Fiberbots: Robotic Fibers for High-precision Minimally Invasive Surgery

Overview

Journal Sci Adv

Specialties Biology
Science

Date 2024 Jan 19

PMID 38241380

Authors

Mohamed E M K Abdelaziz

Jinshi Zhao

Bruno Gil Rosa

Hyun-Taek Lee

Daniel Simon

Khushi Vyas

Bing Li

Hanifa Koguna

Yue Li

Ali Anil Demircali

Huseyin Uvet

Gulsum Gencoglan

Arzu Akcay

Mohamed Elriedy

James Kinross

Ranan Dasgupta

Zoltan Takats

Eric Yeatman

Guang-Zhong Yang

Burak Temelkuran

Affiliations

Soon will be listed here.

Abstract

Precise manipulation of flexible surgical tools is crucial in minimally invasive surgical procedures, necessitating a miniature and flexible robotic probe that can precisely direct the surgical instruments. In this work, we developed a polymer-based robotic fiber with a thermal actuation mechanism by local heating along the sides of a single fiber. The fiber robot was fabricated by highly scalable fiber drawing technology using common low-cost materials. This low-profile (below 2 millimeters in diameter) robotic fiber exhibits remarkable motion precision (below 50 micrometers) and repeatability. We developed control algorithms coupling the robot with endoscopic instruments, demonstrating high-resolution in situ molecular and morphological tissue mapping. We assess its practicality and safety during in vivo laparoscopic surgery on a porcine model. High-precision motion of the fiber robot delivered endoscopically facilitates the effective use of cellular-level intraoperative tissue identification and ablation technologies, potentially enabling precise removal of cancer in challenging surgical sites.

Citing Articles

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

Zhou C, Xu Z, Lin Z, Qin X, Xia J, Ai X Sci Adv. 2024; 10(47):eadr6428.

PMID: 39576861 PMC: 11584019. DOI: 10.1126/sciadv.adr6428.

Robotic Laser Tissue Soldering for Atraumatic Soft Tissue Fusion Guided by Fluorescent Nanothermometry.

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Thermally Drawn Polymeric Catheters for MR-Guided Cardiovascular Intervention.

Abdelaziz M, Tian L, Lottner T, Reiss S, Heidt T, Maier A Adv Sci (Weinh). 2024; 11(45):e2407704.

PMID: 39403885 PMC: 11615795. DOI: 10.1002/advs.202407704.

Towards a Procedure-Optimised Steerable Catheter for Deep-Seated Neurosurgery.

Aktas A, Demircali A, Secoli R, Temelkuran B, Rodriguez Y Baena F Biomedicines. 2023; 11(7).

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