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电磁导航支气管镜检查在识别用于机器人切除的肺结节方面的益处。

Benefits of Electromagnetic Navigational Bronchoscopy for Identifying Pulmonary Nodules for Robotic Resections.

作者信息

Pupovac Stevan S, Chaudhry Alexander, Singh Vijay A

出版信息

Innovations (Phila). 2017 Nov/Dec;12(6):418-420. doi: 10.1097/IMI.0000000000000440.

DOI:10.1097/IMI.0000000000000440
PMID:29200086
Abstract

OBJECTIVE

The ability to localize pulmonary nodules via the robotic thoracic technique can be challenging at times. This is most evident when nodules are small and/or ground glass in nature. Information regarding methods available to localize these difficult nodules, while maintaining a minimally invasive robotic approach, is limited.

METHODS

We describe a diagnostic and therapeutic method of combining electromagnetic navigational bronchoscopy with a total minimally invasive robotic approach that identifies these difficult-to-localize pulmonary nodules. The technique entails the use of electromagnetic navigational bronchoscopy to place a pleural dye marker with a subsequent pulmonary resection via a robotic thoracic approach.

RESULTS

A cohort of 15 patients from August 2014 to December 2015 was reviewed. These patients underwent the combined approach of electromagnetic navigational bronchoscopy followed by a robotic pulmonary resection. Fourteen of the 15 patients had a successful combined procedure, which was confirmed with pathology. The range of the nodules was 0.8 to 2 cm. Methylene blue was used for pleural dye marking. On one occasion, the pleural dye was not able to be deciphered. There were no complications from either the electromagnetic navigational bronchoscopy or robotic portions of the procedure.

CONCLUSIONS

Pleural dye marking via electromagnetic navigational bronchoscopy can provide an effective method for localizing pulmonary nodules, while maintaining a minimally invasive robotic approach. This tactic allows one to obtain diagnostic tissue more efficiently, while limiting the potential inability to localize a nodule.

摘要

目的

通过机器人胸腔技术定位肺结节有时具有挑战性。当结节较小和/或本质上为磨玻璃结节时,这一点最为明显。关于在保持微创机器人手术方式的同时定位这些难定位结节的可用方法的信息有限。

方法

我们描述了一种将电磁导航支气管镜检查与完全微创机器人手术方式相结合的诊断和治疗方法,该方法可识别这些难以定位的肺结节。该技术需要使用电磁导航支气管镜放置胸膜染料标记物,随后通过机器人胸腔手术进行肺切除。

结果

回顾了2014年8月至2015年12月期间的15例患者。这些患者接受了电磁导航支气管镜检查联合机器人肺切除的联合手术。15例患者中有14例联合手术成功,病理检查证实。结节大小范围为0.8至2厘米。使用亚甲蓝进行胸膜染料标记。有一次,胸膜染料无法辨认。电磁导航支气管镜检查或手术的机器人部分均未出现并发症。

结论

通过电磁导航支气管镜进行胸膜染料标记可为定位肺结节提供一种有效的方法,同时保持微创机器人手术方式。这种策略可以更有效地获取诊断组织,同时限制无法定位结节的可能性。

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