DOMÍNGUEZ-TRUJILLO , Cristina

El titanio comercialmente puro es bien conocido como un material metálico que presenta un comportamiento in vivo adecuado, siendo reconocido como un buen candidato en los reemplazos del tejido óseo cortical. Sin embargo, el fenómeno de apantallamiento de tensiones y la deficiente osteointegración son aún limitaciones por resolver. En este...

Commercial pure titanium is a recognized and accepted material for cortical bone tissue substitution. However, stress-shielding phenomena and lack of osseointegration result in significant limitations. This work is focused on the achievement of an effective solution for both problems via fabrication of porous titanium substrates coated with...

Introducción: el titanio y algunas de sus aleaciones son considerados la mejor opción para fabricar implantes permanentes, debido a sus excelentes propiedades mecánicas y resistencia a la corrosión en el ambiente fisiológico, además de su buena biocompatibilidad y osteointegración. Objetivo: solucionar algunas de las limitaciones más...

In this work, bacterial behavior on dense and porous titanium substrates is discussed. Porous titanium was fabricated by a space holder technique (using 50 vol%, NH4HCO3 with particle sizes between 250 and 355 μm). These substrates were coated by sulfonated PEEK (termed SPEEK). Characterization of the porous substrate was carried out using the...

Titanium implant failures are mainly related to stress shielding phenomenon and the poor cell interaction with host bone tissue. The development of bioactive and biomimetic Ti scaffolds for bone regeneration remains a challenge which needs the design of Ti implants with enhanced osseointegration. In this context, 4 types of titanium samples...

The stress shielding and the poor osseointegration in titanium implants are still problems to be resolved. In this context, this work proposes a balanced solution. Titanium samples were fabricated, with a porosity of 100-200 µm of pore size employing space-holder technique (50 vol. % NH4HCO3, 800 MPa at 1250 ºC during 2h under high vacuum...

Here, titanium porous substrates were fabricated by a space holder technique. The relationship between microstructural characteristics (pore equivalent diameter, mean free-path between pores, roughness and contact surface), mechanical properties (Young's modulus, yield strength and dynamic micro-hardness) and bacterial behavior are discussed....

Two main problems limit the success of titanium implants: bacterial infection, which restricts their osseointegration capacity; and the stiffness mismatch between the implant and the host cortical bone, which promotes bone resorption and risk of fracture. Porosity incorporation may reduce this difference in stiffness but compromise...