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At present the main cause of death originates from cardiovascular diseases. Primarily the most frequent cause is vessel closing thus resulting in tissue damage. The stent can help to avoid this. It expands the narrowed vessel section and allows free blood flow. The good surface quality of stents is important. It also must have adequate mechanical characteristics or else it can be damaged which can easily lead to the fracture of the implant. Thus, we have to consider the importance of the surface treatment of these implants. In our experiments the appropriate design was cut from a 1.041 mm inner diameter and 0.100 mm wall thickness nitinol tube by using Nd:YAG laser device. Then, the stent was subjected to chemical etching. By doing so, the burr created during the laser cutting process can be removed and the surface quality refined. In our research, we changed the time of chemical etching and monitored the effects of this parameter. The differently etched stents were subjected to microscopic analysis, mass measurement and in vivo environment tests. The etching times that gave suitable surface and mechanical features were identified.
Słowa kluczowe
Czasopismo
Rocznik
Tom
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3--8
Opis fizyczny
Bibliogr. 22 poz., rys., wykr.
Twórcy
autor
- Department of Materials Science and Engineering, Budapest University of Technology and Economics, Budapest, Hungary
autor
- Department of Materials Science and Engineering, Budapest University of Technology and Economics, Budapest, Hungary
- MTA–BME Research Group for Composite Science and Technology, Budapest, Hungary
autor
- Heart Center, Semmelweis University, Budapest, Hungary
autor
- 1 Department of Materials Science and Engineering, Budapest University of Technology and Economics, Budapest, Hungary
autor
- 4 Experimental Laboratory of Cardiac Surgery, University Hospital of Heidelberg, Heidelberg, Germany
- Department of Cardiology, University Hospital of Heidelberg, Heidelberg, Germany
Bibliografia
- [1] NELSON B.D., Expandable Metal Stents: Physical Properties and Tissue Responses, Techniques in Gastrointestinal Endoscopy, 2001, Vol. 3, 70–74.
- [2] LIM I.A.L., Biocompatibility of Stent Materials, MURJ, 2004, Vol. 11, 33–37.
- [3] JUSTICE J., YACONO C., Use of drug-eluting stents for patients with coronary heart disease, JAAPA, 2009, Vol. 22(8), 30–34.
- [4] MENOWN I.B.A, NOAD R., GARCIA E.J., MEREDITH I., The Platinum Chromium Element Stent Platform: from Alloy, to Design, to Clinical Practice, Adv. Ther., 2010, Vol. 27(3), 129–141.
- [5] MIGLIAVACA F., PETRINI L., MASSAROTTI P., SCHIEVANO S., AURICCHIO F., DUBINI G., Stainless and shape memory alloy coronary stents: a computational study on the interaction with the vascular wall, Biomech. Model Mechanobiol., 2004, Vol. 2(4), 205–217.
- [6] WEINTRAUB W.S.A., The pathophysiology and burden of restenosis, Am. J. Cardol., 2007, Vol. 100(5A), 3K–9K.
- [7] PUSKÁS Z.S., TOLDI Á.I., GINSZTLER J., Measuring the Heparin Binding Capability of Polyurethane-Coated Stainless Steel Stents with a Label-Free Biosensor, Materials Science Forum, 2010, Vol. 659, 331–335.
- [8] MANI G., MACIAS C.E., FELDMAN M.D., MARTON D., OH S., AGRAWAL C.M., Delivery of paclitaxel from cobalt–chromium alloy surfaces without polymeric carriers, Biomat., 2010, Vol. 31(20), 5372–5384.
- [9] SHABALOVSKAYA S., ANDEREGG J., HUMBEECK J.V., Critical overview of nitinol surfaces and their modifications for medical applications, Acta Biomaterialia, 2008, Vol. 4, 447–467.
- [10] SCHWEIZER S, SCHUSTER T., JUNGINGER M.M., SIEKMEYER G., TAUBERT A., Surface Modification of Nickel/Titanium Alloy and Titanium Surfaces via a Polyelectrolyte Multilayer/ Calcium Phosphate Hybrid Coating, Macromolecular Materials and Engineering, 2010, Vol. 295(6), 535–543.
- [11] SHABALOVSKAYA S., ANDEREGG J., LAABS F., THIEL P., RONDELLI G., Surface conditions of nitinol wires, tubing, and as-cast alloys: the effect of chemical etching, aging in boiling water, and heat treatment, J. Biomed. Mater. Res., 2003, Vol. 65B, 193–203.
- [12] VOJTECH D., FOJT J., JOSKA L. NOVÁK P., Surface treatment of NiTi shape memory alloy and its influence on corrosion behavior, Surface and Coatings Technology, 2010, Vol. 204(23), 3895–3901.
- [13] SHABALOVSKAYA S., RONDELLI G., UNDISZ A., ANDEREGG J.W., BURLEIGH T.D., RETTENMYR M.E., The electrochemical characteristics of native nitinol surfaces, Biomat., 2009, Vol. 30, 3662–3671.
- [14] CLARKE B., CARROLL W., ROCHEV Y., HYNES M., BRADLEY D., PLUMLEY D., Influence of nitinol wire surface treatment on oxide thickness and composition and its subsequent effect on corrosion resistance and nickel ion release, Journal of Biomedical Materials Research, Part A, 2006, Vol. 79A, 61–70.
- [15] O’BRIEN B., CARROLL W.M., KELLY M.J., Passivation of nitinol wire for vascular implants – a demonstration of the benefits, Biomat., 2002, Vol. 23(8), 1739–1748.
- [16] DODGE J.T., BROWN B.G., BOLSON E.L., DODGE H.T., Lumen diameter of normal human coronary arteries. Influence of age, sex, anatomic variation, and left ventricular hypertrophy or dilation, Circulation, 1992, Vol. 86(1), 232–246.
- [17] KATONA B., NAGY P., BOGNÁR E., HIRSCHBERG K., Development of nitinol stents: etching experiments, Materials Science Forum, 2013, Vol. 729, 240–245©, Trans Tech Publications, Switzerland. DOI: 10.4028/www.scientific.net/MSF.729.240
- [18] SZABADÍTS P., PUSKÁS Z.S., DOBRÁNSZKY J., Flexibility and trackability of laser cut coronary stent systems, Acta of Bioengineering and Biomechanics, 2009, Vol. 11(3), 11–18.
- [19] MARIUNAS M., KUZBORSKA Z., Influence of load magnitude and duration on the relationship between human arterial blood pressure and flow rate, Acta of Bioengineering and Biomechanics, 2011, Vol. 13(2), 67–72.
- [20] CHAICHANA T., SUN Z., JEWKES J., Hemodynamic impacts of left coronary stenosis: A patient-specific analysis, Acta of Bioengineering and Biomechanics, 2012, Vol. 15(3), 107–112.
- [21] BURNAT B., WALKOWIAK-PRZYBYŁO M., BŁASZCZYK T., KLIMEK L., Corrosion behaviour of polished and sandblasted titanium alloys in PBS solution, Acta of Bioengineering and Biomechanics, 2013, Vol. 15(1), 87–95.
- [22] WALKE W., PRZONDZIONO J., Influence of hardening and surface modification of endourological wires on corrosion resistance, Acta of Bioengineering and Biomechanics, 2012, Vol. 14(3), 93–99.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ffc170bc-ffee-4c7f-8f2a-57febc381ebe