Evaluating magnesium alloy WE43 for bioresorbable coronary stent applications
TLDR
In this article, the degradation property of magnesium alloy WE43 was investigated experimentally using parametric studies using the finite element method to optimize the stent geometry and strut thickness to improve conformability in stent applications.Abstract:
Biodegradable stents, especially those composed of magnesium alloy-based materials, can provide a temporary scaffold that support vessels while naturally resorbing in the body after the targeted vessel heals, thereby preventing the restenosis and late thrombosis issues caused by their metallic predecessors However, due to limitations in the intrinsic mechanical properties of magnesium, further investigation is required to optimize its degradation property, as well as the design, geometry and strut thickness to improve conformability in stent applications This study aimed to investigate experimentally the degradation property of magnesium alloy WE43 and to optimize the stent geometry through parametric studies using the finite element method Results of the degradation testing showed that the WE43 with a secondary polycaprolactone dip-coating offered a greater resistance to biodegradation and increased the lifespan of the stent On average, the resistance to biodegradation increased by 5% in the WE43 magnesium alloy compared with its counterpart lacking any surface coating The parametric studies have indicated that the stent with honeycomb geometry and a radial thickness of 015 mm had demonstrated promising mechanical performance with minimal dog-boning, foreshortening and recoilread more
Citations
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Design, mechanical and degradation requirements of biodegradable metal mesh for pelvic floor reconstruction.
Zahrina Mardina,Jeffrey Venezuela,Christopher G. Maher,Zhiming Shi,Matthew S. Dargusch,Andrej Atrens +5 more
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Morphological and Surface Potential Characterization of Protein Nanobiofilm Formation on Magnesium Alloy Oxide: Their Role in Biodegradation
Ehsan Rahimi,Amin Imani,M. Lekka,Francesco Andreatta,Yaiza Gonzalez-Garcia,Johannes M. C. Mol,Edouard Asselin,Lorenzo Fedrizzi +7 more
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Additive manufacturing of biodegradable magnesium-based materials: Design strategies, properties, and biomedical applications
Farzad Badkoobeh,Hossein Mostaan,Mahdi Rafiei,Hamid Reza Bakhsheshi-Rad,Seeram Ramakrishna,Xiongbiao Chen +5 more
TL;DR: In this article , various additive manufacturing (AM) processes to fabricate biomedical implants from Mg-based alloys, along with their metallic microstructure, mechanical properties, biodegradability, biocompatibility, and antibacterial properties, as well as various post-AM treatments were critically reviewed.
Journal ArticleDOI
A novel method for the fabrication of tubular WE43 magnesium scaffold based on laser micro-spot welding
Luis D. Cedeño-Viveros,Luis H. Olivas-Alanis,Omar Lopez-Botello,Ciro A. Rodríguez,Elisa Vazquez-Lepe,Erika García-López +5 more
TL;DR: In this article , the authors presented a novel manufacturing methodology (i.e., Joining Stacking based Laser Micro-Spot Welding (JS-LMSW)) for produce tubular WE43 Magnesium scaffolds.
Journal ArticleDOI
Modification of Biocorrosion and Cellular Response of Magnesium Alloy WE43 by Multiaxial Deformation
Natalia Anisimova,N. S. Martynenko,K. Novruzov,G.V. Rybalchenko,Mikhail Kiselevskiy,George V. Rybalchenko,Boris B. Straumal,Gennady A. Salishchev,Alma Mansharipova,Aigul O. Kabiyeva,Maratbek Gabdullin,Sergey V. Dobatkin,Yuri Estrin +12 more
TL;DR: This article showed that multiaxial deformation (MAD) treatment leads to grain refinement in magnesium alloy WE43 and exhibited smoother biocorrosion dynamics in a fetal bovine serum and in a complete cell growth medium.
References
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In vivo corrosion and corrosion protection of magnesium alloy LAE442
TL;DR: This study shows that the extruded magnesium alloy LAE442 provides low corrosion rates and reacts in vivo with an acceptable host response and the in vivo corrosion rate can be further reduced by additional MgF(2) coating.
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Advances in coatings on biodegradable magnesium alloys
Zheng-Zheng Yin,Wei-Chen Qi,Rong-Chang Zeng,Rong-Chang Zeng,Xiaobo Chen,Chang-Dong Gu,Shaokang Guan,Yufeng Zheng +7 more
TL;DR: In this paper, the authors reviewed the cutting-edge advances and progress of biodegradable surface coatings upon Mg alloys over the last decades, and aimed to build up a knowledge framework of surface modification on bioregradable Mg alloy.
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Coronary stents: historical development, current status and future directions.
TL;DR: The history of coronary angioplasty and stenting is described, the contemporary stents and recommendations are reviewed and the on-going work and potential future directions are highlighted.
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Biodegradable Magnesium Alloys Developed as Bone Repair Materials: A Review
TL;DR: This paper reviews recent work on the use of Mg alloy implants in bone repair and research to date on alloy design, surface modification, and biological performance of M g alloys is comprehensively summarized.
Journal ArticleDOI
A next-generation bioresorbable coronary scaffold system: from bench to first clinical evaluation: 6- and 12-month clinical and multimodality imaging results.
Stefan Verheye,John A. Ormiston,James T. Stewart,Mark Webster,Elias Sanidas,Ricardo Costa,J. Ribamar Costa,Daniel Chamié,Andrea Abizaid,Ibraim Pinto,Lynn Morrison,Sara Toyloy,Vinayak D. Bhat,John Yan,Alexandre Abizaid +14 more
TL;DR: This study demonstrated the feasibility and efficacy of the DESolve BCS and showed low in-scaffold LLL, low % neointimal volume at 6 months, no chronic recoil, and maintenance of lumen patency at 12 months prompt further study.