Chun-Shuang Guan1,2, Da-Qing Ma3, Dun Cui2, Jiang-Hong Chen1, Bu-Dong Chen1, Yan-Song Zhang4, Wei-Hua Liu5. 1. Department of Radiology, Beijing Friendship Hospital, Capital Medical University, 95 Yong'an Road, Xicheng District, Beijing, China. 2. Department of Radiology, Beijing Fengtai Hospital, 1 Xi'an Street, Fengtai District, Beijing, China. 3. Department of Radiology, Beijing Friendship Hospital, Capital Medical University, 95 Yong'an Road, Xicheng District, Beijing, China. madaqing00@163.com. 4. Department of Pathology, National Research Center for Occupational Safety and Health, 27 Shilong North Road, Mentougou District, Beijing, China. 5. Department of Pathology, Beijing Friendship Hospital,Capital Medical University, 95 Yong'an Road, Xicheng District, Beijing, China.
Abstract
OBJECTIVES: To retrospectively evaluate short linear shadows connecting pulmonary segmental arteries to oblique fissures in thin-section CT images and determine their anatomical basis. METHODS: CT scanning was performed on 108 patients and 11 lung specimens with no lung diseases around the oblique fissures or hila. Two radiologists evaluated the imaging. The parameters included length, thickness of short linear shadows, pulmonary segmental artery variations, and traction interlobar fissures, etc. RESULTS: The short linear shadows were not related to sex, age, or smoking history. The lengths of the short linear shadows were generally within 10 mm. The thicknesses of the short linear shadows ranged from 1 to 2 mm. Of the patients, 26.9 % showed pulmonary segmental artery variations; 66.7 % of short linear shadows pulled oblique fissures. In three-dimensional images, the short linear shadows appeared as arc planes, with one side edge connected to the oblique fissure, one side edge connected to a pulmonary segmental artery. On the tissue slices, the short linear shadow exhibited a band structure composed of connective tissues, small blood vessels, and small lymphatic vessels. CONCLUSIONS: Short linear shadows are a type of normal intrapulmonary membranes and can maintain the integrity of the oblique fissures and hilar structure. KEY POINTS: • Volumetric thin-section CT scanning is commonly used to study lung anatomy. • Short linear shadows are a common intrapulmonary structure in thin-section CT. • Short linear shadows correlate with band structures on the correlative tissue slices.
OBJECTIVES: To retrospectively evaluate short linear shadows connecting pulmonary segmental arteries to oblique fissures in thin-section CT images and determine their anatomical basis. METHODS: CT scanning was performed on 108 patients and 11 lung specimens with no lung diseases around the oblique fissures or hila. Two radiologists evaluated the imaging. The parameters included length, thickness of short linear shadows, pulmonary segmental artery variations, and traction interlobar fissures, etc. RESULTS: The short linear shadows were not related to sex, age, or smoking history. The lengths of the short linear shadows were generally within 10 mm. The thicknesses of the short linear shadows ranged from 1 to 2 mm. Of the patients, 26.9 % showed pulmonary segmental artery variations; 66.7 % of short linear shadows pulled oblique fissures. In three-dimensional images, the short linear shadows appeared as arc planes, with one side edge connected to the oblique fissure, one side edge connected to a pulmonary segmental artery. On the tissue slices, the short linear shadow exhibited a band structure composed of connective tissues, small blood vessels, and small lymphatic vessels. CONCLUSIONS: Short linear shadows are a type of normal intrapulmonary membranes and can maintain the integrity of the oblique fissures and hilar structure. KEY POINTS: • Volumetric thin-section CT scanning is commonly used to study lung anatomy. • Short linear shadows are a common intrapulmonary structure in thin-section CT. • Short linear shadows correlate with band structures on the correlative tissue slices.
Authors: Paul Cronin; Barry H Gross; Aine Marie Kelly; Smita Patel; Ella A Kazerooni; Ruth C Carlos Journal: Eur J Radiol Date: 2009-11-07 Impact factor: 3.528
Authors: James C Hogg; John E McDonough; Pablo G Sanchez; Joel D Cooper; Harvey O Coxson; William M Elliott; David Naiman; Marcus Pochettino; Debra Horng; Warren B Gefter; Alex C Wright Journal: Proc Am Thorac Soc Date: 2009-09-15