In vitro evaluation of different protective techniques to reduce titanium particle contamination during implantoplasty

Platt, A.; Liu, Chun C; Gubler, Andrea; Naenni, Nadja; Thoma, D.; Schmidlin, Patrick R.

doi:10.1007/s00784-023-05037-8

Clin Oral Invest

2023

DOI: 10.1007/s00784-023-05037-8

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In vitro evaluation of different protective techniques to reduce titanium particle contamination during implantoplasty

A. Platt

Chun C Liu

Andrea Gubler

et al.

Abstract: Objectives Our aim is to study titanium remains in a bone model during standardized implantoplasty under different isolation and protective modalities. Material and methods Forty implants were placed in artificial spongy bone blocks mimicking a horizontal bone loss and implant neck protrusion of 5 mm. Samples were randomly divided into four groups (n = 10), which were treated as follows: rubber dam (A), a dental adhesive paste (B), bone wax (C), and an unp… Show more

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Cited by 2 publications

References 32 publications

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Nanofiber‐Coated CF/PEEK Composite: Boosting Osteogenesis for Enhanced Bone Grafting

Yang,

Stephen,

Qayyum

et al. 2024

Macro Materials & Eng

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This study presents the fabrication of carbon‐fiber‐reinforced polyetheretherketone (CF/PEEK) by 3D printing, which is subsequently coated with elastic nanofibers by electrospinning. CF/PEEK is an FDA‐approved implantable material possessing excellent mechanical properties similar to those of human cortical bone. As such, it is a prime candidate for replacing conventional metallic implants. However, it is limited by its bioinertness and inferior osteogenic properties. In this study, CF/PEEK is engineered to have improved hydrophilic properties and generated micro/nano‐topographical structures on its surface. This is achieved by electrospinning directly onto the 3D‐printed CF/PEEK with fibers incorporating hydroxyapatite particles and gelatin. The results show that the micro‐/nano‐topographical CF/PEEK demonstrates a significant increase in mineralizing potential compared to non‐coated implants, where no mineralized matrix is observed. These fiber coating modifications to CF/PEEK are a promising and important step forward in the improvement of in vivo implant‐bone osteointegration.

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Nanofiber‐Coated CF/PEEK Composite: Boosting Osteogenesis for Enhanced Bone Grafting

Yang,

Stephen,

Qayyum

et al. 2024

Macro Materials & Eng

View full text Add to dashboard Cite

show abstract

The spectroscopic properties and capability of a new and selective complex of Ti-Plumbagin for analyzing titanium in sand samples

Van Thoi,

An,

Hung

et al. 2023

Microchemical Journal

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In vitro evaluation of different protective techniques to reduce titanium particle contamination during implantoplasty

Cited by 2 publications

References 32 publications

Nanofiber‐Coated CF/PEEK Composite: Boosting Osteogenesis for Enhanced Bone Grafting

Nanofiber‐Coated CF/PEEK Composite: Boosting Osteogenesis for Enhanced Bone Grafting

The spectroscopic properties and capability of a new and selective complex of Ti-Plumbagin for analyzing titanium in sand samples

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