High-precision all-in-one dual robotic arm strategy in oral implant surgery.

IF 2.5 Q2 DENTISTRY, ORAL SURGERY & MEDICINE BDJ Open Pub Date : 2024-06-03 DOI:10.1038/s41405-024-00231-6
Gang Tang, Shibo Liu, Meng Sun, Yide Wang, Weidong Zhu, Dongmei Wang, Xiang Li, Hao Wu, Shaoyang Men, Liangbin Zhang, Changfen Feng, Yingfu Wang, Yuehua Ding
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Abstract

Introduction: Dental implantation has emerged as an efficient substitute for missing teeth, which is essential for restoring oral function and aesthetics. Compared to traditional denture repair approaches, dental implants offer better stability and sustainability. The position, angle, and depth of dental implants are crucial factors for their long-term success and necessitate high-precision operation and technical support.

Method: We propose an integrated dual-arm high-precision oral implant surgery navigation positioning system and a corresponding control strategy. Compared with traditional implant robots, the integrated dual-arm design greatly shortens the preparation time before surgery and simplifies the operation process. We propose a novel control flow and module for the proposed structure, including an Occluded Target Tracking Module (OTTM) for occlusion tracking, a Planting Plan Development Module (PPDM) for generating implant plans, and a Path Formulation Module (PFM) for controlling the movement path of the two robot arms.

Result: Under the coordinated control of the aforementioned modules, the robot achieved excellent accuracy in clinical trials. The average angular error and entry point error for five patients who underwent implant surgery using the proposed robot were 2.1° and 0.39 mm, respectively.

Conclusion: In essence, our study introduces an integrated dual-arm high-precision navigation system for oral implant surgery, resolving issues like lengthy preoperative preparation and static surgical planning. Clinical results confirm its efficacy, emphasizing its accuracy and precision in guiding oral implant procedures.

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口腔种植手术中的高精度一体化双机械臂策略。
导言:种植牙已成为缺失牙齿的有效替代物,对恢复口腔功能和美观至关重要。与传统的假牙修复方法相比,种植牙具有更好的稳定性和可持续性。牙科植入物的位置、角度和深度是其长期成功的关键因素,需要高精度的操作和技术支持:方法:我们提出了一种集成双臂高精度口腔种植手术导航定位系统及相应的控制策略。与传统种植机器人相比,一体化双臂设计大大缩短了术前准备时间,简化了操作流程。我们为该结构提出了新颖的控制流程和模块,包括用于咬合跟踪的咬合目标跟踪模块(OTTM)、用于生成种植计划的种植计划制定模块(PPDM)以及用于控制双机械臂运动路径的路径制定模块(PFM):结果:在上述模块的协调控制下,机器人在临床试验中取得了优异的精确度。结果:在上述模块的协调控制下,该机器人在临床试验中取得了优异的精确度,使用该机器人进行植入手术的五名患者的平均角度误差和切入点误差分别为 2.1° 和 0.39 毫米:总之,我们的研究为口腔种植手术引入了一体化双臂高精度导航系统,解决了冗长的术前准备和静态手术规划等问题。临床结果证实了该系统的有效性,强调了其在指导口腔种植手术中的准确性和精确性。
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来源期刊
BDJ Open
BDJ Open Dentistry-Dentistry (all)
CiteScore
3.70
自引率
3.30%
发文量
34
审稿时长
30 weeks
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