Magnetic soft microfiberbots for robotic embolization

神经血管束 栓塞 生物医学工程 动脉瘤 医学 放射科 外科
作者
Xurui Liu,Liu Wang,Yuanzhuo Xiang,Fan Liao,Na Li,Jiyu Li,Jiaxin Wang,Qingyang Wu,Cheng Zhou,Youzhou Yang,Yuanshi Kou,Yueying Yang,Hanchuan Tang,Ning Zhou,Chidan Wan,Zhouping Yin,Guang‐Zhong Yang,Guangming Tao,Jianfeng Zang
出处
期刊:Science robotics [American Association for the Advancement of Science]
卷期号:9 (87): eadh2479-eadh2479 被引量:173
标识
DOI:10.1126/scirobotics.adh2479
摘要

Cerebral aneurysms and brain tumors are leading life-threatening diseases worldwide. By deliberately occluding the target lesion to reduce the blood supply, embolization has been widely used clinically to treat cerebral aneurysms and brain tumors. Conventional embolization is usually performed by threading a catheter through blood vessels to the target lesion, which is often limited by the poor steerability of the catheter in complex neurovascular networks, especially in submillimeter regions. Here, we propose magnetic soft microfiberbots with high steerability, reliable maneuverability, and multimodal shape reconfigurability to perform robotic embolization in submillimeter regions via a remote, untethered, and magnetically controllable manner. Magnetic soft microfiberbots were fabricated by thermal drawing magnetic soft composite into microfibers, followed by magnetizing and molding procedures to endow a helical magnetic polarity. By controlling magnetic fields, magnetic soft microfiberbots exhibit reversible elongated/aggregated shape morphing and helical propulsion in flow conditions, allowing for controllable navigation through complex vasculature and robotic embolization in submillimeter regions. We performed in vitro embolization of aneurysm and tumor in neurovascular phantoms and in vivo embolization of a rabbit femoral artery model under real-time fluoroscopy. These studies demonstrate the potential clinical value of our work, paving the way for a robotic embolization scheme in robotic settings.
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