OBJECTIVE: We assessed the role of multi-detector row computed tomography in cardiovascular surgery. METHODS: The efficacy of multi-detector row computed tomography was assessed concerning the graft patency of coronary artery bypass, arterial atheromatous degeneration, small vessel imaging, and left ventricular volume measurement. Images were reconstructed using both the volume-rendering and the maximum-intensity-profile methods. Arterial atherosclerotic degeneration was assessed by aortic wall volume and aortic calcification volume. RESULTS: In the assessment of bypass graft patency, multi-detector row computed tomography showed a 98% correct positive ratio with sensitivity and specificity of 98% and 100%, respectively. Atheromatous degeneration showed matching results in more than 70% of cases compared with intraoperative findings. More than 92% of arterial branches with diameters of 3 mm or greater were detected by preoperative multi-detector row computed tomography images, though only 6% of branches with diameters of 2 mm or less could be visualized. There was a positive linear correlation between left ventricular volumes determined by multi-detector row computed tomography and those calculated from cine angiography. CONCLUSION: Multi-detector row computed tomography clearly visualized coronary bypass grafts and aortic arterial branches, providing detailed vascular images. Atheromatous degeneration assessed by multi-detector row computed tomography was equivalent with intraoperative findings in more than 70% of cases. Left ventricular volumes measured by multi-detector row computed tomography correlated closely with those determined by cine-angiography. Multi-detector row computed tomography is an efficient and promising modality in cardiovascular surgery.
OBJECTIVE: We assessed the role of multi-detector row computed tomography in cardiovascular surgery. METHODS: The efficacy of multi-detector row computed tomography was assessed concerning the graft patency of coronary artery bypass, arterial atheromatous degeneration, small vessel imaging, and left ventricular volume measurement. Images were reconstructed using both the volume-rendering and the maximum-intensity-profile methods. Arterial atherosclerotic degeneration was assessed by aortic wall volume and aortic calcification volume. RESULTS: In the assessment of bypass graft patency, multi-detector row computed tomography showed a 98% correct positive ratio with sensitivity and specificity of 98% and 100%, respectively. Atheromatous degeneration showed matching results in more than 70% of cases compared with intraoperative findings. More than 92% of arterial branches with diameters of 3 mm or greater were detected by preoperative multi-detector row computed tomography images, though only 6% of branches with diameters of 2 mm or less could be visualized. There was a positive linear correlation between left ventricular volumes determined by multi-detector row computed tomography and those calculated from cine angiography. CONCLUSION: Multi-detector row computed tomography clearly visualized coronary bypass grafts and aortic arterial branches, providing detailed vascular images. Atheromatous degeneration assessed by multi-detector row computed tomography was equivalent with intraoperative findings in more than 70% of cases. Left ventricular volumes measured by multi-detector row computed tomography correlated closely with those determined by cine-angiography. Multi-detector row computed tomography is an efficient and promising modality in cardiovascular surgery.
Authors: Hendrik Treede; Christoph Becker; Hermann Reichenspurner; Andreas Knez; Christian Detter; Maximilian Reiser; Bruno Reichart Journal: Ann Thorac Surg Date: 2002-10 Impact factor: 4.330
Authors: R B Griepp; M A Ergin; J D Galla; S Lansman; N Khan; C Quintana; J McCollough; C Bodian Journal: J Thorac Cardiovasc Surg Date: 1996-11 Impact factor: 5.209
Authors: Dieter Ropers; Ulrich Baum; Karsten Pohle; Katharina Anders; Stefan Ulzheimer; Bernd Ohnesorge; Christian Schlundt; Werner Bautz; Werner G Daniel; Stephan Achenbach Journal: Circulation Date: 2003-02-11 Impact factor: 29.690