UNLABELLED: The incidence of malignancy associated with subcentimeter pulmonary nodules (micronodules) in patients with malignant disease has been reported to be as high as 58%. Thus, detection of small lung nodules is important for appropriate staging of lung cancer. Because of respiratory motion, small parenchymal lung lesions can be missed on CT acquired during shallow breathing. Micronodules are usually too small to be characterized reliably with 18F-FDG PET. We aimed to determine the incidence of missed pulmonary micronodules on PET/CT studies acquired during shallow breathing. METHODS: The study included 142 consecutive cancer patients (62 male and 80 female; mean age, 54 y) who underwent whole-body PET/CT during shallow breathing and breath-hold CT of the chest during maximal inspiration. CT findings were reviewed independently, and noncalcified nodules missed on the shallow-breathing scan were evaluated for size, location, and metabolic activity. RESULTS: Breath-hold chest CT detected an additional 125 parenchymal lung nodules (mean size, 3.4 +/- 1.6 mm; range, 1-9 mm) in 48 (34%) of the 142 patients. In these patients, 3 nodules, on average, were missed during shallow breathing. In 18 patients (13%), micronodules were identified exclusively on breath-hold images. None of the missed nodules demonstrated 18F-FDG uptake. CONCLUSION: Acquisition of standard PET/CT chest images during shallow breathing is inadequate for comprehensive cancer staging.
UNLABELLED: The incidence of malignancy associated with subcentimeter pulmonary nodules (micronodules) in patients with malignant disease has been reported to be as high as 58%. Thus, detection of small lung nodules is important for appropriate staging of lung cancer. Because of respiratory motion, small parenchymal lung lesions can be missed on CT acquired during shallow breathing. Micronodules are usually too small to be characterized reliably with 18F-FDG PET. We aimed to determine the incidence of missed pulmonary micronodules on PET/CT studies acquired during shallow breathing. METHODS: The study included 142 consecutive cancerpatients (62 male and 80 female; mean age, 54 y) who underwent whole-body PET/CT during shallow breathing and breath-hold CT of the chest during maximal inspiration. CT findings were reviewed independently, and noncalcified nodules missed on the shallow-breathing scan were evaluated for size, location, and metabolic activity. RESULTS: Breath-hold chest CT detected an additional 125 parenchymal lung nodules (mean size, 3.4 +/- 1.6 mm; range, 1-9 mm) in 48 (34%) of the 142 patients. In these patients, 3 nodules, on average, were missed during shallow breathing. In 18 patients (13%), micronodules were identified exclusively on breath-hold images. None of the missed nodules demonstrated 18F-FDG uptake. CONCLUSION: Acquisition of standard PET/CT chest images during shallow breathing is inadequate for comprehensive cancer staging.
Authors: Hyung Ju Lee; Hye Joo Son; Mijin Yun; Jung Won Moon; Yoo Na Kim; Ji Young Woo; Suk Hyun Lee Journal: Eur Radiol Date: 2021-04-14 Impact factor: 5.315
Authors: Christian la Fougère; Walter Hundt; Nicole Bröckel; Thomas Pfluger; Alexander Haug; Bernhard Scher; Marcus Hacker; Klaus Hahn; Maximilan Reiser; Reinhold Tiling Journal: Eur J Nucl Med Mol Imaging Date: 2006-07-21 Impact factor: 9.236
Authors: Ruoqiao Zhang; Dženan Zukić; Darrin W Byrd; Andinet Enquobahrie; Adam M Alessio; Kevin Cleary; Filip Banovac; Paul E Kinahan Journal: Int J Comput Assist Radiol Surg Date: 2019-09-11 Impact factor: 2.924