Use of Three-dimensional Computed Tomographic Angiography of Pulmonary Vessels for Lung Resections
Overview
Pulmonary Medicine
Affiliations
Background: Identification and appropriate treatment of the pulmonary artery (PA) is a key to successful anatomic resection of the lung. Preoperative identification of branching pattern of the PA seems to make pulmonary resection easier and safer especially when there is severe adhesion or incomplete fissure between the lobes. With the development of the multidetector row spiral computed tomography (MDCT), three-dimensional (3D) CT angiography can be obtained easily and can provide very useful information about various organs. We studied the usefulness of 3D-CT pulmonary angiography (3D-CTPA) in evaluating the PA branching pattern before anatomic pulmonary resection.
Methods: Fourteen patients with primary lung cancer undergoing anatomic pulmonary resections were the subjects of this study. The 3D-CTPA images were obtained using MDCT. The obtained images of the PA branching pattern were compared with intraoperative findings in each case at the time of thoracotomy.
Results: MDCT scanning required approximately 15 seconds per patient during a single respiratory pause and the 3D images were processed within 10 minutes after scannning. According to intraoperative findings, 98% (84 of 86) of PA branches were revealed to be successfully identified on preoperative 3D-CTPA. Two missed branches on 3D-CTPA were small vessels, which were less than 1.5 mm in actual diameter. Pulmonary vessels were clearly identified even when contrast medium was not administered intravenously.
Conclusions: Obtaining 3D-CTPA using MDCT is noninvasive yet it provides precise preoperative information regarding pulmonary vessels. This technique is a far less invasive and an easier investigation than conventional pulmonary angiography. The 3D-CTPA navigation may have the potential to increase the safety of surgical procedure and to reduce surgical morbidity in anatomic lung resection.
A case of right middle lobectomy for primary lung cancer in a patient with heterotaxy syndrome.
Demura R, Imai K, Takashima S, Kurihara N, Kuriyama S, Suzuki H Gen Thorac Cardiovasc Surg Cases. 2024; 3(1):52.
PMID: 39578916 PMC: 11583655. DOI: 10.1186/s44215-024-00177-z.
Preoperative evaluation of the segmental artery of left upper lobe by thin-section CT and 3d-CTA.
Murota M, Norikane T, Ishimura M, Yamamoto Y, Mitamura K, Takami Y Jpn J Radiol. 2024; 43(2):219-224.
PMID: 39382793 PMC: 11790732. DOI: 10.1007/s11604-024-01670-9.
Evolution of Three-Dimensional Computed Tomography Imaging in Thoracic Surgery.
Chen-Yoshikawa T Cancers (Basel). 2024; 16(11).
PMID: 38893279 PMC: 11172068. DOI: 10.3390/cancers16112161.
Hamanaka R, Oda M Cureus. 2024; 16(4):e57491.
PMID: 38707139 PMC: 11068118. DOI: 10.7759/cureus.57491.
Murota M, Norikane T, Yamamoto Y, Ishimura M, Mitamura K, Takami Y Jpn J Radiol. 2023; 41(9):965-972.
PMID: 37040023 PMC: 10468950. DOI: 10.1007/s11604-023-01424-z.