APA
Aresti, Ainhoa & Aragoneses, Javier & López Valverde, Nansi & Suárez, Ana & Aragoneses, Juan Manuel .Effectiveness of Biofunctionalization of Titanium Surfaces with Phosphonic Acid.
ISO 690
Aresti, Ainhoa & Aragoneses, Javier & López Valverde, Nansi & Suárez, Ana & Aragoneses, Juan Manuel. Effectiveness of Biofunctionalization of Titanium Surfaces with Phosphonic Acid.
https://hdl.handle.net/20.500.12080/26258
Resumen:
: Surface functionalization of dental implant surfaces has been a developing field in biomaterial research. This study aimed to obtain self-assembled monolayers (SAMs) using carboxyethylphosphonic acid on the surface of titanium (Ti) screws, and assessed the surface characteristics, biomechanical, and cellular behavior on the obtained specimens. This study had three groups, i.e., a control
(untreated screws), a test group treated with phosphonic acid, and a third group with treated acid
and bone morphogenetic protein (BMP-2) for in vitro analysis of cell lines. The assessed parameters included surface wettability, surface characteristics using scanning electron microscopy (SEM),
protein immobilization, and cellular behavior of fibroblasts and mesenchymal stem cells of adipose
tissue (MSCat cells). For surface wettability, a Welch test was performed to compare the contact
angles between control (67 ± 1.83) and test (18.84 ± 0.72) groups, and a difference was observed in
the mean measurements, but was not statistically significant. The SEM analysis showed significant
surface roughness on the test screws and the cellular behavior of fibroblasts, and MSCat cells were
significantly improved in this group, with fibroblasts having a polygonal shape with numerous vesicles and MSCat cells stable and uniformly coating the test Ti surface. Surface biofunctionalization of
Ti surfaces with phosphonic acid showed promising results in this study, but remains to be clinically
validated for its applications.