Assessing the corrosion of biodegradable magnesium implants: a critical review of current methodologies and their limitations.
about
Absorbable magnesium-based stent: physiological factors to consider for in vitro degradation assessmentsPower Approaches for Implantable Medical Devices.Evaluation of wrought Zn-Al alloys (1, 3, and 5 wt % Al) through mechanical and in vivo testing for stent applications.Flow-induced corrosion of absorbable magnesium alloy: In-situ and real-time electrochemical studyAn in vitro mechanism study on the proliferation and pluripotency of human embryonic stems cells in response to magnesium degradation.Development of a Novel Biodegradable Metallic Stent Based on Microgalvanic Effect.Degradation and biological properties of Ca-P contained micro-arc oxidation self-sealing coating on pure magnesium for bone fixation.In vitro corrosion of pure magnesium and AZ91 alloy-the influence of thin electrolyte layer thickness.Biodegradable Metals for Cardiovascular Stents: from Clinical Concerns to Recent Zn-Alloys.In Vitro Cytotoxicity, Adhesion, and Proliferation of Human Vascular Cells Exposed to Zinc.Novel Bio-functional Magnesium Coating on Porous Ti6Al4V Orthopaedic Implants: In vitro and In vivo Study.Magnesium degradation products: effects on tissue and human metabolism.Magnesium biomaterials for orthopedic application: a review from a biological perspective.Corrosion resistance and bioactivity enhancement of MAO coated Mg alloy depending on the time of hydrothermal treatment in Ca-EDTA solution.Recent advances in research on magnesium alloys and magnesium-calcium phosphate composites as biodegradable implant materials.In vitro corrosion and cytocompatibility properties of nano-whisker hydroxyapatite coating on magnesium alloy for bone tissue engineering applications.Influence of MC3T3-E1 preosteoblast culture on the corrosion of a T6-treated AZ91 alloyIn vivo study of nanostructured akermanite/PEO coating on biodegradable magnesium alloy for biomedical applications.Surface treatments for controlling corrosion rate of biodegradable Mg and Mg-based alloy implants.In vivo biocompatibility of Mg implants surface modified by nanostructured merwinite/PEO.In vitro interactions of blood, platelet, and fibroblast with biodegradable magnesium-zinc-strontium alloys.Nano-hydroxyapatite reinforced AZ31 magnesium alloy by friction stir processing: a solid state processing for biodegradable metal matrix composites.In vitro corrosion and cytocompatibility of ZK60 magnesium alloy coated with hydroxyapatite by a simple chemical conversion process for orthopedic applications.Ex vivo blood vessel bioreactor for analysis of the biodegradation of magnesium stent models with and without vessel wall integration.Poly (3,4-ethylenedioxythiophene) graphene oxide composite coatings for controlling magnesium implant corrosion.Cytocompatibility and early inflammatory response of human endothelial cells in direct culture with Mg-Zn-Sr alloys.Mathematical modelling of the degradation behaviour of biodegradable metals.Phosphate conversion coating reduces the degradation rate and suppresses side effects of metallic magnesium implants in an animal model.Susceptibility of metallic magnesium implants to bacterial biofilm infections.Metallic Biomaterials: Current Challenges and Opportunities.Microstructure-modified biodegradable magnesium alloy for promoting cytocompatibility and wound healing in vitro.Novel biodegradable calcium phosphate/polymer composite coating with adjustable mechanical properties formed by hydrothermal process for corrosion protection of magnesium substrate.Degradation of zinc in saline solutions, plasma, and whole blood.On the Determination of Magnesium Degradation Rates under Physiological Conditions.Magnesium-based biodegradable alloys: Degradation, application, and alloying elements.Comparison of Electrochemical Methods for the Evaluation of Cast AZ91 Magnesium Alloy.Reinforcing Low-Volume Fraction Nano-TiN Particulates to Monolithical, Pure Mg for Enhanced Tensile and Compressive Response.Effect of Native Oxide Film on Commercial Magnesium Alloys Substrates and Carbonate Conversion Coating Growth and Corrosion Resistance.Enhanced cell attachment and hemocompatibility of titanium by nanoscale surface modification through severe plastic integration of magnesium-rich islands and porosification.Biodegradable poly(lactide-co-glycolide) coatings on magnesium alloys for orthopedic applications.
