Myocardial perfusion studies are among the most often performedinvestigations in Nuclear Medicine. However, the developmentof radiopharmaceuticals for cardiology is an emergingdiscipline and several other radiotracers have been proven to beuseful. Although the myocardial perfusion studies have a wellestablishedrole in the management of cardiac disorders, stilla number of radiopharmaceuticals are under development fora variety of specific cardiac indications and their eventual clinicalrole remains to be seen. The paper provides a short overviewof currently used radiopharmaceuticals and potential molecularimaging radiotracers applicable in cardiology
SummaryThis report describes the nuclear cardiology procedures available for use as diagnostic techn...
This review paper is based on a topic invited for review presented by the first author at the Annual...
Positron emission tomography (PET) represents an advanced imaging technology for the noninvasive eva...
Radioisotope studies in cardiology have been a standardfor myocardial perfusion and function assessm...
Nuclear cardiology procedures are among the most extensivelyperformed radionuclide studies. Procedur...
The field of nuclear cardiac imaging has evolved from being rather subjective, more “art than a scie...
Myocardial perfusion imaging (MPI) is used on a daily basis to access coronary blood flow in patient...
Coronary artery disease (CAD) is the leading cause of death and remains a major health problem world...
Cardiovascular disease (CVD) is the leading cause of death and disease burden worldwide. Nuclear myo...
The clinical applications of nuclear cardiology have rapidly expanded since the introduction of suit...
AbstractRadiotracer studies of the heart have become clinically important in the last decade, especi...
In recent years technological advancements in nuclear medicine have resulted in increasing interest ...
The aim of evidence-based medicine is to integrate individual clinical expertise with the best avail...
Abstract: Nuclear cardiology uses radioisotopes to study various aspects of cardiac pathophysiology....
Advancements in molecular medicine technology have allowed the development of innovative and better ...
SummaryThis report describes the nuclear cardiology procedures available for use as diagnostic techn...
This review paper is based on a topic invited for review presented by the first author at the Annual...
Positron emission tomography (PET) represents an advanced imaging technology for the noninvasive eva...
Radioisotope studies in cardiology have been a standardfor myocardial perfusion and function assessm...
Nuclear cardiology procedures are among the most extensivelyperformed radionuclide studies. Procedur...
The field of nuclear cardiac imaging has evolved from being rather subjective, more “art than a scie...
Myocardial perfusion imaging (MPI) is used on a daily basis to access coronary blood flow in patient...
Coronary artery disease (CAD) is the leading cause of death and remains a major health problem world...
Cardiovascular disease (CVD) is the leading cause of death and disease burden worldwide. Nuclear myo...
The clinical applications of nuclear cardiology have rapidly expanded since the introduction of suit...
AbstractRadiotracer studies of the heart have become clinically important in the last decade, especi...
In recent years technological advancements in nuclear medicine have resulted in increasing interest ...
The aim of evidence-based medicine is to integrate individual clinical expertise with the best avail...
Abstract: Nuclear cardiology uses radioisotopes to study various aspects of cardiac pathophysiology....
Advancements in molecular medicine technology have allowed the development of innovative and better ...
SummaryThis report describes the nuclear cardiology procedures available for use as diagnostic techn...
This review paper is based on a topic invited for review presented by the first author at the Annual...
Positron emission tomography (PET) represents an advanced imaging technology for the noninvasive eva...