http://orcid.org/0000-0001-5733-3971
References
- Auricchio F, Conti M, De Beule M. 2011. Carotid artery stenting simulation: from patient-specific images to finite element analysis. Med Eng Phys. 33:281–289.
- Auricchio F, Taylor R, Lubliner J. 1997. Shape-memory alloys: macromodelling and numerical simulations of the superelastic behavior. Comput Methods Appl. 146(3–4):281–312.
- Auricchio F, Taylor RL. 1997. Shape-memory alloys: modelling and numerical simulations of the finite-strain superelastic behavior. Comput Methods Appl Mech Eng. 143:175–194.
- Boland EL, Grogan JA, Conway C, McHugh PE. 2015. Computer simulation of the mechanical behaviour of implanted biodegradable stents in a remodelling artery. JOM. 34:8049.
- De Beule M, Van Cauter S, Mortier P, Van Loo D, Van Impe R, Verdonck P, Verhegghe B. 2009. Virtual optimization of self-expandable braided wire stents. Med Eng Phys. 31:448–453.
- Duerig TW, Tolomeo DE, Wholey M. 2000. An overview of superelastic stent design. Minim Invasive Ther Allied Technol. 9(3–4):235–246.
- Fernandez H, Macho JM, Blasco J, Roman LS, Mailaender W, Serra L, Larrabide I. 2015. Computation of the change in length of a braided device when deployed in realistic vessel models. Int J Comput Assist Radiol Surg. 10(10):1659–1665.
- Freitag L. 2010. Airway stents. In: Strausz J, Bolliger CT, editors. Interventional pulmonology. Sheffield: European Respiratory Society Journals Ltd; p. 190–217.
- Frost M, Sedla P, Kruisova A, Landa M. 2014. Simulations of self-expanding braided stent using macroscopic model of NiTi shape memory alloys covering R-phase. J Mater Eng Perform. 23(7):2584–2590.
- Fu W, Xia Q, Yan R, Qiao A. 2017. Numerical investigations of the mechanical properties of braided vascular stents. BME. 29:81–94.
- Gaafar AH, Shaaban AY, Elhadidi MS. 2012. The use of metallic expandable tracheal stents in the management of inoperable malignant tracheal obstruction. Eur Arch Otorhinolaryngol. 269(1):247–253.
- Hu HC, Liu YH, Wu YC, Hsieh MJ, Chao YK, Wu CY, Ko PJ, Liu CY. 2011. Granulation tissue formation following Dumon airway stenting: the influence of stent diameter. Thorac Cardiovasc Surg. 59(3):163–168.
- Jedwab MR, Clerc CO. 1993. A study of the geometrical and mechanical properties of a self-expanding metallic stent—theory and experiment. J App Biomater. 4(1):77–85.
- Kim JH, Kang TJ, Yu WR. 2008. Mechanical modeling of self-expandable stent fabricated using braiding technology. J Biomech. 41:3202–3212.
- Kim JH, Kang TJ, Yu WR. 2010. Simulation of mechanical behavior of temperature-responsive braided stents made of shape memory polyurethanes. J Biomech. 43:632–643.
- Ma D, Dargush GF, Natarajan SK, Levy EI, Siddiqui AH, Meng H. 2012. Computer modeling of deployment and mechanical expansion of neurovascular flow diverter in patient-specific intracranial aneurysms. J Biomech. 45(13):2256–2263.
- McGrath DJ, O’Brien B, Bruzzi M, Kelly N, Clauser J, Steinseifer U, McHugh PE. 2016. Evaluation of cover effects on bare stent mechanical response. J Mech Behav Biomed Mater. 61:567–580.
- McGrath DJ, O'Brien B, Bruzzi M, McHugh PE. 2014. Nitinol stent design - understanding axial buckling. J Mech Behav Biomed Mater. 40:252–263.
- McGrath DJ, Thiebes AL, Cornelissen CG. 2017a. Evaluating the interaction of a tracheobronchial stent in an ovine in-vivo model. Biomech Model Mechanobiol. 17(2):499–516.
- McGrath DJ, Thiebes AL, Cornelissen CG, O’Shea MB, O’Brien B, Jockenhoevel S, Bruzzi M, McHugh PE. 2017b. An ovine in vivo framework for tracheobronchial stent analysis. Biomech Model Mechanobiol. 16(5):1535–1553.
- Ni XY, Pan CW, Gangadhara Prusty B. 2015. Numerical investigations of the mechanical properties of a braided non-vascular stent design using finite element method. Comput Methods Biomech Biomed Eng. 18(10):1117–1125.
- Ochola J, Malengier B, Daelemans L, Van Langenhove L. 2017. Finite element simulations to evaluate deformation of polyester tubular braided structures. Text Res J. 87:1275–1283.
- Ost DE, Shah AM, Lei X, Godoy MCB, Jimenez CA, Eapen GA, Jani P, Larson AJ, Sarkiss MG, Morice RC. 2012. Respiratory infections increase the risk of granulation tissue formation following airway stenting in patients with malignant airway obstruction. Chest. 141:1473–1481.
- Saad CP, Murthy S, Krizmanich G, Mehta AC. 2003. Self-expandable metallic airway stents and flexible bronchoscopy. Chest. 124(5):1993–1999.
- Shanahan C, Tiernan P, Tofail SAM. 2017a. Looped ends versus open ends braided stent: A comparison of the mechanical behaviour using analytical and numerical methods. J Mech Behav Biomed Mater. 75:581–591.
- Shanahan C, Tofail SAM, Tiernan P. 2017b. Viscoelastic braided stent: Finite element modelling and validation of crimping behaviour. Mater Des 121:143–153.
- Suzuki T, Hiroyuki T, Soichiro F, Chihebeddine D. 2017. Relationships between geometrical parameters and mechanical properties for a helical braided flow diverter stent. THC. 1:1–13.
- Zhao H, Liu Y, Ni X, Xia F, Zhang X. 2013. Mechanical performance of cup-spherical-shaped and straight form braided esophageal stent. Telkomnika. 11(11):6657–6663.
- Zhao S, Liu X, (Cheryl), Gu L. 2012. The impact of wire stent fabrication technique on the performance of stent placement. J Med Devices. 6(1):011007.