Detachment of Titanium and Fluorohydroxyapatite Particles in Unloaded Endosseous Implants

Overview

Journal Biomaterials

Specialty Biomedical Engineering

Date 2003 Jan 16

PMID 12527273

Citations 15

Authors

D Martini

M Fini

M Franchi

V De Pasquale

B Bacchelli

M Gamberini

A Tinti

P Taddei

G Giavaresi

V Ottani

M Raspanti

S Guizzardi

A Ruggeri

Affiliations

Soon will be listed here.

Abstract

The shape, surface composition and morphology of orthopaedic and endosseous dental titanium implants are key factors to achieve post-surgical and long-term mechanical stability and enhance implant osteointegration. In this study a comparison was made between 12 titanium screws, plasma-spray-coated with titanium powders (TPS), and 12 screws with an additional coating of fluorohydroxyapatite (FHA-Ti). Screws were implanted in the femoral and tibial diaphyses of two mongrel sheep and removed with peri-implant tissues 12 weeks after surgery. The vibrational spectroscopic, ultrastructural and morphological analyses showed good osteointegration for both types of implants in host cortical bone. The portion of the FHA-Ti implants in contact with the medullary canal showed a wider area of newly formed peri-implant bone than that of the TPS implants. Morphological and EDAX analyses demonstrated the presence of small titanium debris in the bone medullary spaces near the TPS surface, presumably due to the friction between the host bone and the implant during insertion. Few traces of titanium were detected around FHA-Ti implants, even if smaller FHA debris were present. The present findings suggest that the FHA coating may act as a barrier against the detachment of titanium debris stored in the medullary spaces near the implant surface.

Citing Articles

Advanced surface engineering of titanium materials for biomedical applications: From static modification to dynamic responsive regulation.

Jiang P, Zhang Y, Hu R, Shi B, Zhang L, Huang Q Bioact Mater. 2023; 27:15-57.

PMID: 37035422 PMC: 10074421. DOI: 10.1016/j.bioactmat.2023.03.006.

Enhanced Corrosion Resistance and Local Therapy from Nano-Engineered Titanium Dental Implants.

Guo T, Scimeca J, Ivanovski S, Verron E, Gulati K Pharmaceutics. 2023; 15(2).

PMID: 36839638 PMC: 9963924. DOI: 10.3390/pharmaceutics15020315.

Spectrometric Analysis of the Wear from Metallic and Ceramic Dental Implants following Insertion: An In Vitro Study.

Romanos G, Fischer G, Rahman Z, Delgado-Ruiz R Materials (Basel). 2022; 15(3).

PMID: 35161144 PMC: 8838065. DOI: 10.3390/ma15031200.

Modulation of immune-inflammatory responses through surface modifications of biomaterials to promote bone healing and regeneration.

Batool F, Ozcelik H, Stutz C, Gegout P, Benkirane-Jessel N, Petit C J Tissue Eng. 2021; 12:20417314211041428.

PMID: 34721831 PMC: 8554547. DOI: 10.1177/20417314211041428.

Ti-Ions and/or Particles in Saliva Potentially Aggravate Dental Implant Corrosion.

Alhamad M, Barao V, Sukotjo C, Cooper L, Mathew M Materials (Basel). 2021; 14(19).

PMID: 34640130 PMC: 8510105. DOI: 10.3390/ma14195733.