Naoko Wachi scite author profile

Although pulmonary arteries in almost all sharing structures in the right upper lobes straddled anterior bronchi, those in mediastinal type and interlobar type in the left upper lobe were found to straddle the anterior and apicoposterior bronchi, respectively. These findings indicated that the interlobar type was speculated to be rotating mediastinal type backward in the embryonic period. This study strongly suggested a new concept that 'the lung segments never continuously exist from the early stage of the embryonic period as units, but they are only simple units artificially named by their prevailing bronchial branching patterns'. Therefore, during segmentectomy including lymphadenectomy for pulmonary tumours, the retrieval of the branching patters of pulmonary arteries could allow the segmentectomy to become more efficient with considering the formations of lung lobes.

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Presurgical Planning Using a Three-Dimensional Pulmonary Model of the Actual Anatomy of Patient with Primary Lung Cancer

Kanzaki

Kikkawa

Shimizu

et al. 2013

Thorac cardiovasc Surg

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Three-dimensional simulation, surgical navigation and thoracoscopic lung resection

Kanzaki

Kikkawa

Sakamoto

et al. 2013

Journal of Surgical Case Reports

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This report describes a 3-dimensional (3-D) video-assisted thoracoscopic lung resection guided by a 3-D video navigation system having a patient-specific 3-D reconstructed pulmonary model obtained by preoperative simulation. A 78-year-old man was found to have a small solitary pulmonary nodule in the left upper lobe in chest computed tomography. By a virtual 3-D pulmonary model the tumor was found to be involved in two subsegments (S1 + 2c and S3a). Complete video-assisted thoracoscopic surgery bi-subsegmentectomy was selected in simulation and was performed with lymph node dissection. A 3-D digital vision system was used for 3-D thoracoscopic performance. Wearing 3-D glasses, the patient's actual reconstructed 3-D model on 3-D liquid-crystal displays was observed, and the 3-D intraoperative field and the picture of 3-D reconstructed pulmonary model were compared.

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Naoko Wachi

Simulating video-assisted thoracoscopic lung resection using a virtual 3-dimensional pulmonary model on a personal computer

Complete video‐assisted thoracoscopic multi‐subsegmentectomy based on patients' specific virtual 3‐D pulmonary models

Do the lung segments exist continuously from the early stage of the embryonic period as units?

Presurgical Planning Using a Three-Dimensional Pulmonary Model of the Actual Anatomy of Patient with Primary Lung Cancer

Three-dimensional simulation, surgical navigation and thoracoscopic lung resection

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