https://orcid.org/0000-0001-9790-8012
References
- Amirjani A, Yousefi M, Cheshmaroo M. 2014. Parametrical optimization of stent design; a numerical-based approach. Comput Mater Sci. 90:210–220.
- Cardiovascular implants Endovascular devices – Part 2: Vascular stents 2016. State Food and Drug Administration (SFDA).
- De Beule M. 2008. Design van stents met eindige elementen – finite element stent design. Ghent, Belgium: Ghent Univserity.
- Everett KD, Conway C, Desany GJ, Baker BL, Choi G, Taylor CA, Edelman ER. 2016. Structural mechanics predictions relating to clinical coronary stent fracture in a 5 Year Period in FDA MAUDE Database. Ann Biomed Eng. 44(2):391–403.
- Han Y, Lu W. 2018. Optimizing the deformation behavior of stent with nonuniform Poisson's ratio distribution for curved artery. J Mech Behav Biomed Mater. 88:442–452.
- ISO 25539-2 2012. Cardiovascular implants – Endovascular devices – Part 2: Vascular stents; [place unknown]. https://www.iso.org/cms/render/live/en/sites/isoorg/contents/data/standard/06/06/60604.html.
- Liu Q. 2015. Concept design of cardiovascular stents based on load identification. J Inst Eng India Ser C. 96(2):99–105.
- MA L-Y, CHEN W-W, GAO R-L, LIU L-S, ZHU M-L, WANG Y-J, WU Z-S, LI H-J, GU D-F, YANG Y-J, et al. 2020. China cardiovascular diseases report 2018: an updated summary. J Geriatr Cardiol. 17(01):1–8.
- Maleckis K, Deegan P, Poulson W, Sievers C, Desyatova A, MacTaggart J, Kamenskiy A. 2017. Comparison of femoropopliteal artery stents under axial and radial compression, axial tension, bending, and torsion deformations. J Mech Behav Biomed Mater. 75:160–168.
- Ng J, Foin N, Ang HY, Fam JM, Sen S, Nijjer S, Petraco R, Di Mario C, Davies J, Wong P. 2016. Over-expansion capacity and stent design model: an update with contemporary DES platforms. Int J Cardiol. 221:171–179.
- Ning L, Hongwu Z. 2011. Optimization model for Longitudinal compliance of coronary stents [PhD thesis]. [place unknown].
- Ormiston JA, Dixon SR, Webster MWI, Ruygrok PN, Stewart JT, Minchington I, West T. 2000. Stent longitudinal flexibility: a comparison of 13 stent designs before and after balloon expansion. Cathet Cardiovasc Intervent. 50(1):120–124.
- Pant S, Limbert G, Curzen NP, Bressloff NW. 2011. Multiobjective design optimisation of coronary stents. Biomaterials. 32(31):7755–7773.
- Petrini L, Migliavacca F, Auricchio F, Dubini G. 2004. Numerical investigation of the intravascular coronary stent flexibility. J Biomech. 37(4):495–501.
- Ragkousis GE, Curzen N, Bressloff NW. 2014. Simulation of longitudinal stent deformation in a patient-specific coronary artery. Med Eng Phys. 36(4):467–476.
- Research C for DE. 2020. Coronary drug-eluting stents – nonclinical and clinical studies – companion document. US Food and Drug Administration [Internet]; [accessed Jul 25 2020]. https://www.fda.gov/regulatory-information/search-fda-guidance-documents/coronary-drug-eluting-stents-nonclinical-and-clinical-studies-companion-document.
- Rogers C, Tseng DY, Squire JC, Edelman ER. 1999. Balloon-artery interactions during stent placement: a finite element analysis approach to pressure, compliance, and stent design as contributors to vascular injury. Circ Res. 84(4):378–383.
- Tammareddi S, Sun G, Li Q. 2016. Multiobjective robust optimization of coronary stents. Mater Des. 90:682–692.
- Wang W, Wang L, Yang D, Qi M. 2008. Finite element optimization design of vascular stents [PhD thesis]. [place unknown].
- Wang W, Yang D, Qi M. 2006. Finite element analysis of expansion behavior of Coronary stent [PhD thesis]. [place unknown].
- Wu W, Wang W-Q, Yang D-Z, Qi M. 2007. Stent expansion in curved vessel and their interactions: a finite element analysis. J Biomech. 40(11):2580–2585.