计算机断层扫描和结构光成像引导骨科导航穿刺系统:有效减少术中图像漂移和不匹配。

IF 1.6 4区 医学 Q2 SURGERY
Frontiers in Surgery Pub Date : 2024-10-10 eCollection Date: 2024-01-01 DOI:10.3389/fsurg.2024.1476245
Zaopeng He, Guanghua Xu, Guodong Zhang, Zeyu Wang, Jingsong Sun, Wei Li, Dongbo Liu, Yibin Tian, Wenhua Huang, Daozhang Cai
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引用次数: 0

摘要

背景:图像引导手术导航系统被广泛认为是计算机辅助手术机器人平台的基准,但在解决术中图像漂移和不匹配问题方面仍存在持续挑战。这会严重影响外科手术的准确性和精确度。因此,有必要进一步研究和开发,以缓解这一问题,提高这些先进手术平台的整体性能:主要目的是通过开发基于计算机断层扫描(CT)和结构光成像(SLI)的导航系统,提高图像引导穿刺导航系统的精确度。此外,我们还旨在对术中图像漂移和不匹配进行实时量化和可视化,并向外科医生提供反馈,确保手术过程的准确性和可靠性:方法:开发了一套 CT-SLI 引导的骨科导航穿刺系统。采用聚合物绷带对手术标本表面进行加压、塑化、固定和韧化。术前采集标本的 CT 图像,重建三维导航图并规划相应的穿刺路径。在手术过程中,SLI 模块会捕捉并重建标本和穿刺针引导管的三维表面。通过两步点云注册,SLI 重建的标本三维表面与 CT 导航图相匹配,而 SLI 重建的引导管三维表面与圆柱模型相匹配,进而与规划的穿刺路径对齐。使用当地医院保存的 20 个福尔马林浸泡过的下肢尸体标本对所提出的系统进行了测试和评估:结果:所提出的方法在术前 CT 和术中 SLI 表面模型之间以及术前和术后 CT 表面模型之间的图像配准均方根误差分别为 0.576 ± 0.146 毫米和 0.407 ± 0.234 毫米。此外,术前和术后标本表面和骨骼偏移分别为 0.033 ± 0.272 毫米和 0.235 ± 0.197 毫米:结果表明,所提出的方法可有效减少术中图像漂移和不匹配。该系统还能将术中图像漂移和不匹配可视化,并向外科医生提供实时视觉反馈。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Computed tomography and structured light imaging guided orthopedic navigation puncture system: effective reduction of intraoperative image drift and mismatch.

Background: Image-guided surgical navigation systems are widely regarded as the benchmark for computer-assisted surgical robotic platforms, yet a persistent challenge remains in addressing intraoperative image drift and mismatch. It can significantly impact the accuracy and precision of surgical procedures. Therefore, further research and development are necessary to mitigate this issue and enhance the overall performance of these advanced surgical platforms.

Objective: The primary objective is to improve the precision of image guided puncture navigation systems by developing a computed tomography (CT) and structured light imaging (SLI) based navigation system. Furthermore, we also aim to quantifying and visualize intraoperative image drift and mismatch in real time and provide feedback to surgeons, ensuring that surgical procedures are executed with accuracy and reliability.

Methods: A CT-SLI guided orthopedic navigation puncture system was developed. Polymer bandages are employed to pressurize, plasticize, immobilize and toughen the surface of a specimen for surgical operations. Preoperative CT images of the specimen are acquired, a 3D navigation map is reconstructed and a puncture path planned accordingly. During surgery, an SLI module captures and reconstructs the 3D surfaces of both the specimen and a guiding tube for the puncture needle. The SLI reconstructed 3D surface of the specimen is matched to the CT navigation map via two-step point cloud registrations, while the SLI reconstructed 3D surface of the guiding tube is fitted by a cylindrical model, which is in turn aligned with the planned puncture path. The proposed system has been tested and evaluated using 20 formalin-soaked lower limb cadaver specimens preserved at a local hospital.

Results: The proposed method achieved image registration RMS errors of 0.576 ± 0.146 mm and 0.407 ± 0.234 mm between preoperative CT and intraoperative SLI surface models and between preoperative and postoperative CT surface models. In addition, preoperative and postoperative specimen surface and skeletal drifts were 0.033 ± 0.272 mm and 0.235 ± 0.197 mm respectively.

Conclusion: The results indicate that the proposed method is effective in reducing intraoperative image drift and mismatch. The system also visualizes intraoperative image drift and mismatch, and provides real time visual feedback to surgeons.

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来源期刊
Frontiers in Surgery
Frontiers in Surgery Medicine-Surgery
CiteScore
1.90
自引率
11.10%
发文量
1872
审稿时长
12 weeks
期刊介绍: Evidence of surgical interventions go back to prehistoric times. Since then, the field of surgery has developed into a complex array of specialties and procedures, particularly with the advent of microsurgery, lasers and minimally invasive techniques. The advanced skills now required from surgeons has led to ever increasing specialization, though these still share important fundamental principles. Frontiers in Surgery is the umbrella journal representing the publication interests of all surgical specialties. It is divided into several “Specialty Sections” listed below. All these sections have their own Specialty Chief Editor, Editorial Board and homepage, but all articles carry the citation Frontiers in Surgery. Frontiers in Surgery calls upon medical professionals and scientists from all surgical specialties to publish their experimental and clinical studies in this journal. By assembling all surgical specialties, which nonetheless retain their independence, under the common umbrella of Frontiers in Surgery, a powerful publication venue is created. Since there is often overlap and common ground between the different surgical specialties, assembly of all surgical disciplines into a single journal will foster a collaborative dialogue amongst the surgical community. This means that publications, which are also of interest to other surgical specialties, will reach a wider audience and have greater impact. The aim of this multidisciplinary journal is to create a discussion and knowledge platform of advances and research findings in surgical practice today to continuously improve clinical management of patients and foster innovation in this field.
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