The cytotoxicity of corrosion products of nitinol stent wire on cultured smooth muscle cells

Shih, Chun Che; Lin, Shing Jong; Chen, Yuh‐Lien; Su, Yongxian; Lai, Shiau Ting; Wu, Gaston J.; Kwok, Ching Fai; Chung, Kwok Hung

doi:10.1002/1097-4636(200011)52:2<395::aid-jbm21>3.0.co;2-b

Cited by 180 publications

(89 citation statements)

References 23 publications

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“…In addition, their mechanical behavior is closer to the one of cortical bones, compared to usual biocompatible materials such as stainless steels and Ti-based alloys currently used. Ni-Ti family of alloys (also known through its Nitinol representative) has been the unique mark of the SMAs, and in spite of concerns related to the presence of Ni [1], the use in biological applications has been tolerated for some years due to the above mentioned complex of properties. In fact, the TiO 2 layer that is present at the surface of commercially finished material is thought to contribute to the good biocompatibility of Ni-Ti by acting as a barrier to Ni ion migration and dissolution out from the surface [2].…”

Section: Introductionmentioning

confidence: 99%

Development of Ti-Nb-Zr shape memory alloys

Chilnicean

Sprâncenatu

Zhao

et al. 2017

AIP Conference Proceedings

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Abstract. The molecular orbital method was used to identify Ni-free shape memory alloys in the Ti-Nb-Zr system. The alloys were manufactured via the arc melting technique, in Ar atmosphere and subsequently solution annealed with quenching in water. The corresponding microstructure was analyzed by X-ray diffraction and scanning electron microscopy to show the formation of martensite. A chart detailing the sequence of transformation was drawn based on calorimetric measurements and structural analysis.

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Section: Introductionmentioning

confidence: 99%

Development of Ti-Nb-Zr shape memory alloys

Chilnicean

Sprâncenatu

Zhao

et al. 2017

AIP Conference Proceedings

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“…Além disso, possui grande elasticidade e resistência à fratura. Nitinol é a sigla de Nickel Titanium Naval Ordinance Laboratories, cuja liga metálica foi inicialmente desenvolvida para fins militares 18 A fratura de stents de nitinol pode estar relacionada ao polimento e ao revestimento da superfície do stent com óxidos amorfos 19,20 .…”

Section: Introductionunclassified

“…A liberação lenta de íons metais nos tecidos que circundam o local de implante do stent pode ser a razão da resposta inflamatória e hiperplásica local. Os produtos corrosivos das ligas de metal, comumente utilizados na fabricação de stents, (aço inoxidável 316 L e o nitinol) demonstram biotoxicidade 19,31 . O nitinol demonstrou ter efeito inflamatório por causar um aumento da secreção de interleucina-1 ß pelos monóci-tos 32 .…”

Section: Introductionunclassified

“…Os resultados não demonstraram diferença estatística entre os grupos, sendo que nesse tipo de artéria, a principal causa de falência dos stents estaria relacionada a fatores mecâ-nicos com conseqüente fratura dos stents em longo prazo 58,59 . Por exemplo, stents de nitinol podem apresentar fratura relacionada à cobertura e ao polimento com óxi-dos amorfos 19,20 .…”

Section: Introductionunclassified

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Atualização sobre endopróteses vasculares (stents): dos estudos experimentais à prática clínica

