可降解镁合金支架(MAS)能够改善商用裸支架和药物洗脱支架的长期治疗效果.由于镁合金支架在人体内降解速度太快,限制了其对病变血管的支撑性能.保护性聚合物涂层为镁合金支架提供了一种降低腐蚀速度的有效方法.然而,聚合物涂层在支架扩张时出现的剥离现象是阻碍其运用的一大障碍.在本研究中,分别运用有限元方法和实验方法对一种优化设计的镁合金支架进行了聚合物涂层剥离问题的研究.首先通过90°剥离实验测试,为粘聚区有限元模型提供了临界能量释放率,以此为基础的90°剥离的模拟结果和实验结果吻合良好.运用可靠的粘聚区模型参数,支架-聚合物涂层有限元模型考察了支架在扩张过程中是否会发生涂层剥离现象.本研究为考察支架聚合物涂层剥离现象提供了一种简单可靠的方法,为改善可降解镁合金支架的聚合物涂层性能提出了相应的建议.
参考文献
| [1] | Onuma Y;Ormiston J;Serruys PW .Bioresorbable scaffold technologies.[J].Circulation journal,2011(3):509-520. |
| [2] | Ramcharitar S;Serruys PW .Fully biodegradable coronary stents : progress to date.[J].American journal of cardiovascular drugs: drugs, devices, and other interventions,2008(5):305-314. |
| [3] | Erbel R;Di-Mario C;Bartunek J;Bonnier J;de-Bruyne B;Eberli FR;Erne P;Haude M;Heublein B;Horrigan M;Ilsley C;Bose D;Koolen J;Luscher TF;Weissman N;Waksman R .Temporary scaffolding of coronary arteries with bioabsorbable magnesium stents: a prospective, non-randomised multicentre trial.[J].The Lancet,2007(9576):1869-1875. |
| [4] | Wu W;Petrini L;Gastaldi D;Villa T;Vedani M;Lesma E;Previtali B;Migliavacca F .Finite element shape optimization for biodegradable magnesium alloy stents.[J].Annals of Biomedical Engineering,2010(9):2829-2840. |
| [5] | Wittchow,E.;Adden,N.;Riedmüller,J.;Savard,C.;Waksman,R.;Braune,M. .Bioresorbable drug-eluting magnesium-alloy scaffold: Design and feasibility in a porcine coronary model[J].EuroIntervention: journal of EuroPCR in collaboration with the Working Group on Interventional Cardiology of the European Society of Cardiology,2013(12):1441-1450. |
| [6] | Wu,W.;Chen,S.;Gastaldi,D.;Petrini,L.;Mantovani,D.;Yang,K.;Tan,L.;Migliavacca,F. .Experimental data confirm numerical modeling of the degradation process of magnesium alloys stents[J].Acta biomaterialia,2013(10):8730-8739. |
| [7] | Basalus,M.W.Z.;Tandjung,K.;VanWesten,T.;Sen,H.;VanDerJagt,P.K.N.;Grijpma,D.W.;VanApeldoorn,A.A.;VonBirgelen,C. .Scanning electron microscopic assessment of coating irregularities and their precursors in unexpanded durable polymer-based drug-eluting stents[J].Catheterization and cardiovascular interventions: Official journal of the Society for Cardiac Angiography & Interventions,2012(4):644-653. |
| [8] | Otsuka Y;Chronos NA;Apkarian RP;Robinson KA .Scanning electron microscopic analysis of defects in polymer coatings of three commercially available stents: comparison of BiodivYsio, Taxus and Cypher stents.[J].The Journal of invasive cardiology,2007(2):71-76. |
| [9] | Hopkins CG;McHugh PE;McGarry JP .Computational investigation of the delamination of polymer coatings during stent deployment.[J].Annals of Biomedical Engineering: The Journal of the Biomedical Engineering Society,2010(7):2263-2273. |
| [10] | Rahulkumar P.;Bennison SJ.;Saigal S.;Jagota A. .Cohesive element modeling of viscoelastic fracture: application to peel testing of polymers[J].International Journal of Solids and Structures,2000(13):1873-1897. |
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