[4D electromagnetic navigation bronchoscopy for the diagnosis of peripheral pulmonary nodules - An overview and preliminary clinical results].

IF 1.2 Q4 RESPIRATORY SYSTEM Pneumologie Pub Date : 2024-02-01 Epub Date: 2023-12-11 DOI:10.1055/a-2193-0966

Thomas Bitter, Tielko Seeba, Jörn Schroeder-Richter, Michael Fröhlich, Wissam Duaer, Wael Abidi, Markus Peter Kindermann

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Abstract

Background: The diagnostic of peripheral pulmonary nodules (PPN) is a particular challenge in interventional bronchology, which is why navigation systems such as electromagnetic navigation (ENB) are increasingly being used. The 4D-ENB represents the most current development of the ENB. It utilizes inspiratory and expiratory CT scans for mapping and thus helps compensate for respiratory movements-induced CT-to-body divergence. The aim of this work was to present the first clinical data and experiences using the 4D-ENB method for diagnosis of PPNs.

Methods: We retrospectively describe the results of the first nine consecutive patient cases diagnosed at Klinikum Braunschweig using 4D-ENB in a unimodal diagnostic procedure.

Results: Of the first 9 PPNs examined by 4D-ENB, navigation and puncture of the lesion was successful in 8 patients (89%). Diagnostic biopsy was could be carried out in six out of nine patients (67%). There were no significant procedure-related complications.

Conclusion: Our preliminary data suggest that 4D-ENB is a promising new alternative for the diagnosis of PPNs. To further improve diagnostic yield, 4D-END, which lacks real-time visualization, should be embedded in a multimodal diagnostic procedure with rEBUS and/or fluoroscopy.

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[4D电磁导航支气管镜用于诊断外周肺结节--概述和初步临床结果]。

背景：外周肺结节（PPN）的诊断是介入性支气管病理学的一项特殊挑战，这也是电磁导航（ENB）等导航系统被越来越多地使用的原因。4D-ENB 代表了 ENB 的最新发展。它利用吸气和呼气CT扫描绘制地图，因此有助于补偿呼吸运动引起的CT与身体的偏差。这项工作的目的是首次展示使用 4D-ENB 方法诊断 PPNs 的临床数据和经验：我们回顾性地描述了布伦瑞克医学院在单模态诊断程序中使用 4D-ENB 诊断的首批 9 个连续病例的结果：结果：在使用 4D-ENB 检查的前 9 例 PPN 中，8 例患者（89%）成功进行了导航和病灶穿刺。九名患者中有六名（67%）可以进行诊断性活检。没有出现与手术相关的重大并发症：我们的初步数据表明，4D-ENB 是诊断 PPNs 的一种很有前途的新选择。为了进一步提高诊断率，缺乏实时可视化的4D-END应与rEBUS和/或透视一起嵌入多模态诊断程序中。

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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来源期刊

Pneumologie RESPIRATORY SYSTEM-

CiteScore

1.80

自引率

16.70%

发文量

416

期刊介绍： Organ der Deutschen Gesellschaft für Pneumologie DGP Organ des Deutschen Zentralkomitees zur Bekämpfung der Tuberkulose DZK Organ des Bundesverbandes der Pneumologen BdP Fachärzte für Lungen- und Bronchialheilkunde, Pneumologen und Allergologen

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