França

Pereira

2008

J. vasc. bras.

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ResumoAtualmente, o tratamento das doenças vasculares periféricas é uma das áreas da medicina de maior expansão. O número de intervenções vasculares aumenta e os resultados das novas técnicas endovasculares estão muito próximos aos das tradicionais cirurgias vasculares. Embora a angioplastia ofereça bons resultados em curto prazo, o implante de stents procura melhorar o sucesso do procedimento e estender o seu uso a um número maior de pacientes com doença vascular periférica. Entretanto, a sua utilização ainda é controversa. O implante de stents no sistema aorto-ilíaco tem bons resultados; porém, a sua indicação para as lesões femoro-poplíteas ainda é discutida. Além disso, o rápido desenvolvimento de stents e sua escolha para uso no sistema vascular periférico têm sido uma difícil tarefa para o cirurgião endovascular. Muitos fatores influenciam a escolha do stent, e um amplo conhecimento desse material é essencial. Tal escolha depende da avaliação pré-operatória, da localização e das características da lesão e também do uso do stent primário ou seletivo. Nesse trabalho, são realizadas revisão do histórico do desenvolvimento dos stents, desde os estudos experimentais até os ensaios clínicos e também discussão sobre a sua aplicação no tratamento das doenças vasculares periféricas.Palavras-chave: Artéria, prótese vascular, doenças vasculares periféricas. AbstractThe treatment of peripheral vascular diseases is one of the most rapidly expanding fields of medicine today. The number of peripheral interventions increased and innovative endovascular techniques are close to the results of traditional vascular surgeries. Although balloon angioplasty alone offers good immediate results, implantation of stents has been proposed to improve the procedural success and extend its application to more patients with peripheral vascular disease. However, stenting is controversial. Use of stents has good results in aortoiliac vessels, but its use in femoropopliteal vessels is still in dispute. Moreover, the rapid development of endovascular stents for peripheral applications and their choice have been a complicated task for endovascular surgeons. Many factors influence choice of stent, therefore, knowledge of available stents is mandatory. Appropriate selection depends on adequate preprocedural evaluation of the lesion, choice of primary vs. selective stent placement, and location and characteristics of the lesion. In this article the history of stent development is reviewed, from studies with experimental models to clinical practice, and its application in the treatment of peripheral vascular diseases is discussed.Keywords: Artery, vascular graft, peripheral vascular diseases. IntroduçãoStents são estruturas tubulares metálicas, em forma de malha, inseridas na luz vascular, cuja função é manter o lúmen arterial aberto (por meio de pressão mecâ-nica) e evitar as reestenoses decorrentes do desenvolvimento da hiperplasia intimal ou da contração resultante do tratamento de lesões fibroelásticas 1 .O termo "stent" vem do epônimo Charle...

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“…6,7 In a recent study, we demonstrated the cytotoxicity of corrosion products of nitinol stent wire on cultured smooth muscle cells. 8 In the present investigation, we aimed to study the effects of corrosion products of 316 L stainless steel wire on the growth and morphology of cultured rat aortic smooth muscle cells. In addition, the affected phases of cell replication were analyzed by cell cycle sorter.…”

Section: Introductionmentioning

confidence: 99%

Growth inhibition of cultured smooth muscle cells by corrosion products of 316 L stainless steel wire

Shih

Chen³

et al. 2001

J. Biomed. Mater. Res.

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The potential cytotoxicity on vascular smooth muscle cells of corrosion products from 316 L stainless steel, one of most popular biomaterials of intravascular stents, has not been highlighted. In this investigation, 316 L stainless steel wires were corroded in Dulbecco's modified eagle's medium with applied constant electrochemical breakdown voltage, and the supernatant and precipitates of corrosion products were prepared as culture media. The effects of different concentrations of corrosion products on the growth of rat aortic smooth muscle cells were conducted with the [3H]-thymidine uptake test and cell cycle sorter. Both the supernatant and precipitates of corrosion products were toxic to the primary culture of smooth muscle cells. The growth inhibition was correlated well with the increased nickel ions in the corrosion products when nickel concentration was above 11.7 ppm. The corrosion products also changed cell morphology and induced cell necrosis. The cell growth inhibition occurred at the G0/G1 to S transition phase. Similar to our recent study of nitinol stent wire, the present investigation also demonstrated the cytotoxicity of corrosion products of 316 L stainless steel stent wire on smooth muscle cells, which might affect the poststenting vascular response.

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The cytotoxicity of corrosion products of nitinol stent wire on cultured smooth muscle cells

Cited by 180 publications

References 23 publications

Development of Ti-Nb-Zr shape memory alloys

Development of Ti-Nb-Zr shape memory alloys

Atualização sobre endopróteses vasculares (stents): dos estudos experimentais à prática clínica

Growth inhibition of cultured smooth muscle cells by corrosion products of 316 L stainless steel wire

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