Hydrothermal treatment of laser micro-textured Ti6Al4V systems for osseointegration of orthopaedic implants

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abstract

New orthopaedic implant designs, coupled with tailored surface enhancements, strive to accelerate initial bone formation by enhancing the interface with the adjacent bone tissue. In this study, we report the conceptualization and in vitro testing of Titanium 6-Aluminium 4-Vanadium (Ti6Al4V) systems, focusing on the formation of a pyramid-inspired architectural structure integrating the precision of laser surface texturing with hydrothermal treatment and biofunctionalization with human fibronectin. This configuration features micro-scaled pillars with uniform width and height, accompanied by grooves of diverse dimensions, providing spatial confinement for human mesenchymal stem cells (MSC). Textured Ti6Al4V systems were profiled in terms of physicochemical characteristics (surface roughness, chemical composition, crystalline structure, and wettability) and in vitro mineralization capacity in comparison with conventional sand-blasted, large-grit, acid-etched (SLA). Notably, textured Ti6Al4V systems exhibited robust MSC adhesion, and their mineralization capacity was on par with, or even exceeded, that of the SLA Ti6Al4V surfaces. Together, the findings presented in this work indicate that engineering pillar micro-structures with controllable dimensional features coupled with hydrothermal treatment and fibronectin coating is a promising strategy to modulate MSC activation for potential enhancement of osseointegration.

keywords

TITANIUM-ALLOY TI-6AL-4V; OSTEOGENIC DIFFERENTIATION; STEM-CELLS; SURFACE; BONE; OXIDATION; BEHAVIOR; BIOMATERIALS; FIBRONECTIN; WETTABILITY

subject category

Optics

authors

Melo-Fonseca, F; Gasik, M; Freitas, PP; Carvalho, DN; Pinto, IM; Silva, FS; Miranda, G

our authors

foto Georgina Miranda

Georgina Miranda

Assistant Professor

Groups

G3 - Electrochemical Materials, Interfaces and Coatings

Projects

Additive manufacturing meets mechanobiology – design and fabrication of osteogenic-stimulating implants (ADD2MECHBIO)

CICECO - Aveiro Institute of Materials (UIDB/50011/2020)

CICECO - Aveiro Institute of Materials (UIDP/50011/2020)

Associated Laboratory CICECO-Aveiro Institute of Materials (LA/P/0006/2020)

acknowledgements

This work was supported by FCT (Fundacao para a Ciencia e a Tecnologia) through the grants SFRH/BD/141056/2018, COVID/BD/152996/2022 and UMINHO/BID/2023/04, the project PTDC/EME-EME/1442/2020 and under the national support to R & D units grant, through the reference projects UIDB/04436/2020 and UIDP/04436/2020. In addition, this work was developed within the scope of the project CICECO-Aveiro Institute of Materials, UIDB/50011/2020, UIDP/50011/2020 & LA/P/0006/2020, financed by national funds through the FCT/MCTES (PIDDAC) .

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Publication Details

type
Journal Article
year
2024
journal
OPTICS AND LASERS IN ENGINEERING
volume
183
article number
108511
publisher
ELSEVIER SCI LTD
issn
0143-8166
isbn
1873-0302
digital object identifier
10.1016/j.optlaseng.2024.108511
link
hybrid
web of science article identifier
WOS:001301529300001

Journal Metrics (JCR 2019)

Journal Impact Factor
4.273
Journal Impact Factor (5 yrs)
3.844
category normalized journal percentile
85.052

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