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Cochran, D.L., Buser, D., ten Bruggenkate, C.M., Weingart, D., Taylor, T.M., Bernald, J.P., Peters, F. and Simpson, J.P. (2002) The Use of Reduced Healing Times on ITI® Implants with a Sandblasted and Acid-Etched (SLA) Surface: Early Results from Clinical Trials on ITI® SLA Implants. Clinical Oral Implants Research, 13, 144-153.
https://doi.org/10.1034/j.1600-0501.2002.130204.x
has been cited by the following article:
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TITLE:
Surface Modification of PEEK and Its Osteoconductivity and Anti-Inflammatory Properties
AUTHORS:
Kensuke Kuroda, Kenta Igarashi, Hiroyasu Kanetaka, Masazumi Okido
KEYWORDS:
Polyetheretherketone, Hydrophilization, Protein Adsorption, Osteoconductivity, Inflammatory
JOURNAL NAME:
Journal of Biomaterials and Nanobiotechnology,
Vol.9 No.3,
June
26,
2018
ABSTRACT: Polyetheretherketone (PEEK) is known as one of the “super-engineering plastics” and is used as an intervertebral disk spacer in the body. PEEK has a hydrophobic surface (water contact angle (WCA) > 80°) and high chemical resistance, and it is thus difficult to perform any surface treatment, such as hydrophilization. In this study, we aimed to form a hydrophilic surface on PEEK without coating layers by using hydroprocessing (aqueous solution processing), and we examined the osteoconductivity and anti-inflammatory properties of surface-treated PEEK in vivo compared with Ti implants. The WCA value of PEEK reached ~20° using a combination of immersion in a solution of >16.2 M H2SO4 and ultraviolet irradiation (172 nm). In in vivo testing, the hydrophilization of PEEK by surface modification without a coating layer improved the osteoconductivity and anti-inflammatory properties. The relationship between the bone-implant contact ratio and the WCA values of the surface-modified PEEK agreed well with that of the surface-treated Ti.