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Submillimeter fiber robots capable of decoupled macro-micro motion for endoluminal manipulation

Cheng Zhou, Zheng Xu, Zecai Lin, Xiaotong Qin, Jingyuan Xia, X. Ai, Chuqian Lou, Ziyi Huang, Shaoping Huang, Huanghua Liu, Yun Zou, Weidong Chen, Guang‐Zhong Yang, Anzhu Gao

2024Science Advances25 citationsDOIOpen Access PDF

Abstract

Endoluminal and endocavitary intervention via natural orifices of the body is an emerging trend in medicine, further underpinning the future of early intervention and precision surgery. This motivates the development of small continuum robots to navigate freely in confined and tortuous environment. The trade-off between a large range of motion and high precision with concomitant actuation cross-talk poses a major challenge. Here, we present a submillimeter-scale fiber robot (~1 mm) capable of decoupled macro and micro manipulations for intervention and operation. The thin optical fibers, working both as mechanical tendons and light waveguides, can be pulled/pushed to actuate the macro tendon-driven continuum robot and transmit light to actuate the liquid crystal elastomer-based micro built-in light-driven parallel robot. The combination of the decoupled macro and micro motions can accomplish accurate cross-scale motion from several millimeters down to tens of micrometers. In vivo animal studies are performed to demonstrate its positioning accuracy of precise micro operations in endoluminal or endocavitary intervention.

Topics & Concepts

RobotMacroComputer scienceMacroscopic scaleNanotechnologyMechanical engineeringSimulationMaterials scienceArtificial intelligencePhysicsEngineeringQuantum mechanicsProgramming languageSoft Robotics and ApplicationsMicro and Nano RoboticsRetinal and Macular Surgery
Submillimeter fiber robots capable of decoupled macro-micro motion for endoluminal manipulation | Litcius