Performing any diagnostic test in medicine is always a matter of trying to get the condition of the patient diagnosed properly with the least effort, exposure, discomfort and at the same time with the lowest possible error probability. Pre-test probability is helpful but often imprecise, effectively overestimating the patient's risk profile. In a broader prevention objective, the phases of a disease, its onset, progression, and complications must be taken into account. The negative predictive value, which is so important, has in turn its main limitation in identifying the healthy patient,…mehr
Performing any diagnostic test in medicine is always a matter of trying to get the condition of the patient diagnosed properly with the least effort, exposure, discomfort and at the same time with the lowest possible error probability.
Pre-test probability is helpful but often imprecise, effectively overestimating the patient's risk profile. In a broader prevention objective, the phases of a disease, its onset, progression, and complications must be taken into account. The negative predictive value, which is so important, has in turn its main limitation in identifying the healthy patient, that is, the one who does not belong to any cluster of patients in which we would act in terms of prevention.
In coronary syndromes, the goal is instead to evaluate coronary heart disease, from mild to more extensive and significant forms. For this purpose, it is necessary to use parameters that investigate different and complementary aspects: stenosis, ischemia, the morphology ofthe atherosclerotic plaque, metabolic processes, in particular vitality and apoptosis, the presence of inflammatory processes.
The possibility, already present thanks to Hybrid Imaging, of 'joining' exams that study different aspects, will allow the patient to be increasingly characterized not only from a diagnostic point of view but also from a prognostic and personalized therapeutic choice.
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Francesco Nudi received his medical diploma from Sapienza University of Rome, prior to completing cardiology training at the same University and nuclear medicine training at the Catholic University of Rome, Italy. After securing a tenure position at Tor Vergata University of Rome, he pioneered nuclear cardiology and later hybrid coronary imaging in Rome, helping the Madonna della Fiducia Clinic, the institution he has led since 1997, to become the leading centre for cardiac SPECT in Italy. His translational expertise and scholarly commitment are demonstrated by several dozens of scholarly publications and the recent founding of a start-up dedicated to imaging integration and automated patient management. Orazio Schillaci received his medical diploma and nuclear medicine training from Sapienza University of Rome, and nuclear medicine training at Tor Vergata University of Rome. After holding academic appointments at L'Aquila University, he joined the faculty at Tor Vergata University of Rome, where he is currently a Full Professor of Nuclear Medicine, Director of the Nuclear Medicine Residency, and Dean of the Medical School. He has published more than 200 articles indexed in PubMed, and serves on the editorial boards of some of the leading nuclear medicine journals. Giuseppe Biondi-Zoccai received his medical diploma from the University of Milan, completed cardiology training at the Catholic University of Rome, and eventually refined his statistical expertise with an MStat diploma at Tor Vergata University, Rome, Italy. He has also pursued additional training at Hopital Hautepierre, Strasbourg, France, UK, Hammersmith Hospital, London, UK, and Mount Sinai Medical Center, New York, USA, among others. He is currently an Associate Professor of Cardiology at Sapienza University of Rome, Latina, Italy. He is an accomplished interventional cardiologist and clinical researcher, with a specific focus on outcome research. He has published more than 900 articles indexed in PubMed and edited several textbooks on clinical research and practice. Ami E. Iskandrian received his medical degree from the University of Baghdad, Iraq, and moved to Philadelphia, USA, where he completed residencies in internal medicine and cardiology at Hahnemann University. He was appointed Professor of Medicine at Hahnemann, where he served as Director of Nuclear Cardiology at the Cardiovascular Institute. He also served as a Professor of Medicine at Allegheny University and the Philadelphia Heart Institute. He then moved to the University of Alabama at Birmingham, AL, USA, where he is currently a Distinguished Professor of Medicine and Radiology and Director of the Nuclear Cardiology program. He has authored more than 700 scholarly publications and serves as Editor-in-Chief of the Journal of Nuclear Cardiology, the leading publication for nuclear cardiologists worldwide.
Inhaltsangabe
PART I) SPECIALISTS' PERSPECTIVES TO HYBRID CARDIAC IMAGING.- Chapter 1) Hybrid Cardiac Imaging for the Clinical Cardiologist.- Chapter 2) Hybrid Cardiac Imaging for the Cardiologist with Expertise in Echocardiography.- Chapter 3) Hybrid Cardiac Imaging for the Specialist with Expertise in Cardiac Magnetic Resonance.- Chapter 4) Hybrid Imaging Using Single Photon Emission Computed Tomography.- Chapter 5) Hybrid Cardiac Imaging for the Specialist with Expertise in Computed Tomography.- Chapter 6) Hybrid Cardiac Imaging for the Invasive Cardiologist.- Chapter 7) Hybrid Cardiac Imaging for the Interventional Cardiologist.- PART II) HYBRID IMAGING IN CLINICAL PRACTICE.- Chapter 8) Systematic Review of Hybrid Cardiac Imaging.- Chapter 9) Hybrid Cardiac Viability Assessment.- Chapter 10) Hybrid Cardiac Imaging in Clinical Practice: From Diagnosis to Prognosis and Management.- Chapter 11) Clinical Cases of Hybrid Cardiac Imaging.- Chapter 12) Hybrid Cardiac Imaging: The Role of Machine Learning and Artificial Intelligence.
