Biocorrosion of magnesium alloys: a new principle in cardiovascular implant technology? - Wikidata - wikimedia - TriplyDB

Biocorrosion of magnesium alloys: a new principle in cardiovascular implant technology?

Biocorrosion of magnesium alloys: a new principle in cardiovascular implant technology?

http://www.wikidata.org/entity/Q24674425

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Bioresorbable scaffolds for percutaneous coronary interventions 3D-Printed Scaffolds and Biomaterials: Review of Alveolar Bone Augmentation and Periodontal Regeneration Applications Bioresorbable scaffolds: a new paradigm in percutaneous coronary intervention Bioresorbable scaffolds: current evidence and ongoing clinical trials Bioresorbable Scaffolds: Current Evidences in the Treatment of Coronary Artery Disease Bio-Adaption between Magnesium Alloy Stent and the Blood Vessel: A Review Biodegradable magnesium nanoparticle-enhanced laser hyperthermia therapy.The role of infrapopliteal angioplasty.A promising biodegradable magnesium alloy suitable for clinical vascular stent application Biomaterials in cardiovascular research: applications and clinical implications.A simplified in vivo approach for evaluating the bioabsorbable behavior of candidate stent materials.Zinc exhibits ideal physiological corrosion behavior for bioabsorbable stents.In vivo testing of a bioabsorbable magnesium alloy serving as total ossicular replacement prostheses.Biocompatibility and biostability of metallic endovascular implants: state of the art and perspectives.Development of a Novel Biodegradable Metallic Stent Based on Microgalvanic Effect.Biodegradable Magnesium Alloys: A Review of Material Development and Applications.A study of cytocompatibility and degradation of iron-based biodegradable materials.Metallic zinc exhibits optimal biocompatibility for bioabsorbable endovascular stents.The drug-based pipeline against restenosis.Electrochemical deposition of conducting polymer coatings on magnesium surfaces in ionic liquid.In vivo evaluation of Mg-6Zn and titanium alloys on collagen metabolism in the healing of intestinal anastomosis.Microfabrication and nanotechnology in stent design Vascular restoration therapy and bioresorbable vascular scaffold.The engineering of endovascular stent technology: a review.Coronary artery restenosis: vascular biology and emerging therapeutic strategies.Update on bioabsorbable stents: from bench to clinical.Progressive stent technologies: new approaches for the treatment of cardiovascular diseases.Degraded and osteogenic properties of coated magnesium alloy AZ31; an experimental study.Drug delivery via nano-, micro and macroporous coronary stent surfaces.Biphasic responses of human vascular smooth muscle cells to magnesium ion.Antiplatelet therapy in the era of drug-eluting stents: current and future perspectives.Biodegradable Metals for Cardiovascular Stents: from Clinical Concerns to Recent Zn-Alloys.Hemocompatibility of polymeric nanostructured surfaces.AMS INSIGHT--absorbable metal stent implantation for treatment of below-the-knee critical limb ischemia: 6-month analysis.Endothelial Cellular Responses to Biodegradable Metal Zinc.Magnesium-Based Absorbable Metal Screws for Intra-Articular Fracture Fixation In Vitro Cytotoxicity, Adhesion, and Proliferation of Human Vascular Cells Exposed to Zinc.Magnesium alloy covered stent for treatment of a lateral aneurysm model in rabbit common carotid artery: An in vivo study In vivo response of AZ31 alloy as biliary stents: a 6 months evaluation in rabbits.Micromorphological effect of calcium phosphate coating on compatibility of magnesium alloy with osteoblast.

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P2860

Biocorrosion of magnesium alloys: a new principle in cardiovascular implant technology?

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Biocorrosion of magnesium alloys: a new principle in cardiovascular implant technology?

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Marked inflammatory sequelae to implantation of biodegradable and nonbiodegradable polymers in porcine coronary arteries.

Role of polymers in improving the results of stenting in coronary arteries.

Inhibition of neointima formation after experimental coronary artery stenting: a new biodegradable stent coating releasing hirudin and the prostacyclin analogue iloprost.

Biodegradable stents : "fulfilling the mission and stepping away".

Initial and 6-month results of biodegradable poly-l-lactic acid coronary stents in humans.

Neointimal tissue response at sites of coronary stenting in humans: macroscopic, histological, and immunohistochemical analyses.

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