1) endothelialization stent
内皮化血管支架
2) precut aneous transluminal angioplasty and stenting
经皮血管内支架成形术
3) percutaneous transluminal angioplasty and stenting
经皮血管内支架成型术
1.
Comparative study on hemodynamic change of transcranial Doppler and digital subtraction angiography before and after percutaneous transluminal angioplasty and stenting in the patients with intracal stenosis artery
颅内动脉狭窄经皮血管内支架成型术前后血流动力学改变与脑血管造影的对照研究
4) endovascular stent
血管内支架
1.
Endovascular stent placement for vertebral artery aneurysms;
血管内支架技术治疗颅内椎动脉动脉瘤
2.
The Manufacture and Mechanical Properties Analysis and Evaluation of Endovascular Stents;
血管内支架的加工及其力学性能的分析与评价
3.
Influence of electrochemical polishing on hemocompatibility of endovascular stent
电化学抛光对血管内支架血液相容性的影响
5) Stent
血管内支架
1.
Preliminary Report of Endovascular Stents Placement for Treatment of Intracranial Aneurysms;
血管内支架治疗颅内动脉瘤的临床疗效初步报告
2.
Treatment of posterior-communicating wide-necked aneurysms with endovascular stent and Guglielmi detachable coils;
血管内支架结合电解可脱卸弹簧圈治疗宽颈后交通动脉瘤
3.
Stenting have become a more practical treating method for coronary artery heart disease which clinic application have exceeded the surgical operations,and gradually accepted by more and more patients.
血管内支架植入术已发展成为国内外治疗冠心病的主要有效手段,近年来其临床适用性已超过外科手术并逐渐为广大患者接受认可。
6) Intravascular stent
血管内支架
1.
The advent of intravascular stents has established a new route to treat complex intracranial aneurysms, but the security and validity should be checked in a long-time follow up.
血管内支架的出现使这一现状得以改观,为颅内复杂性动脉瘤的治疗开辟了一条新的途径,但其安全性、有效性尚需进一步随访和检验。
2.
This paper introduces the surface modification of NiTi alloy intravascular stents for roughness by chemical erosion and plasma deposition technology.
为了更有利于血管内支架表面的药物涂层和内皮细胞的粘附,采用化学腐蚀后溶胶-凝胶法涂覆TiO_2薄膜和等离子体沉积的方法对血管内支架表面进行粗糙化表面改性。
3.
The background and development of intravascular stent and the restenosis resulted from clinical application are briefly presented.
简要介绍了血管内支架产生的背景、发展进程及其应用于临床后出现的再狭窄问题,着重综述了十几年来内皮细胞种植血管内支架预防术后再狭窄的相关研究成果。
补充资料:再内皮化
再内皮化
病理学术语。介入放射学的管腔内支架(stent)置入后内皮细胞覆盖支架表面的过程。一旦管径适宜的支架置入人体管腔,支架的金属丝(支杆)即于相应管腔壁上形成凹槽,即嵌入作用。而金属丝间未被嵌入的部位则不同程度地残留一些内皮细胞,这些细胞逐渐呈多中心生长、相互融合,最终覆盖了整个支架内壁。再内皮化过程一般仅需数周即可完成。支架内表面可否及时再内皮化是置入的支架成功与否的标志之一。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条