Integrated Needle Guide on Smartphone for Percutaneous Interventions Using Augmented Reality.

IF 2.8 3区医学 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS

CardioVascular and Interventional Radiology Pub Date : 2025-07-01 Epub Date: 2025-04-28 DOI:10.1007/s00270-025-04044-4

Laetitia Saccenti, Nicole Varble, Tabea Borde, Hannah Huth, Michael Kassin, Ifechi Ukeh, Ivan Bakhutashvili, Ashley Golbus, Lindsey Hazen, Sheng Xu, Vania Tacher, Hicham Kobeiter, Keith Horton, Ming Li, Bradford Wood

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引用次数: 0

Abstract

Purpose: This study aimed to describe the workflow and evaluate the accuracy of a novel smartphone augmented reality (AR) application that includes an integrated needle guide, in a phantom.

Materials and methods: A smartphone cover with an integrated needle guide was designed and 3D-printed. An AR application for percutaneous application was developed, which integrated a projected needle path based on the rigid needle guide. After planning the needle path using this novel tool, the operator could place the needle through the guide to reach the target. Six lesions with out-of-plane entry points were targeted on an abdominal phantom. Timing and accuracy of needle placements were measured on post-procedural CT both using smartphone AR guidance and with a freehand approach. Results were compared using Wilcoxon rank sum and Pearson's chi-squared tests.

Results: A total of 108 needle placements were performed by 9 physicians with widely varying experience. The median accuracy was 4 mm (IQR 3-6 mm) using the smartphone versus 18 mm (IQR 9-27 mm) for freehand (P < 0.001). Using the smartphone AR application, planning time was 91 s (IQR 71-151 s), and puncture time was 68 s (IQR 57-77 s). There was no difference in accuracy, planning, or puncture times according to experience level when using the AR tool.

Conclusion: This smartphone application with an integrated needle guide allows path planning and accurate needle placement on phantoms with real-time angular feedback in less than 3 min. This technology could promote standardization, reduce experience requirements, or provide accurate low-cost guidance in environments without procedural imaging for percutaneous interventions.

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利用增强现实技术在智能手机上进行经皮介入治疗的集成针导。

目的：本研究旨在描述一种新型智能手机增强现实（AR）应用程序的工作流程并评估其准确性，该应用程序包括一个集成的针导，在一个幻影中。材料与方法：设计并3d打印了一款集成导针器的智能手机保护套。开发了一种用于经皮应用的AR应用程序，该应用程序集成了基于刚性导针的投影针路。在使用这种新型工具规划好针头路径后，操作人员可以将针头放置在导向器中以达到目标。六个有平面外进入点的病变被定位在腹部幻像上。在术后CT上使用智能手机AR引导和徒手方法测量针头放置的时间和准确性。使用Wilcoxon秩和和Pearson卡方检验比较结果。结果：共108针放置由9名经验迥异的医生完成。智能手机的中位精度为4毫米（IQR 3-6毫米），而徒手的中位精度为18毫米（IQR 9-27毫米）。(P)结论：该智能手机应用程序具有集成的导针器，可以在不到3分钟的时间内通过实时角度反馈实现路径规划和准确的针头放置。该技术可以促进标准化，降低经验要求，或在没有程序性成像的环境中为经皮介入提供准确的低成本指导。

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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来源期刊

CardioVascular and Interventional Radiology 医学-核医学

CiteScore

5.50

自引率

13.80%

发文量

306

审稿时长

3-8 weeks

期刊介绍： CardioVascular and Interventional Radiology (CVIR) is the official journal of the Cardiovascular and Interventional Radiological Society of Europe, and is also the official organ of a number of additional distinguished national and international interventional radiological societies. CVIR publishes double blinded peer-reviewed original research work including clinical and laboratory investigations, technical notes, case reports, works in progress, and letters to the editor, as well as review articles, pictorial essays, editorials, and special invited submissions in the field of vascular and interventional radiology. Beside the communication of the latest research results in this field, it is also the aim of CVIR to support continuous medical education. Articles that are accepted for publication are done so with the understanding that they, or their substantive contents, have not been and will not be submitted to any other publication.