Carbon Nanotubes/Carboxymethyl Chitosan/Mineralized Hydroxyapatite Composite Coating on Ti-6Al-4V Alloy for Improved Mechanical and Biological Properties

Gopi, D.; Nithiya, S.; Shinyjoy, E.; Rajeswari, D.; Kavitha, L.

doi:10.1021/ie403903q

Cited by 46 publications

(25 citation statements)

References 59 publications

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“…19 This disadvantage has seriously restricted the medical application of Mg alloys in various elds of research. [24][25][26][27][28][29][30] More recently, the possibility to realize the substitution with at least two distinct elements has been put forward. 17 In response to this, calcium phosphate based bioceramic coatings have been suggested as a mean of preventing exposure to the corrosive environment.…”

Section: Introductionmentioning

confidence: 99%

Ball flower like manganese, strontium substituted hydroxyapatite/cerium oxide dual coatings on the AZ91 Mg alloy with improved bioactive and corrosion resistance properties for implant applications

et al. 2015

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Bio-degradable metals and alloys have been suggested as revolutionary potential materials for bone-related treatment. Of these materials, the AZ91 magnesium alloy (AZ91 Mg alloy) emerges as an attractive candidate due to its non-toxicity and outstanding mechanical properties. Even though magnesium alloys are widely studied as orthopedic implants for bone replacement and bone regeneration, their undesirable rapid corrosion rate under physiological conditions has limited their actual clinical applications. Therefore, increasing the corrosion resistance of the AZ91 Mg alloy is one of the key issues to address for the development of bio-degradable implants. In this study, a cerium oxide (CeO 2 ) coating is developed on the AZ91 Mg alloy by electrodeposition with a view of minimizing its corrosion rate during the bone healing period. Further, to improve the clinical application of AZ91 Mg alloy, manganese (Mn) and strontium (Sr) substituted hydroxyapatite (Mn, Sr-HAP) coatings were developed on the CeO 2 coated AZ91 Mg alloy. Hence, this study reports on the development of a Mn, Sr-HAP/CeO 2 dual coating on the AZ91 Mg alloy to make it a suitable alternative material for orthopedic implants.

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Section: Introductionmentioning

confidence: 99%

Ball flower like manganese, strontium substituted hydroxyapatite/cerium oxide dual coatings on the AZ91 Mg alloy with improved bioactive and corrosion resistance properties for implant applications

et al. 2015

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“…Improved adhesion, cell viability, and good biocompatibility [56] Detonation nanodiamonds of each other using the LbL assembly, with the substrate composed of 15 bilayers. The BMP-2 could then be loaded on the outermost coating layer of GO-COO -, and sustainably released.…”

Section: Mg63 Cellsmentioning

confidence: 99%

Graphene as an Enabling Strategy for Dental Implant and Tissue Regeneration

Park

Lee

et al. 2017

Tissue Eng Regen Med

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Graphene-based approaches have been influential in the design and manipulation of dental implants and tissue regeneration to overcome the problems associated with traditional titanium-based dental implants, such as their low biological affinity. Here, we describe the current progress of graphene-based platforms, which have contributed to major advances for improving cellular functions in in vitro and in vivo applications of dental implants. We also present opinions on the principal challenges and future prospects for new graphene-based platforms for the development of advanced graphene dental implants and tissue regeneration.

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“…Among these fillers, carbon nanotubes have extensively been used for dental and orthopedic application owing to their superior ability to enhance mechanical properties, such as elastic modulus, young modulus, tensile strength upon addition of only minimal amount as less as 0.1% to the composites. 162,169,170 Similarly, other metal oxides, such as titanium dioxide and silver bromide are considered as dual actions tunable nanomaterials due to their ability to not only increase mechanical properties but also to act as excellent anti-microbial agents. 95,162 Another such example would be hydroxyapatite whiskers or nanofibers, which are to be incorporated into dental resins in order to enhance the biocompatibility of the nanobiocomposites.…”

Section: Biomedical Applicationsmentioning

confidence: 99%

Polymeric nanobiocomposites for biomedical applications

Mozumder

Mairpady

Mourad

2016

J. Biomed. Mater. Res.

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Polymeric nanobiocomposites have recently become one of the most essential sought after materials for biomedical applications ranging from implants to the creation of gels. Their unique mechanical and biological properties provide them the ability to pass through the highly guarded defense mechanism without undergoing noticeable degradation and initiation of immune responses, which in turn makes them advantageous over the other alternatives. Aligned with the advances in tissue engineering, it is also possible to design three-dimensional extracellular matrix using these polymeric nanobiocomposites that could closely mimic the human tissues. In fact, unique polymer chemistry coupled with nanoparticles could create unique microenvironment that promotes cell growth and differentiation. In addition, the nanobiocomposites can also be devised to carry drugs efficiently to the target site without exhibiting any cytotoxicity as well as to eradicate surgical infections. In this article, an effort has been made to thoroughly review a number of different types/classes of polymeric nanocomposites currently used in biomedical fields. © 2016 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater, 105B: 1241-1259, 2017.

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Carbon Nanotubes/Carboxymethyl Chitosan/Mineralized Hydroxyapatite Composite Coating on Ti-6Al-4V Alloy for Improved Mechanical and Biological Properties

Cited by 46 publications

References 59 publications

Ball flower like manganese, strontium substituted hydroxyapatite/cerium oxide dual coatings on the AZ91 Mg alloy with improved bioactive and corrosion resistance properties for implant applications

Ball flower like manganese, strontium substituted hydroxyapatite/cerium oxide dual coatings on the AZ91 Mg alloy with improved bioactive and corrosion resistance properties for implant applications

Graphene as an Enabling Strategy for Dental Implant and Tissue Regeneration

Polymeric nanobiocomposites for biomedical applications

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