2020
DOI: 10.1088/1758-5090/abbb9b
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Three-dimensional bioprinting of aneurysm-bearing tissue structure for endovascular deployment of embolization coils

Abstract: Various types of embolization devices have been developed for the treatment of cerebral aneurysms. However, it is challenging to properly evaluate device performance and train medical personnel for device deployment without the aid of functionally relevant models. Current in vitro aneurysm models suffer from a lack of key functional and morphological features of brain vasculature that limit their applicability for these purposes. These features include the physiologically relevant mechanical properties and the… Show more

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Cited by 11 publications
(7 citation statements)
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“…The challenge of matching device shape and size with a targeted aneurysm may be aided in the future by 3-dimensional modeling techniques. 9,10 Dual-antiplatelet use at the time of intervention was higher than in WEB-IT (85% v 69%). This may reflect operator uncertainty and may evolve with increased experience.…”
Section: Challenges With Webmentioning
confidence: 94%
“…The challenge of matching device shape and size with a targeted aneurysm may be aided in the future by 3-dimensional modeling techniques. 9,10 Dual-antiplatelet use at the time of intervention was higher than in WEB-IT (85% v 69%). This may reflect operator uncertainty and may evolve with increased experience.…”
Section: Challenges With Webmentioning
confidence: 94%
“…Difficulties in traversing the microcatheter through tortuous vasculature, guiding the microcatheter tip to the 1/2 or 2/3 position within the aneurysm, and maintaining it in a stable position account for many coil embolization procedures fail. These causes include incomplete aneurysm occlusion ( 16 , 31 , 32 ), aneurysm recanalization ( 31 ), coil misalignment ( 33 ), and intraoperative rupture ( 34 ). These failures can be attributed to unfavorable vessel tortuosity and CIAs geometry.…”
Section: Discussionmentioning
confidence: 99%
“…Especially, as 3D bioprinting technology can prepare models of aneurysm lesions of different degrees, it provides a medical diagnostic technology for predicting aneurysms at different stages. Jang and teammates proposed the first-ever in vitro living 3D printed aneurysm with a fully encapsulated extracellular matrix interrogation therapy and intravascular device [175]. This in vitro aneurysm model could test the biocompatibility and hemostatic efficiency of the embolization device and provide hemodynamic information for predicting aneurysm rupture or healing response after treatment.…”
Section: Aneurysmmentioning
confidence: 99%