PART I) SPECIALISTS’ PERSPECTIVES TO HYBRID CARDIAC IMAGING.- Chapter 1) Hybrid Cardiac Imaging for the Clinical Cardiologist.- Chapter 2) Hybrid Cardiac Imaging for the Cardiologist with Expertise in Echocardiography.- Chapter 3) Hybrid Cardiac Imaging for the Specialist with Expertise in Cardiac Magnetic Resonance.- Chapter 4) Hybrid Imaging Using Single Photon Emission Computed Tomography.- Chapter 5) Hybrid Cardiac Imaging for the Specialist with Expertise in Computed Tomography.- Chapter 6) Hybrid Cardiac Imaging for the Invasive Cardiologist.- Chapter 7) Hybrid Cardiac Imaging for the Interventional Cardiologist.- PART II) HYBRID IMAGING IN CLINICAL PRACTICE.- Chapter 8) Systematic Review of Hybrid Cardiac Imaging.- Chapter 9) Hybrid Cardiac Viability Assessment.- Chapter 10) Hybrid Cardiac Imaging in Clinical Practice: From Diagnosis to Prognosis and Management.- Chapter 11) Clinical Cases of Hybrid Cardiac Imaging.- Chapter 12) Hybrid Cardiac Imaging: The Role of Machine Learning and Artificial Intelligence.
PART I) SPECIALISTS' PERSPECTIVES TO HYBRID CARDIAC IMAGING.- Chapter 1) Hybrid Cardiac Imaging for the Clinical Cardiologist.- Chapter 2) Hybrid Cardiac Imaging for the Cardiologist with Expertise in Echocardiography.- Chapter 3) Hybrid Cardiac Imaging for the Specialist with Expertise in Cardiac Magnetic Resonance.- Chapter 4) Hybrid Imaging Using Single Photon Emission Computed Tomography.- Chapter 5) Hybrid Cardiac Imaging for the Specialist with Expertise in Computed Tomography.- Chapter 6) Hybrid Cardiac Imaging for the Invasive Cardiologist.- Chapter 7) Hybrid Cardiac Imaging for the Interventional Cardiologist.- PART II) HYBRID IMAGING IN CLINICAL PRACTICE.- Chapter 8) Systematic Review of Hybrid Cardiac Imaging.- Chapter 9) Hybrid Cardiac Viability Assessment.- Chapter 10) Hybrid Cardiac Imaging in Clinical Practice: From Diagnosis to Prognosis and Management.- Chapter 11) Clinical Cases of Hybrid Cardiac Imaging.- Chapter 12) Hybrid Cardiac Imaging: The Role of Machine Learning and Artificial Intelligence.
PART I) SPECIALISTS’ PERSPECTIVES TO HYBRID CARDIAC IMAGING.- Chapter 1) Hybrid Cardiac Imaging for the Clinical Cardiologist.- Chapter 2) Hybrid Cardiac Imaging for the Cardiologist with Expertise in Echocardiography.- Chapter 3) Hybrid Cardiac Imaging for the Specialist with Expertise in Cardiac Magnetic Resonance.- Chapter 4) Hybrid Imaging Using Single Photon Emission Computed Tomography.- Chapter 5) Hybrid Cardiac Imaging for the Specialist with Expertise in Computed Tomography.- Chapter 6) Hybrid Cardiac Imaging for the Invasive Cardiologist.- Chapter 7) Hybrid Cardiac Imaging for the Interventional Cardiologist.- PART II) HYBRID IMAGING IN CLINICAL PRACTICE.- Chapter 8) Systematic Review of Hybrid Cardiac Imaging.- Chapter 9) Hybrid Cardiac Viability Assessment.- Chapter 10) Hybrid Cardiac Imaging in Clinical Practice: From Diagnosis to Prognosis and Management.- Chapter 11) Clinical Cases of Hybrid Cardiac Imaging.- Chapter 12) Hybrid Cardiac Imaging: The Role of Machine Learning and Artificial Intelligence.
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