Seok Chang Ryu, Pierre Renaud, Richard J Black, Bruce L Daniel, Mark R Cutkosky
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引用次数: 0
摘要
为开发核磁共振成像引导的经皮手术,我们提出了一种主动针。这种针通过光纤对形状记忆合金(SMA)致动器进行内部激光加热,使针的远端产生弯曲。针在插入时主动弯曲,使其能够到达小目标,同时克服与周围组织相互作用的影响,否则针会偏离其理想路径。主动弯曲部分的设计是在启动时优先向一个方向弯曲,并由 SMA 制成,因为它兼具磁共振和生物兼容性以及超弹性弯曲特性。尺寸相当于标准 16G 活检针的原型显示出明显的弯曲,针尖旋转超过 10°。数值分析和实验提供了有关所需加热量的信息,并为设计高效光学加热系统提供了指导。
Feasibility Study of an Optically Actuated MR-compatible Active Needle.
An active needle is proposed for the development of MRI guided percutaneous procedures. The needle uses internal laser heating, conducted via optical fibers, of a shape memory alloy (SMA) actuator to produce bending in the distal section of the needle. Active bending of the needle as it is inserted allows it to reach small targets while overcoming the effects of interactions with surrounding tissue, which can otherwise deflect the needle away from its ideal path. The active section is designed to bend preferentially in one direction under actuation, and is also made from SMA for its combination of MR and bio-compatibility and its superelastic bending properties. A prototype, with a size equivalent to standard 16G biopsy needle, exhibits significant bending with a tip rotation of more than 10°. A numerical analysis and experiments provide information concerning the required amount of heating and guidance for design of efficient optical heating systems.
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