子宫内膜异位症治疗的革命:通过人工智能和机器人视觉实现自动化手术操作。

IF 2.2 3区 医学 Q2 SURGERY Journal of Robotic Surgery Pub Date : 2024-10-26 DOI:10.1007/s11701-024-02139-7
Sina Saadati, Maryam Amirmazlaghani
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引用次数: 0

摘要

贫困导致的临床限制严重影响着全球许多人的生活和健康。然而,这一挑战可以通过现代技术,特别是机器人技术和人工智能来解决。本研究旨在利用机器人手术和人工智能的先进技术应对这些挑战,提出了一种子宫内膜异位症全自动机器人手术方法,重点关注可解释性、准确性和可靠性。介绍子宫内膜异位症全自动手术的方法。鉴于子宫内膜异位症病灶检测的复杂性,根据解剖位置对病灶进行分类,以提高系统的可解释性。然后,设计了三个集合 U-Net 框架,用于术中检测和定位常见类型的子宫内膜异位症病灶。采用交叉训练方法,探索具有不同神经架构的 U-Net 模型,如 ResNet50、ResNet101、VGG19、InceptionV3、MobileNet 和 EfficientNetB7,从而开发出用于精确子宫内膜异位症病灶分割的 U-Net 集合模型。同时还引入了一种新的图像增强技术,以提高分割模型的准确性和可靠性。此外,还开发了两个 U-Net 模型来定位卵巢和子宫,以减少意外噪音,提高方法的准确性和可靠性。使用 "交集大于联合"(IoU)指标对图像分割模型进行评估,结果非常出色:卵巢、子宫和腹膜子宫内膜异位症的准确率分别为 97.57%、96.35% 和 92.58%。本研究针对一些常见类型的子宫内膜异位症手术,包括卵巢子宫内膜异位症和浅表子宫内膜异位症,提出了一种全自动方法。该方法以三个集合 U-Net 框架和一种降噪技术为核心,使用另外两个 U-Net 对卵巢和子宫进行定位。这种方法有望显著提高机器人手术的准确性和可靠性,从而降低医疗成本,改善全球患者的治疗效果。
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Revolutionizing endometriosis treatment: automated surgical operation through artificial intelligence and robotic vision.

Clinical limitations due to poverty significantly impact the lives and health of many individuals globally. Nevertheless, this challenge can be addressed with modern technologies, particularly through robotics and artificial intelligence. This study aims to address these challenges using advanced technologies in robotic surgery and artificial intelligence, proposing a method to fully automate endometriosis robotic surgery with a focus on interpretability, accuracy, and reliability. A methodology for fully automatic endometriosis surgery is introduced. Given the complexity of endometriosis lesions detection, they are categorized by their anatomical location to improve system interpretability. Then, three ensemble U-Net frameworks are designed to detect and localize common types of endometriosis lesions intraoperatively. A cross-training approach is employed, exploring U-Net models with diverse neural architectures-such as ResNet50, ResNet101, VGG19, InceptionV3, MobileNet, and EfficientNetB7-to develop U-Net ensemble models for precise endometriosis lesions segmentation. A novel image augmentation technique is also introduced, enhancing the segmentation models' accuracy and reliability. Furthermore, two U-Net models are developed to localize the ovaries and uterus, mitigating unexpected noise and bolstering the method's accuracy and reliability. The image segmentation models, assessed using the Intersection over Union (IoU) metric, achieved outstanding results: 97.57% for ovarian, 96.35% for uterine, and 92.58% for peritoneal endometriosis. This study proposes a fully automatic method for some common types of endometriosis surgery, including ovarian endometriomas and superficial endometriosis. This method is centered around three ensemble U-Net frameworks and a noise reduction technique using two additional U-Nets for localizing the ovaries and uterus. This approach has the potential to significantly improve the accuracy and reliability of robotic surgeries, potentially reducing healthcare costs and improving outcomes for patients worldwide.

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来源期刊
CiteScore
4.20
自引率
8.70%
发文量
145
期刊介绍: The aim of the Journal of Robotic Surgery is to become the leading worldwide journal for publication of articles related to robotic surgery, encompassing surgical simulation and integrated imaging techniques. The journal provides a centralized, focused resource for physicians wishing to publish their experience or those wishing to avail themselves of the most up-to-date findings.The journal reports on advance in a wide range of surgical specialties including adult and pediatric urology, general surgery, cardiac surgery, gynecology, ENT, orthopedics and neurosurgery.The use of robotics in surgery is broad-based and will undoubtedly expand over the next decade as new technical innovations and techniques increase the applicability of its use. The journal intends to capture this trend as it develops.
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