PURPOSE: To assess the quality of a navigator-gated, free breathing, steady-state free precession (SSFP) technique in comparison to a single breathhold for pulmonary artery imaging in normal volunteers. MATERIALS AND METHODS: Sagittal sections of the left pulmonary arteries of 10 volunteers were obtained with a three-dimensional SSFP sequence using both a single breathhold of 30 seconds and a navigator-gated version of the same sequence. The images were compared and rated by a blinded cardiovascular radiologist for image quality, sharpness, and artifact. RESULTS: On a scale ranging from -2 to 2, in which positive numbers denote that the navigator method was favorable compared to the single breathhold method, image quality was rated 0.7+/-1.4, sharpness 0.6+/-1.5, and artifact 0.1+/-1.4. Thus, there was no statistical difference between the two methods. CONCLUSION: The navigator-gated SSFP sequence is able to acquire images equal in quality to the breathhold sequence. This may be of clinical importance for pulmonary imaging in patients who are unable to sustain a long breathhold. Copyright (c) 2005 Wiley-Liss, Inc.
PURPOSE: To assess the quality of a navigator-gated, free breathing, steady-state free precession (SSFP) technique in comparison to a single breathhold for pulmonary artery imaging in normal volunteers. MATERIALS AND METHODS: Sagittal sections of the left pulmonary arteries of 10 volunteers were obtained with a three-dimensional SSFP sequence using both a single breathhold of 30 seconds and a navigator-gated version of the same sequence. The images were compared and rated by a blinded cardiovascular radiologist for image quality, sharpness, and artifact. RESULTS: On a scale ranging from -2 to 2, in which positive numbers denote that the navigator method was favorable compared to the single breathhold method, image quality was rated 0.7+/-1.4, sharpness 0.6+/-1.5, and artifact 0.1+/-1.4. Thus, there was no statistical difference between the two methods. CONCLUSION: The navigator-gated SSFP sequence is able to acquire images equal in quality to the breathhold sequence. This may be of clinical importance for pulmonary imaging in patients who are unable to sustain a long breathhold. Copyright (c) 2005 Wiley-Liss, Inc.
Authors: Smitha Rajaram; Andrew J Swift; David Capener; Adam Telfer; Christine Davies; Catherine Hill; Robin Condliffe; Charles Elliot; Judith Hurdman; David G Kiely; Jim M Wild Journal: Eur Radiol Date: 2011-09-02 Impact factor: 5.315
Authors: J M Wild; H Marshall; M Bock; L R Schad; P M Jakob; M Puderbach; F Molinari; E J R Van Beek; J Biederer Journal: Insights Imaging Date: 2012-06-13
Authors: Robert R Edelman; Robert I Silvers; Kiran H Thakrar; Mark D Metzl; Jose Nazari; Shivraman Giri; Ioannis Koktzoglou Journal: J Cardiovasc Magn Reson Date: 2017-06-30 Impact factor: 5.364