P2860
Q26774010-FB7A399D-4049-4096-A8ED-2C232BF7B894Q28088536-9BC9B850-7689-413F-AB4E-489CE85016D9Q31157480-6E1AF48C-FD32-4062-B3FA-811B27173939Q33807232-9502FED2-0A22-44CC-870C-1B2059E3C7A4Q35022831-196FE5BD-D3B6-4059-AECE-53A3A978A953Q35780741-5442B29B-FE61-4914-AFDB-D2B789C58232Q36345137-52CD98C2-D638-48DB-BFD2-643840D52034Q36491223-B4CBB92D-5F7C-4CB5-9D77-9BC05F0BEB88Q36996193-4BF0E78A-2DD0-48E1-BF6E-5E9E9F9C3ECBQ37404103-2AB571C1-FC13-4EEE-89F1-7F0D26EC57A0Q37593349-8E910694-40BB-422A-9A9C-7C3FF6F670BCQ38162159-0E96C44B-4C7E-4B52-8C50-CE983F7ADB1EQ38181438-D4AFFD77-A65F-483E-A8E8-266AADC0047AQ38613330-F7B5AAB6-2356-4589-9C5B-287C8DD1FB11Q38883604-AE4E1FCB-30C2-408C-ACF8-D291B211BB11Q38897627-C6E01208-422F-4107-A525-A1C02CA5AB3EQ38906067-4E9E9847-DB59-43C9-94D4-E494DFFAE45CQ38958196-CF6B2C68-AB57-44E6-BD03-9D64607B92E5Q38967006-479278D3-CEE2-443C-8642-EDBB3F00F72CQ39016163-5B5D9037-3BF1-45B7-9056-12C85A9F30FDQ39037828-1E800A43-11AC-4C1E-A6B3-0FC96A54174AQ39038765-62D9CDE9-196E-4C4C-815B-19FBBEA4CD36Q39050088-D5A7A210-21B4-41A3-8AD8-B38B297CCAFCQ39066419-0E8CCDDE-1E54-4ED0-B1B1-1B4B57CE309BQ39170523-8AAF2000-2DD1-4F67-8DCF-C16C7601DE58Q39286074-19C2F7AA-E926-467A-ACEA-59A4EE7A3283Q39510910-DF70F809-F9A9-4758-8CAC-FD3B0171903FQ39788594-12F2614A-0A1D-4D55-B51E-E3C12E4B3CFCQ40010495-AC4ACAA7-C081-4E06-BDE9-F7AC0FB1F3D9Q40107972-6E1EB75F-D816-4A9A-907D-F79DFCACF580Q40495154-079A2C7D-9EC8-4815-9D8E-D5D11E532489Q40573707-0241A909-6895-440C-8E45-7669D8447931Q40850338-82B0D842-BADC-4D09-84D4-B9D541195B77Q41005968-420E53C0-4F0F-48B3-86B6-6B28F3E0C54EQ41105222-7371EE4D-9A67-421F-A977-1F06BC03AA3DQ42135757-CAA2A214-5FC4-407A-9FCF-ECB0662D20F8Q42225950-0C3A7A84-2068-4F22-B389-38A62BBCF77BQ42231450-8B29AB30-AAE8-4071-A69B-86DB47035E3DQ42374850-5CEB10FE-9171-4C47-8D57-5AA797B987A0Q42829845-0F61A4E4-1401-40A1-A116-0742DE75B97A
P2860
Assessing the corrosion of biodegradable magnesium implants: a critical review of current methodologies and their limitations.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh
2011年學術文章
@zh-hant
name
Assessing the corrosion of bio ...... ologies and their limitations.
@en
Assessing the corrosion of bio ...... ologies and their limitations.
@nl
type
label
Assessing the corrosion of bio ...... ologies and their limitations.
@en
Assessing the corrosion of bio ...... ologies and their limitations.
@nl
prefLabel
Assessing the corrosion of bio ...... ologies and their limitations.
@en
Assessing the corrosion of bio ...... ologies and their limitations.
@nl
P2093
P1433
P1476
Assessing the corrosion of bio ...... ologies and their limitations.
@en
P2093
M P Staiger
N Birbilis
N T Kirkland
P304
P356
10.1016/J.ACTBIO.2011.11.014
P407
P577
2011-11-18T00:00:00Z