Stimulation of Bone Growth Following Zinc Incorporation into Biomaterials

Overview

Journal Biomaterials

Specialty Biomedical Engineering

Date 2014 May 28

PMID 24862443

Citations 56

Authors

Yuqin Qiao

Wenjie Zhang

Peng Tian

Fanhao Meng

Hongqin Zhu

Xinquan Jiang

Xuanyong Liu

Paul K Chu

Affiliations

Soon will be listed here.

Abstract

Rapid development of zinc biology has broadened the applications of Zn-incorporated biomaterials to tissue engineering but also raised concerns about the long-term safety of released Zn(2+) ions. Clinical success hinges on the amount of incorporated zinc and subsequent optimized release sufficient to stimulate osseointegration. In this study, zinc is incorporated into the sub-surface of TiO2 coatings by plasma immersion ion implantation and deposition (PIII&D). The Zn-implanted coatings show significant improvement compared to the "bulk-doped" coatings prepared by plasma electrolyte oxidation in terms of osteogenesis in vitro and in vivo. Molecular and cellular osteogenic activities demonstrate that rBMSCs cultured on the Zn-implanted coatings have higher ALP activity and up-regulated osteogenic-related genes (OCN, Col-I, ALP, Runx2) compared to the bulk-doped Zn coatings and controls. In vivo osseointegration studies conducted for 12 weeks on the rat model show early-stage new bone formation and the bone contact ratio (12 week) on the Zn-implanted coating is larger. The ZnT1 and ZIP1 gene expression studies demonstrate that the Zn-implanted coatings can better stimulate bone growth with reduced Zn release than those doped with zinc throughout the coatings.

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