用于双臂内窥镜粘膜下剥离术的经内窥镜柔性平行连续机器人机制

Huxin Gao, Xiaoxiao Yang, X. Xiao, Xiaolong Zhu, Tao Zhang, Cheng Hou, Huicong Liu, Max Q.-H. Meng, Lining Sun, Xiuli Zuo, Yanqing Li, Hongliang Ren
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摘要

在内窥镜黏膜下剥离术(ESD)中,胃肠道(GI)需要手术器械在狭长而曲折的内窥镜中穿行。这对开发尺寸小、灵活、远端灵巧的 ESD 器械提出了巨大挑战。在这项工作中,我们首次提出了经内窥镜柔性平行连续机器人机制,以开发一种微型灵巧的柔性-刚性-平衡腕(FPCW)。此外,它还能操纵直径为 2.5 毫米至 3.5 毫米的多功能器械,包括电外科刀、注射针和镊子。我们的 FPCW 仪器适用于市售的双通道内窥镜(直径:小于 12 毫米,通道宽度:2.8 毫米和 3.8 毫米左右)。此外,我们还开发了一种名为 DREAMS(微创手术双臂机器人内窥镜助手)的手术远程机器人系统,使用我们最小的 FPCW 器械进行双臂 ESD 手术。首先,我们进行了一系列实验,以确定 FPCW 的设计和运动学参数,并验证 FPCW 器械原型的机械性能,包括工作空间、刚度、强度和远程操作精度。其次,我们通过在猪胃上执行静电放电步骤进行体外测试,验证 FPCW 仪器的功能。最后,我们在活体猪模型上进行了体内测试,结果表明我们开发的 DREAMS 可以直观地远程操作,在胃体大弯处以 108.95 mm2/min 的平均解剖速度高效地执行双臂 ESD,这表明我们的 DREAMS 具有令人满意的可操作性和准确性,与同类机器人系统相比更具竞争力。
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Transendoscopic flexible parallel continuum robotic mechanism for bimanual endoscopic submucosal dissection
In endoscopic submucosal dissection (ESD), the gastrointestinal (GI) tract warrants the surgical instruments to navigate through a long, narrow and tortuous endoscope. This poses a great challenge in developing ESD instruments with small dimensions, flexibility, and high distal dexterity. In this work, we propose the first Transendoscopic Flexible Parallel Continuum Robotic mechanism to develop a miniature dexterous flexible-stiff-balanced Wrist (FPCW). Besides, it can steer multifunctional instruments of diameters 2.5 mm to 3.5 mm, including the electrosurgical knife, injection needle, and forceps. Our FPCW instruments are adaptable to commercially available dual-channel endoscopes (diameter: <12 mm, channel width: 2.8 mm and around 3.8 mm). Furthermore, we develop a surgical telerobotic system, called DREAMS (Dual-arm Robotic Endoscopic Assistant for Minimally Invasive Surgery), by using our smallest FPCW instruments for bimanual ESD procedures. First, we conduct a series of experiments to determine the FPCW’s design and kinematics parameters and to verify the mechanical properties of the FPCW instruments’ prototypes, including workspace, stiffness, strength, and teleoperation accuracy. Second, we validate the functionality of the FPCW instruments through ex-vivo tests by performing ESD steps on porcine stomachs. Finally, we perform an invivo test on a live porcine model and showcase that our developed DREAMS can be teleoperated intuitively to perform bimanual ESD efficiently with an average dissection speed of 108.95 mm2/min at the greater curvature in gastric body, which demonstrates that our DREAMS has satisfactory maneuverability as well as accuracy and is more competitive than counterpart robotic systems.
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