基于混合NSGA优化器的柔性针经皮肾镜穿刺路径规划算法

IF 4.9 2区医学 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Computer methods and programs in biomedicine Pub Date : 2025-04-10 DOI:10.1016/j.cmpb.2025.108763

Tianmu Wang , Zhenguo Nie , Yanjie Xu , Boxing Su , Fugui Xie , Jinsong Wang , Jianxing Li , Xin-Jun Liu

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引用次数: 0

摘要

背景：经皮肾镜取石术是治疗较大或形状不规则肾结石的标准方法，尤其是鹿角结石。然而，建立一个精确和安全的穿刺是具有挑战性的，需要对外科医生进行广泛的培训。导航手术是一种常用的技术，通过在手术前生成路径来促进穿刺。由于肾脏的复杂解剖结构以及肾结石的不规则形状，导航的一个关键挑战是皮肤-肾脏路径规划。方法：在本文中，我们提出了一种混合策略穿刺路径规划算法，其中我们遵循两步流路径，考虑了穿刺肾盏的选择和b -脊柱曲线路径的规划。我们模仿临床医生根据待清除结石的投影面积选择穿刺花萼的决策过程。总结穿刺过程中的主观判断和临床经验，提出参数化优化指标，实现穿刺路径的优化。结果：所提出的算法可以生成一个由不同穿刺因素组成的最优前沿，医生可以选择在实际情况下效果最好的路径。二维仿真结果显示，规划的路径与泌尿科医生规划的路径相似。结论：所提出的两步混合策略在最优效果和效率上达到了平衡。这种基于肾脏长轴切面的自动规划方法可以快速自主地为医生提供一系列优化的穿刺路径，并为临床医生特别是年轻医生提供辅助指导。然而，该方法在经皮肾镜取石术的演示和教学中具有相当大的潜力，并且可以集成到机器人手术导航系统中。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Puncture path planning algorithm of flexible needle in percutaneous nephrolithotomy with a hybrid NSGA optimizer

Background:

Percutaneous nephrolithotomy is the standard treatment for large or irregularly shaped kidney stones, especially staghorn calculus. However, establishing a precise and safe puncture is challenging and requires extensive training for the surgeon. Navigation surgery is a commonly employed technique that facilitates the puncture through generating a path before surgery. One critical challenge for navigation is skin-kidney path planning due to the complex anatomical deconstruction of the kidney as well as the irregular shape of kidney stones.

Method:

In this paper, we propose a hybrid strategy puncture path planning algorithm, where we follow a 2-step flow path that considers the selection of puncture renal calyces and planning of a B-spine curve path. We imitate the decision-making process of the clinician in selecting the puncture calyx based on the projective area of the calculi to be cleared. We summarize subjective judgment and clinical experience during puncture, where parametric optimization indicators are proposed to realize the optimization of puncture path.

Results:

An optimal frontier consisting of puncture pathways focused on different puncture factors can be generated from the proposed algorithm, where the physician can choose the path that works best under real circumstances. Results in 2D simulation show that the planned pathway is similar to that planned by a urologist.

Conclusions:

The proposed 2-Step hybrid strategy reaches a balance on both optimal effect and efficiency. This automatic planning method based on the long axis section of the kidney can quickly and autonomously provide physicians with a series of optimized puncture paths, and provide auxiliary guidance for clinicians, especially young physicians. Nevertheless, the proposed method shows considerable potential in percutaneous nephrolithotomy surgical demonstration and teaching, and can integrated into robotic surgical navigation system.

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来源期刊

Computer methods and programs in biomedicine 工程技术-工程：生物医学

CiteScore

12.30

自引率

6.60%

发文量

601

审稿时长

135 days

期刊介绍： To encourage the development of formal computing methods, and their application in biomedical research and medical practice, by illustration of fundamental principles in biomedical informatics research; to stimulate basic research into application software design; to report the state of research of biomedical information processing projects; to report new computer methodologies applied in biomedical areas; the eventual distribution of demonstrable software to avoid duplication of effort; to provide a forum for discussion and improvement of existing software; to optimize contact between national organizations and regional user groups by promoting an international exchange of information on formal methods, standards and software in biomedicine. Computer Methods and Programs in Biomedicine covers computing methodology and software systems derived from computing science for implementation in all aspects of biomedical research and medical practice. It is designed to serve: biochemists; biologists; geneticists; immunologists; neuroscientists; pharmacologists; toxicologists; clinicians; epidemiologists; psychiatrists; psychologists; cardiologists; chemists; (radio)physicists; computer scientists; programmers and systems analysts; biomedical, clinical, electrical and other engineers; teachers of medical informatics and users of educational software.