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Biodegradable Magnesium Bone Implants Coated With a Novel Bioceramic Nanocomposite Publisher



Razavi M1, 2, 3, 4 ; Fathi M3, 4 ; Savabi O5 ; Tayebi L6 ; Vashaee D7, 8
Authors
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Authors Affiliations
  1. 1. BiionixTM (Bionic Materials, Implants and Interfaces) Cluster, Department of Internal Medicine, College of Medicine, University of Central Florida, Orlando, 32827, FL, United States
  2. 2. Department of Materials Science and Engineering, University of Central Florida, Orlando, 32816, FL, United States
  3. 3. Biomaterials Research Group, Department of Materials Engineering, Isfahan University of Technology, Isfahan, 84156-83111, Iran
  4. 4. Dental Materials Research Center, Isfahan University of Medical Sciences, Isfahan, 81746-73461, Iran
  5. 5. Torabinejad Dental Research Center, School of Dentistry, Isfahan University of Medical Sciences, Isfahan, 81746-73461, Iran
  6. 6. Marquette University School of Dentistry, Milwaukee, 53233, WI, United States
  7. 7. Electrical and Computer Engineering Department, North Carolina State University, Raleigh, 27606, NC, United States
  8. 8. Materials Science and Engineering Department, North Carolina State University, Raleigh, 27606, NC, United States

Source: Materials Published:2020


Abstract

Magnesium (Mg) alloys are being investigated as a biodegradable metallic biomaterial because of their mechanical property profile, which is similar to the human bone. However, implants based on Mg alloys are corroded quickly in the body before the bone fracture is fully healed. Therefore, we aimed to reduce the corrosion rate of Mg using a double protective layer. We used a magnesium-aluminum-zinc alloy (AZ91) and treated its surface with micro-arc oxidation (MAO) technique to first form an intermediate layer. Next, a bioceramic nanocomposite composed of diopside, bredigite, and fluoridated hydroxyapatite (FHA) was coated on the surface of MAO treated AZ91 using the electrophoretic deposition (EPD) technique. Our in vivo results showed a significant enhancement in the bioactivity of the nanocomposite coated AZ91 implant compared to the uncoated control implant. Implantation of the uncoated AZ91 caused a significant release of hydrogen bubbles around the implant, which was reduced when the nanocomposite coated implants were used. Using histology, this reduction in the corrosion rate of the coated implants resulted in an improved new bone formation and reduced inflammation in the interface of the implants and the surrounding tissue. Hence, our strategy using a MAO/EPD of a bioceramic nanocomposite coating (i.e., diopside-bredigite-FHA) can significantly reduce the corrosion rate and improve the bioactivity of the biodegradable AZ91 Mg implant. © 2020 by the authors. Licensee MDPI, Basel, Switzerland.
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