Article
Surface Modification of Porous Titanium Discs Using Femtosecond Laser Structuring
Author/s | Rodríguez Carballo, Ángel
Trueba Muñoz, Paloma Amado Paz, José Manuel Tobar Vidal, María José Giner García, Mercedes Amigó Borrás, Vicente Torres Hernández, Yadir |
Department | Universidad de Sevilla. Departamento de Ingeniería y Ciencia de los Materiales y del Transporte Universidad de Sevilla. Departamento de Citología e Histología Normal y Patológica |
Publication Date | 2020-06 |
Deposit Date | 2020-09-09 |
Published in |
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Abstract | The failure of titanium implants is associated with two main problems that include the bone resorption and fracture of the surrounding bone tissue (stiffness incompatibility) and implant loosening (poor osseointegration). ... The failure of titanium implants is associated with two main problems that include the bone resorption and fracture of the surrounding bone tissue (stiffness incompatibility) and implant loosening (poor osseointegration). The development of porous titanium implants with low Young modulus solve the stress shielding phenomenon, while the modification of the implant surface must be implemented to promote a fast bond between the implant and bone. In this work, femtosecond laser micromachining was applied to modify the topography of the surface of Ti porous samples obtained by a space-holder technique to obtain hierarchical structures (micro and nano roughness patterns) to enhance osseointegration. Scanning electron microscopy, confocal laser microscopy, andimageanalysiswereusedforcharacterizationofthesurfacemorphology,roughness,andporosity before and after performing the laser treatment. Based on these results, the effect of the treatment on the mechanical behavior of the samples was estimated. In addition, a preliminary in-vitro test was performed to verify the adhesion of osteoblasts (filopodia presence) on modified titanium surface. Resultsrevealedthatlasertexturinggeneratedclustersofmicro-holesandmicro-columnsbothonthe flat surface of the samples and inside the macro-pores, and periodic nanometric structures across the entire surface. The porous substrate offers suitable biomechanics (stiffness and yield strength) and bio-functional behavior (bone ingrowth and osseointegration), which improves the clinic success of titanium implants. |
Project ID. | US-1259771 |
Citation | Rodríguez Carballo, Á., Trueba Muñoz, P., Amado Paz, J.M., Tobar Vidal, M.J., Giner García, M., Amigó Borrás, V. y Torres Hernández, Y. (2020). Surface Modification of Porous Titanium Discs Using Femtosecond Laser Structuring. Metals, 10 (6), 748-. |
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