日常生活中股腘动脉变形及镍钛合金支架特性综述

A review on femoropopliteal arterial deformation during daily lives and nickel-titanium stent properties.

作者信息

Kareem Ali K, Gabir Mustafa M, Ali Inas R, Ismail Al E, Taib Ishkrizat, Darlis Nofrizalidris, Almoayed Omar M

机构信息

Department of Biomedical Engineering, Al-Mustaqbal University College, Hillah, Iraq.

Faculty of Mechanical and Manufacturing Engineering, Universiti Tun Hussein Onn Malaysia (UTHM), Batu Pahat, Malaysia.

出版信息

J Med Eng Technol. 2022 May;46(4):300-317. doi: 10.1080/03091902.2022.2041749. Epub 2022 Mar 2.

DOI:10.1080/03091902.2022.2041749

PMID:35234558

Abstract

The increasing number of studies on the behaviour of stent placement in recent decades provides a clear understanding of peripheral artery disease (PAD). The severe mechanical loads (axial tension and compression, bending, radial compression and torsion) deformation of the femoropopliteal artery (FPA) is responsible for the highest failure rate of permanent nickel-titanium (Nitinol) stents. Therefore, the purpose of this article is to review research papers that examined the deformation of the natural load environment of FPA, the properties of Nitinol and mechanical considerations. In conclusion, a better understanding of mechanical behaviour for FPA Nitinol stents contributes to increased mechanical performance and fatigue-life.

摘要

近几十年来，关于支架置入行为的研究数量不断增加，这使人们对外周动脉疾病（PAD）有了清晰的认识。股腘动脉（FPA）的严重机械负荷（轴向拉伸和压缩、弯曲、径向压缩和扭转）变形是永久性镍钛合金（Nitinol）支架故障率最高的原因。因此，本文的目的是回顾研究论文，这些论文研究了FPA自然负荷环境的变形、Nitinol的特性以及机械方面的考虑因素。总之，更好地了解FPA Nitinol支架的力学行为有助于提高其机械性能和疲劳寿命。

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A review on femoropopliteal arterial deformation during daily lives and nickel-titanium stent properties.日常生活中股腘动脉变形及镍钛合金支架特性综述

J Med Eng Technol. 2022 May;46(4):300-317. doi: 10.1080/03091902.2022.2041749. Epub 2022 Mar 2.

A computational study of fatigue resistance of nitinol stents subjected to walk-induced femoropopliteal artery motion.针对受步行诱导的股浅动脉运动影响的镍钛诺支架的抗疲劳性能的计算研究。

J Biomech. 2021 Mar 30;118:110295. doi: 10.1016/j.jbiomech.2021.110295. Epub 2021 Feb 4.

Nitinol Stents in the Femoropopliteal Artery: A Mechanical Perspective on Material, Design, and Performance.镍钛诺支架在股浅动脉中的应用：从材料、设计和性能的力学角度探讨

Ann Biomed Eng. 2018 May;46(5):684-704. doi: 10.1007/s10439-018-1990-1. Epub 2018 Feb 22.

Comparison of femoropopliteal artery stents under axial and radial compression, axial tension, bending, and torsion deformations.对比轴向和径向压缩、轴向拉伸、弯曲和扭转变形下的股浅动脉支架。

J Mech Behav Biomed Mater. 2017 Nov;75:160-168. doi: 10.1016/j.jmbbm.2017.07.017. Epub 2017 Jul 13.

A method of assessing peripheral stent abrasiveness under cyclic deformations experienced during limb movement.一种评估肢体运动过程中周期性变形下外周支架磨损性的方法。

Acta Biomater. 2022 Nov;153:331-341. doi: 10.1016/j.actbio.2022.09.044. Epub 2022 Sep 24.

[Influence of deformation of femoropopliteal artery on choice of stents].[股腘动脉变形对支架选择的影响]

Zhonghua Wai Ke Za Zhi. 2020 Nov 1;58(11):826-830. doi: 10.3760/cma.j.cn112139-20200605-00437.

Effect of balloon pre-dilation on performance of self-expandable nitinol stent in femoropopliteal artery.球囊预扩张对自膨式镍钛合金支架在股浅动脉中性能的影响。

Biomech Model Mechanobiol. 2023 Feb;22(1):189-205. doi: 10.1007/s10237-022-01641-x. Epub 2022 Oct 25.

Recent advances in self-expanding stents for use in the superficial femoral and popliteal arteries.用于股浅动脉和腘动脉的自膨胀支架的最新进展。

Expert Rev Cardiovasc Ther. 2014 Jul;12(7):833-42. doi: 10.1586/14779072.2014.918505. Epub 2014 May 15.

Patient-level meta-analysis of 999 claudicants undergoing primary femoropopliteal nitinol stent implantation.对999例接受原发性股腘动脉镍钛合金支架植入术的间歇性跛行患者进行的患者水平荟萃分析。

Catheter Cardiovasc Interv. 2017 Jun 1;89(7):1250-1256. doi: 10.1002/ccd.27029. Epub 2017 Mar 17.

Fracture of self-expanding nitinol stents stressed in vitro under simulated intravascular conditions.自膨式镍钛诺支架在模拟血管内条件下体外受力时的骨折。

J Vasc Surg. 2008 Aug;48(2):435-40. doi: 10.1016/j.jvs.2008.02.029. Epub 2008 May 16.

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Cureus. 2023 Nov 9;15(11):e48590. doi: 10.7759/cureus.48590. eCollection 2023 Nov.

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日常生活中股腘动脉变形及镍钛合金支架特性综述

A review on femoropopliteal arterial deformation during daily lives and nickel-titanium stent properties.

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