使用支架内支架技术将从椎动脉脱位的Pipeline 栓塞装置重新定位到基底动脉。实用和技术方面的考虑。

Endovascular repositioning of a pipeline embolization device dislocated from the vertebral into the basilar artery using a stent-in-stent technique. Practical and technical considerations.

机构信息

Department of Neuroradiology, Medical Faculty Mannheim, University of Heidelberg, Theodor-Kutzer-Ufer 1–3, Mannheim, Germany.

出版信息

Clin Neuroradiol. 2012 Mar;22(1):47-54. doi: 10.1007/s00062-011-0128-8.

DOI:10.1007/s00062-011-0128-8

PMID:22286147

Abstract

PURPOSE

Stent dislocation is a rarely encountered problem in interventional neuroradiology. This article describes the repositioning of a pipeline embolization device (PED) dislocated from the vertebral artery (VA) into the basilar artery (BA) using a stent-in-stent technique. Based on this case additional in vitro measurements were performed.

METHODS

In a patient, a larger PED (4.0 × 20 mm) was partially opened in a PED (3.0 × 20 mm) floating freely within the distal BA. The microcatheter with the partially opened stent was pulled back hereby pulling back the stent-in-stent construct into the VA. In vitro the maximum tensile force that could be applied to a 3.5 mm and a 4.5 mm PED before dislodgement out of a 3.0 mm PED was determined. Videomorphometric analyses of the stent-in-stent construct were performed while applying traction to the construct.

RESULTS

Repositioning of a dislocated PED is feasible using a stent-in-stent technique. Higher dislodgement forces can be applied using a larger PED (4.5 mm, 0.36 N) whereas dislodgement occurred faster using a smaller PED (3.5 mm, 0.26 N). Before dislodgement occurs, elongation and tapering of both stents can be seen. Finally, it was found that incidental extraction of the 4.5 mm PED out of the delivering microcatheter during traction is possible.

CONCLUSIONS

Repositioning of a lost PED is feasible using a stent-in-stent technique. Principally, dislodgement force is higher using a larger PED, while in this case care has to be taken to avoid incidental extraction of the second PED out of the microcatheter.

摘要

目的

支架脱位在介入神经放射学中是一种罕见的问题。本文描述了使用支架内支架技术将从椎动脉（VA）脱位的Pipeline 栓塞装置（PED）重新定位到基底动脉（BA）的过程。基于此病例，还进行了额外的体外测量。

方法

在一名患者中，一个较大的 PED（4.0×20mm）部分打开，一个自由漂浮在远端 BA 内的较小 PED（3.0×20mm）完全打开。微导管和部分打开的支架一起被拉回，从而将支架内支架结构拉回到 VA 中。在体外，确定了 3.5mm 和 4.5mm 的 PED 在从 3.0mm 的 PED 中脱出之前可以施加的最大拉力。在对构建体施加牵引力的同时，对支架内支架构建体进行了 videomorphometric 分析。

结果

使用支架内支架技术可实现脱位 PED 的重新定位。使用较大的 PED（4.5mm，0.36N）可以施加更高的脱位力，而使用较小的 PED（3.5mm，0.26N）时脱位更快。在发生脱位之前，可以看到两个支架的伸长和变细。最后发现，在牵引过程中，4.5mm 的 PED 可以意外地从输送微导管中拔出。

结论

使用支架内支架技术可以实现丢失 PED 的重新定位。原则上，使用较大的 PED 时脱位力更高，但在这种情况下，必须注意避免第二个 PED 意外从微导管中拔出。

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使用支架内支架技术将从椎动脉脱位的Pipeline 栓塞装置重新定位到基底动脉。实用和技术方面的考虑。

Endovascular repositioning of a pipeline embolization device dislocated from the vertebral into the basilar artery using a stent-in-stent technique. Practical and technical considerations.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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