Sato, Masaaki The University of Tokyo
Kobayashi, Masashi Tokyo Medical and Dental University
Sakamoto, Jin Shimane Prefectural Central Hospital
Fukai, Ryuta Shonan Kamakura General Hospital
滝沢, 宏光 Tokushima University 徳島大学 教育研究者総覧 KAKEN研究者をさがす
Shinohara, Shinji University of Occupational and Environmental Health
Kojima, Fumitsugu St Luke’s International Hospital
Sakurada, Akira Tohoku University
Nakajima, Jun The University of Tokyo
metastatic lung tumor
Objectives: Virtual-assisted lung mapping 2.0 is a novel preoperative bronchoscopic lung mapping technique combining the multiple dye marks of conventional virtual-assisted lung mapping with intrabronchial microcoils to navigate thoracoscopic deep lung resection. This study's purpose was to evaluate the feasibility of virtual-assisted lung mapping 2.0 in resecting deeply located pulmonary nodules with adequate margins.
Methods: A multicenter, prospective single-arm study was performed from 2019 to 2020 in 8 institutions. The selection criteria were barely identifiable nodules requiring sublobar lung resections, nodules requiring resection lines reaching the inner 2/3 of the pulmonary lobe on computed tomography images in wedge resection, or the nodule center located in the inner 2/3 of the pulmonary lobe in wedge resection or segmentectomy. Resection margins larger than 2 cm or the nodule diameter were considered successful resection. Bronchoscopic placement of multiple dye marks and microcoil(s) was conducted 0 to 2 days before surgery.
Results: We analyzed 65 lesions in 64 patients. The diameter and depth of the targeted nodules and the minimum required resection depth reported as median (interquartile range) were 9 (7-13) mm, 11 (5-15) mm, and 30 (25-35) mm, respectively. Among 60 wedge resections and 5 segmentectomies, successful resection was achieved in 64 of 65 resections (98.5%; 95% confidence interval, 91.7-100). Among 75 microcoils placed, 3 showed major displacement after bronchoscopic placement. There were no severe adverse events associated with the virtual-assisted lung mapping procedure.
Conclusions: This study demonstrated that virtual-assisted lung mapping 2.0 can facilitate successful resections for deep pulmonary nodules, overcoming the limitations of conventional virtual-assisted lung mapping.
The Journal of Thoracic and Cardiovascular Surgery
The American Association for Thoracic Surgery|Elsevier
This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
jtcvs_164_1_243.pdf 2.22 MB