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MgCa-Based Alloys Modified with Zn- and Ga-Doped CaP Coatings Lead to Controlled Degradation and Enhanced Bone Formation in a Sheep Cranium Defect Model
Date
2024-01-01
Author
Gokyer, Seyda
Monsef, Yanad Abou
BÜYÜKSUNGUR, SENEM
Schmidt, Jurgen
Vladescu Dragomir, Alina
Uygur, Sencer
Uygur, Sencer
ORHAN, KAAN
Hasırcı, Vasıf Nejat
Hasırcı, Nesrin
Yilgor, Pinar
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Mg-based biodegradable metallic implants are gaining increased attraction for applications in orthopedics and dentistry. However, their current applications are hampered by their high rate of corrosion, degradation, and rapid release of ions and gas bubbles into the physiological medium. The aim of the present study is to investigate the osteogenic and angiogenic potential of coated Mg-based implants in a sheep cranial defect model. Although their osteogenic potential was studied to some extent, their potential to regenerate vascularized bone formation was not studied in detail. We have studied the potential of magnesium-calcium (MgCa)-based alloys modified with zinc (Zn)- or gallium (Ga)-doped calcium phosphate (CaP) coatings as a strategy to control their degradation rate while enhancing bone regeneration capacity. MgCa and its implants with CaP coatings (MgCa/CaP) as undoped or as doped with Zn or Ga (MgCa/CaP + Zn and MgCa/CaP + Ga, respectively) were implanted in bone defects created in the sheep cranium. MgCa implants degraded faster than the others at 4 weeks postop and the weight loss was ca. 50%, while it was ca. 15% for MgCa/CaP and 1.5-fold increase in bone regeneration for MgCa/CaP + Ga implant was also observed in the histopathological examination of the H&E- and Masson’s trichrome-stained sections. Immunohistochemical analysis of the bone regeneration (antiosteopontin) and neovascularization (anti-CD31) at the defect sites revealed >2-fold increase in the expression of the markers in both Ga- and Zn-doped, CaP-coated implants. Zn-doped implants further presented low inflammatory reaction, notable bone regeneration, and neovascularization among all the implant groups. These findings indicated that Ga- and Zn-doped CaP coating is an important strategy to control the degradation rate as well as to achieve enhanced bone regeneration capacity of the implants made of Mg-based alloys.
Subject Keywords
biodegradable metal
,
bone regeneration
,
in vivo
,
Mg-based alloy
,
neovascularization
,
sheep model
URI
https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85197938787&origin=inward
https://hdl.handle.net/11511/110231
Journal
ACS Biomaterials Science and Engineering
DOI
https://doi.org/10.1021/acsbiomaterials.4c00358
Collections
Graduate School of Natural and Applied Sciences, Article
Citation Formats
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BibTeX
S. Gokyer et al., “MgCa-Based Alloys Modified with Zn- and Ga-Doped CaP Coatings Lead to Controlled Degradation and Enhanced Bone Formation in a Sheep Cranium Defect Model,”
ACS Biomaterials Science and Engineering
, pp. 0–0, 2024, Accessed: 00, 2024. [Online]. Available: https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=85197938787&origin=inward.
