Creeping towards broader clinical application of PET myocardial blood flow quantification

Ziadi MC(2011)Impaired myocardial flow reserve on Rubidium-82 positron emission tomography imaging predicts adverse outcomes in patients assessed for myocardial ischemia J Am Coll Cardiol 58 740-748

Williams KA(2011)Improved cardiac risk assessment with non-invasive measures of coronary flow reserve Circulation 124 2215-2224

Guo A(2018)Coronary microvascular dysfunction and future risk of heart failure with preserved ejection fraction Eur Heart J 39 840-849

Chow BJ(2015)Global coronary flow reserve is associated with adverse cardiovascular events independently of luminal angiographic severity and modifies the effect of early revascularization Circulation 131 19-27

Renaud J(2013)Anatomic versus physiologic assessment of coronary artery disease: Role of coronary flow reserve, fractional flow reserve, and positron emission tomography imaging in revascularization decision making J Am Coll Cardiol 62 1639-1653

Ruddy TD(2014)Preserved coronary flow reserve effectively excludes high-risk coronary artery disease on angiography J Nucl Med 55 248-255

Murthy VL(2016)American Society of Nuclear Cardiology and Society of Nuclear Medicine and Molecular Imaging joint position statement on the clinical indications for myocardial perfusion PET J Nucl Cardiol 57 1654-1656

Naya M(2017)Moving towards a better understanding of potential pitfalls in quantitative PET myocardial blood flow J Nucl Cardiol 25 269-297

Foster CRE(2018)Clinical quantification of myocardial blood flow using PET: Joint position paper of the SNMMI cardiovascular council and the ASNC J Nucl Med 10 565-577

Hainer J(2018)Blood pool and tissue phase patient motion effects of rubidium-82 PET myocardial blood flow quantification J Nucl Cardiol 8 438-447

Ziadi MC(2011)Impaired myocardial flow reserve on Rubidium-82 positron emission tomography imaging predicts adverse outcomes in patients assessed for myocardial ischemia J Am Coll Cardiol 58 740-748

Williams KA(2011)Improved cardiac risk assessment with non-invasive measures of coronary flow reserve Circulation 124 2215-2224

Guo A(2018)Coronary microvascular dysfunction and future risk of heart failure with preserved ejection fraction Eur Heart J 39 840-849

Chow BJ(2015)Global coronary flow reserve is associated with adverse cardiovascular events independently of luminal angiographic severity and modifies the effect of early revascularization Circulation 131 19-27

Renaud J(2013)Anatomic versus physiologic assessment of coronary artery disease: Role of coronary flow reserve, fractional flow reserve, and positron emission tomography imaging in revascularization decision making J Am Coll Cardiol 62 1639-1653

Ruddy TD(2014)Preserved coronary flow reserve effectively excludes high-risk coronary artery disease on angiography J Nucl Med 55 248-255

Murthy VL(2016)American Society of Nuclear Cardiology and Society of Nuclear Medicine and Molecular Imaging joint position statement on the clinical indications for myocardial perfusion PET J Nucl Cardiol 57 1654-1656

Naya M(2017)Moving towards a better understanding of potential pitfalls in quantitative PET myocardial blood flow J Nucl Cardiol 25 269-297

Foster CRE(2018)Clinical quantification of myocardial blood flow using PET: Joint position paper of the SNMMI cardiovascular council and the ASNC J Nucl Med 10 565-577

Hainer J(2018)Blood pool and tissue phase patient motion effects of rubidium-82 PET myocardial blood flow quantification J Nucl Cardiol 8 438-447