2024
Nuclear Cardiology
Zaret B, Wackers F. Nuclear Cardiology. 2024, 3-12. DOI: 10.1093/med/9780190095659.003.0001.Peer-Reviewed Original ResearchEvaluate left ventricular (LV) functionQuantification of coronary blood flowPerfusion imagingRadiation dose reductionPET-FDG studiesStress perfusion imagingEvaluate myocardial perfusionCoronary flow reserveMyocardial perfusion studiesComputed tomography CTCardiac sarcoidosisCoronary blood flowDose reductionMyocardial inflammationSPECT approachAssess prognosisMyocardial stress perfusion imagingStress imagingMyocardial perfusionFlow reservePerfusion studiesCardiac studiesRadionuclide imagingBlood flowAttenuation correctionNuclear Cardiology
Zaret B, Wackers F. Nuclear Cardiology. 2024, 1-1. DOI: 10.1093/med/9780197521434.003.0001.Peer-Reviewed Original ResearchEvaluate left ventricular (LV) functionQuantification of coronary blood flowPerfusion imagingRadiation dose reductionPET-FDG studiesStress perfusion imagingEvaluate myocardial perfusionCoronary flow reserveMyocardial perfusion studiesComputed tomography CTCardiac sarcoidosisCoronary blood flowDose reductionMyocardial inflammationSPECT approachAssess prognosisMyocardial stress perfusion imagingStress imagingMyocardial perfusionFlow reservePerfusion studiesCardiac studiesRadionuclide imagingBlood flowAttenuation correction
2022
Angiographic Lesion Discordance in Women Presenting With Ischemic Heart Disease: Comparison of Visual Assessment, Quantitative Coronary Angiography, and Quantitative Flow Ratio.
Gitto M, Saito Y, Taoutel R, Schneider MD, Papoutsidakis N, Ardito S, Henry G, Cristea E, Lansky AJ, Altin SE. Angiographic Lesion Discordance in Women Presenting With Ischemic Heart Disease: Comparison of Visual Assessment, Quantitative Coronary Angiography, and Quantitative Flow Ratio. Journal Of Invasive Cardiology 2022, 34: e202-e209. PMID: 35089162, DOI: 10.25270/jic/21.00146.Peer-Reviewed Original ResearchConceptsQuantitative coronary angiographyIschemic heart diseaseQuantitative flow ratioStress perfusion imagingDiameter stenosisCoronary angiographyIschemic symptomsCoronary revascularizationHeart diseasePerfusion imagingStenosis severityIndependent core laboratoryCohort of womenVisual assessmentCoronary stenosis severityConsecutive patientsAngiographic severityCoronary stenosisLesion assessmentClinical practiceCore laboratoryLesionsAngiographyWomenBlinded operators
2020
Preclinical Validation of a Single-Scan Rest/Stress Imaging Technique for 13N-Ammonia Positron Emission Tomography Cardiac Perfusion Studies
Guehl N, Pelletier-Galarneau M, Wooten D, Guerrero J, Kas A, Normandin M, Fakhri G, Alpert N. Preclinical Validation of a Single-Scan Rest/Stress Imaging Technique for 13N-Ammonia Positron Emission Tomography Cardiac Perfusion Studies. Circulation Cardiovascular Imaging 2020, 13: e009407. PMID: 31959009, PMCID: PMC7205554, DOI: 10.1161/circimaging.119.009407.Peer-Reviewed Original ResearchConceptsMyocardial blood flowPerfusion imagingMyocardial perfusion imaging proceduresSCAN-ALeft anterior descending arteryDose of adenosineAbsolute myocardial blood flowStress perfusion imagingAnterior descending arteryCardiac perfusion studiesMyocardial blood flow measurementsBland-Altman analysisNonstationary kinetic modelPositron emission tomographyMeasurement of restMyocardial blood flow valuesPharmacological stressorDescending arteryPreclinical validationMyocardial blood flow estimatesSingle-scan acquisitionPerfusion studiesVariable dosesImaging sessionMicrosphere MBF measurements
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