Diagnostic efficacy of CCTA and CT-FFR based on risk factors for myocardial ischemia

[1] Tesche C(2017)Coronary computed tomographic angiography-derived fractional flow reserve for therapeutic decision making Am J Cardiol 120 2121-2127

[2] Vliegenthart R(2018)Coronary CT angiography-derived fractional flow reserve: machine learning algorithm versus computational fluid dynamics modeling Radiology 288 64-72

[3] Duguay TM(2019)Identification of high-risk plaques destined to cause acute coronary syndrome using coronary computed tomographic angiography and computational fluid dynamics JACC-Cardiovasc Imag 12 1032-1043

[4] Tesche C(2020)2019 ESC Guidelines for the diagnosis and management of chronic coronary syndromes Eur Heart J 41 407-477

[5] De Cecco CN(2017)Coronary computed tomography angiography vs functional stress testing for patients with suspected coronary artery disease a systematic review and meta-analysis Jama Intern Med 177 1623-1631

[6] Baumann S(2007)Influence of routine assessment of fractional flow reserve on decision making during coronary interventions Am J Cardiol. 99 504-508

[7] Lee JM(2011)Diagnosis of ischemia-causing coronary stenoses by noninvasive fractional flow reserve computed from coronary computed tomographic angiograms results from the prospective multicenter DISCOVER-FLOW (diagnosis of ischemia-causing stenoses obtained via noninvasive fractional flow reserve) study J Am Coll Cardiol 58 1989-1997

[8] Choi G(2012)Diagnostic accuracy of fractional flow reserve from anatomic CT angiography JAMA-J Am Med Assoc 308 1237-1245

[9] Koo BK(2015)Clinical outcomes of fractional flow reserve by computed tomographic angiography-guided diagnostic strategies vs. usual care in patients with suspected coronary artery disease: the prospective longitudinal trial of FFRCT: outcome and resource impacts study Eur Heart J. 36 3359-3367

[10] Knuuti J(2007)Optimal medical therapy with or without PCI for stable coronary disease N Engl J Med 356 1503-1516

[1] Tesche C(2017)Coronary computed tomographic angiography-derived fractional flow reserve for therapeutic decision making Am J Cardiol 120 2121-2127

[2] Vliegenthart R(2018)Coronary CT angiography-derived fractional flow reserve: machine learning algorithm versus computational fluid dynamics modeling Radiology 288 64-72

[3] Duguay TM(2019)Identification of high-risk plaques destined to cause acute coronary syndrome using coronary computed tomographic angiography and computational fluid dynamics JACC-Cardiovasc Imag 12 1032-1043

[4] Tesche C(2020)2019 ESC Guidelines for the diagnosis and management of chronic coronary syndromes Eur Heart J 41 407-477

[5] De Cecco CN(2017)Coronary computed tomography angiography vs functional stress testing for patients with suspected coronary artery disease a systematic review and meta-analysis Jama Intern Med 177 1623-1631

[6] Baumann S(2007)Influence of routine assessment of fractional flow reserve on decision making during coronary interventions Am J Cardiol. 99 504-508

[7] Lee JM(2011)Diagnosis of ischemia-causing coronary stenoses by noninvasive fractional flow reserve computed from coronary computed tomographic angiograms results from the prospective multicenter DISCOVER-FLOW (diagnosis of ischemia-causing stenoses obtained via noninvasive fractional flow reserve) study J Am Coll Cardiol 58 1989-1997

[8] Choi G(2012)Diagnostic accuracy of fractional flow reserve from anatomic CT angiography JAMA-J Am Med Assoc 308 1237-1245

[9] Koo BK(2015)Clinical outcomes of fractional flow reserve by computed tomographic angiography-guided diagnostic strategies vs. usual care in patients with suspected coronary artery disease: the prospective longitudinal trial of FFRCT: outcome and resource impacts study Eur Heart J. 36 3359-3367

[10] Knuuti J(2007)Optimal medical therapy with or without PCI for stable coronary disease N Engl J Med 356 1503-1516