ZnO and Hydroxyapatite-Modified Magnesium Implant
with a Broad Spectrum of Antibacterial Properties and a Unique Minimally
Invasive Defined Degrading Capability
Posted on 2019-09-09 - 07:13
ZnO
and hydroxyapatite-based membranes have been proposed to improve
the antibacterial properties and anticorrosion capabilities of the
magnesium implant, simultaneously. More importantly, the concept of
minimally invasive surgery has been introduced to define the degradation
timing of the as-modified magnesium implant. With the aid of a Kirschner
wire, the as-prepared membrane could immediately change from the “protective
layer” to the “degradation accelerator” of the
implant material. The subsequent studies have implied that this membrane
could be a promising avenue to create a biocompatible and lightweight
implant material with a valuable personal customized degradable timing
capability.
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Deng, Jianjian; Ye, Jing; Zhao, Yonglei; Zhu, Yanglong; Wu, Tianlong; Zhang, Chong; et al. (2019). ZnO and Hydroxyapatite-Modified Magnesium Implant
with a Broad Spectrum of Antibacterial Properties and a Unique Minimally
Invasive Defined Degrading Capability. ACS Publications. Collection. https://doi.org/10.1021/acsbiomaterials.9b00650
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AUTHORS (10)
JD
Jianjian Deng
JY
Jing Ye
YZ
Yonglei Zhao
YZ
Yanglong Zhu
TW
Tianlong Wu
CZ
Chong Zhang
LD
Lina Dong
HO
Huan Ouyang
XC
Xigao Cheng
XW
Xiaolei Wang