María Navallas1,2, Priscilla Chiu3, Afsaneh Amirabadi4,5, David E Manson4,5. 1. Department of Diagnostic Imaging, Hospital for Sick Children, 555 University Ave., Toronto, ON, M5G 1X8, Canada. mnavallas@gmail.com. 2. Department of Medical Imaging, Division of Pediatric Imaging, University of Toronto, Toronto, ON, Canada. mnavallas@gmail.com. 3. Department of Pediatric Surgery, Hospital for Sick Children, Toronto, ON, Canada. 4. Department of Diagnostic Imaging, Hospital for Sick Children, 555 University Ave., Toronto, ON, M5G 1X8, Canada. 5. Department of Medical Imaging, Division of Pediatric Imaging, University of Toronto, Toronto, ON, Canada.
Abstract
BACKGROUND: Delineation of the anatomy and integrity of the pulmonary fissures at CT is important because anomalous or incomplete fissures might increase the risk of surgery and of postoperative complications. OBJECTIVE: To preoperatively evaluate the integrity of the pleural fissures in children with congenital lung malformations and determine whether anomalous fissural anatomy is a risk factor for a more complicated surgery and postoperative course. MATERIALS AND METHODS: We reviewed preoperative multi-detector CT scans of consecutive children who underwent open or thoracoscopic resection of a congenital pulmonary malformation from 2008 to 2018, to determine the integrity of the fissural anatomy, and compared these findings with the surgical report. We correlated postoperative factors including operating room time, days in hospital and chest tube with the operating room documented fissural integrity. RESULTS: We saw a significant association between the radiologically determined fissural integrity at CT and the operative findings independently for the right, left and both lungs combined (P<0.001). The sensitivity of CT to determine fissural integrity was 76.9%, specificity 95.2%, positive predictive value 95.2%, negative predictive value 76.9%, and accuracy 85.1%. There was a statistically significant association between size of the pulmonary malformation and the integrity of the fissure(s) (P=0.024). Larger lesions also resulted in a significantly longer hospitalization (P=0.024). CONCLUSION: Chest CT showed high accuracy for delineating fissural anatomy in children with congenital pulmonary malformations, with a good interobserver correlation. Incomplete lung fissures were found more often in children with larger congenital pulmonary malformations. In addition, larger lesions were associated with longer hospital stays. Therefore, children with incomplete fissures may have a longer postoperative course. Analysis of the fissural anatomy should be included in the CT report.
BACKGROUND: Delineation of the anatomy and integrity of the pulmonary fissures at CT is important because anomalous or incomplete fissures might increase the risk of surgery and of postoperative complications. OBJECTIVE: To preoperatively evaluate the integrity of the pleural fissures in children with congenital lung malformations and determine whether anomalous fissural anatomy is a risk factor for a more complicated surgery and postoperative course. MATERIALS AND METHODS: We reviewed preoperative multi-detector CT scans of consecutive children who underwent open or thoracoscopic resection of a congenital pulmonary malformation from 2008 to 2018, to determine the integrity of the fissural anatomy, and compared these findings with the surgical report. We correlated postoperative factors including operating room time, days in hospital and chest tube with the operating room documented fissural integrity. RESULTS: We saw a significant association between the radiologically determined fissural integrity at CT and the operative findings independently for the right, left and both lungs combined (P<0.001). The sensitivity of CT to determine fissural integrity was 76.9%, specificity 95.2%, positive predictive value 95.2%, negative predictive value 76.9%, and accuracy 85.1%. There was a statistically significant association between size of the pulmonary malformation and the integrity of the fissure(s) (P=0.024). Larger lesions also resulted in a significantly longer hospitalization (P=0.024). CONCLUSION: Chest CT showed high accuracy for delineating fissural anatomy in children with congenital pulmonary malformations, with a good interobserver correlation. Incomplete lung fissures were found more often in children with larger congenital pulmonary malformations. In addition, larger lesions were associated with longer hospital stays. Therefore, children with incomplete fissures may have a longer postoperative course. Analysis of the fissural anatomy should be included in the CT report.
Authors: Jiantao Pu; Carl Fuhrman; Janet Durick; Joseph K Leader; Amy Klym; Frank C Sciurba; David Gur Journal: Med Phys Date: 2010-09 Impact factor: 4.071
Authors: Abel Gómez-Caro; Maria Jose Roca Calvo; Juan Torres Lanzas; Ryan Chau; Pedro Cascales; Pascual Parrilla Journal: Eur J Cardiothorac Surg Date: 2006-12-18 Impact factor: 4.191