Preparation of high-quality pure titanium SLA surface and evaluation of its physicochemical and biological properties - in vitro experiments

Preparation of high-quality pure titanium SLA surface and evaluation of its physicochemical and biological properties - in vitro experiments

Abstract Objectives This study aimed to prepare high-quality sandblasted large-grit acid-etched surfaces of pure titanium and to evaluate their physicochemical and biological properties. Methods We investigated the acid-etching parameters of pure titanium under two sandblasting conditions, focusing...

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Bibliographic Details
Main Authors: Qiqi Liu, Yujia Zhao, Junjiang Hao, Lin Qiu, Hanqi Su, Xinyu Wang, Yucheng Su
Format: Article
Language:English
Published: BMC 2025-07-01
Series:BMC Oral Health
Subjects:
Dental implants
Osseointegration
Pure titanium
Acid etching
Orthogonal design
Online Access:https://doi.org/10.1186/s12903-025-06488-z
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Summary:Abstract Objectives This study aimed to prepare high-quality sandblasted large-grit acid-etched surfaces of pure titanium and to evaluate their physicochemical and biological properties. Methods We investigated the acid-etching parameters of pure titanium under two sandblasting conditions, focusing on acid concentration, temperature, and time, utilizing an orthogonal experimental design. The optimal conditions for each sandblasted titanium surface were determined through range analysis, enabling the production of high-quality sandblasted large-grit acid-etched surfaces. Surface properties, including morphology and elemental composition, were assessed, along with biocompatibility tests for cell adhesion, proliferation, and osteogenic differentiation. Results For sandblasted group a, the optimal acid-etching parameters were a mixture of 4.6 mol/L sulfuric acid and 0.814 mol/L hydrochloric acid at 60 °C for 60 min, which yielded a moderately rough surface (Group A: Sa = 1.30 ± 0.07μm). The optimal acid etching parameters for sandblasting group b were etching at 80 °C for 30 min in the same mixed solution to form a rough surface (Group B: Sa = 2.60 ± 0.10μm). Both surface treatments resulted in hydrophilicity and superior cell proliferation and osteogenic differentiation compared with those of the controls. Conclusions Different parameters of large-particle sandblasting and acid etching treatments can create pure titanium surfaces with varying degrees of roughness. However, both of which demonstrate favorable physicochemical and biological properties.
ISSN:1472-6831

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