceramic bodies. Such homogeneously porous ceramic and metal implants generally possess inadequate mechanical properties, limiting their application to low stress or nonstructural applications. An experiment w

## Abstract In orthopedic surgery bony defects remains a challenge. In generally autologous or heterologous bony transplants can be used. Main problem is the limited amount of bone and donor site morbidity. Nowadays excellent implants and scaffolds at low costs are necessary in respect to the finan

Alkali- and heat-treated tantalum (Ta) has been shown to bond to bone. The purpose of this study was to investigate the effects of chemical treatments on the bone-bonding ability of tantalum implants in rabbit tibiae. Miyazaki et al. reported in vitro that alkali- and heat-treated tantalum had an ap

## Abstract Fibrin deposition and platelet adhesion onto alkali‐ and heat‐treated titanium metal (AH‐Ti), alkali‐ and water‐treated titanium metal (Wa‐Ti), and alkali‐ and heat‐treated titanium metal formed with apatite (Ap‐Ti) in simulated body fluid (SBF) were evaluated by exposure to anticoagula

## Abstract __In vitro__ studies of Ti‐6Al‐7Nb and Ti‐5Al‐2Nb‐1Ta alloys were carried out by treating the specimens with 10__M__ NaOH at 60°C for 24 h and subsequently heat‐treated at 600°C for 1 h. After the alkali and heat treatments, and on subsequent soaking in simulated body fluid (SBF), the m