scholarly article | Q13442814 |
P50 | author | Daniel S Berman | Q89697826 |
P2093 | author name string | Guido Germano | |
Piotr Slomka | |||
Guang-Uei Hung | |||
P2860 | cites work | Stress myocardial perfusion imaging for assessing prognosis: an update | Q30454789 |
Feasibility of data-driven cardiac respiratory motion correction of myocardial perfusion CZT SPECT: A pilot study | Q31095559 | ||
Applicability of data-driven respiratory motion correction to CZT SPECT myocardial perfusion imaging in the clinical setting: The birth of an old wish | Q31122336 | ||
"Same-Patient Processing" for multiple cardiac SPECT studies. 1. Improving LV segmentation accuracy | Q33751413 | ||
"Same-patient processing" for multiple cardiac SPECT studies. 2. Improving quantification repeatability | Q33751431 | ||
Phantom evaluation of a cardiac SPECT/VCT system that uses a common set of solid-state detectors for both emission and transmission scans | Q33838815 | ||
Improved quantification and normal limits for myocardial perfusion stress-rest change | Q34112453 | ||
Automated quality control for segmentation of myocardial perfusion SPECT. | Q34112498 | ||
Automatic and visual reproducibility of perfusion and function measures for myocardial perfusion SPECT. | Q34341694 | ||
Agreement of Visual Estimation of Coronary Artery Calcium From Low-Dose CT Attenuation Correction Scans in Hybrid PET/CT and SPECT/CT With Standard Agatston Score | Q34580272 | ||
Simultaneous dual-radionuclide myocardial perfusion imaging with a solid-state dedicated cardiac camera | Q35027052 | ||
Quantitative Upright–Supine High-Speed SPECT Myocardial Perfusion Imaging for Detection of Coronary Artery Disease: Correlation with Invasive Coronary Angiography | Q35089012 | ||
Quantitative high-efficiency cadmium-zinc-telluride SPECT with dedicated parallel-hole collimation system in obese patients: results of a multi-center study | Q35163600 | ||
Advances in SPECT and PET Hardware | Q35568555 | ||
Comparison of image quality, myocardial perfusion, and left ventricular function between standard imaging and single-injection ultra-low-dose imaging using a high-efficiency SPECT camera: the MILLISIEVERT study | Q35801215 | ||
End-expiration respiratory gating for a high-resolution stationary cardiac SPECT system | Q35927847 | ||
Improved cardiac risk assessment with noninvasive measures of coronary flow reserve | Q36390106 | ||
Limited-angle effect compensation for respiratory binned cardiac SPECT. | Q36429771 | ||
Quantitative analysis of myocardial perfusion SPECT anatomically guided by coregistered 64-slice coronary CT angiography | Q36489450 | ||
Comparison of fully automated computer analysis and visual scoring for detection of coronary artery disease from myocardial perfusion SPECT in a large population | Q36585799 | ||
Quantitative assessment of myocardial perfusion abnormality on SPECT myocardial perfusion imaging is more reproducible than expert visual analysis | Q36601740 | ||
Myocardial perfusion imaging with a solid-state camera: simulation of a very low dose imaging protocol | Q36675279 | ||
Improved accuracy of myocardial perfusion SPECT for the detection of coronary artery disease using a support vector machine algorithm | Q36736086 | ||
Prediction of revascularization after myocardial perfusion SPECT by machine learning in a large population. | Q36876859 | ||
Corridor4DM: the Michigan method for quantitative nuclear cardiology | Q36902439 | ||
Applications and software techniques for integrated cardiac multimodality imaging | Q37038950 | ||
Measurement of absolute myocardial blood flow in humans using dynamic cardiac SPECT and 99mTc-tetrofosmin: Method and validation | Q37053039 | ||
Improved accuracy of myocardial perfusion SPECT for detection of coronary artery disease by machine learning in a large population | Q37066069 | ||
High-efficiency SPECT MPI: comparison of automated quantification, visual interpretation, and coronary angiography | Q37288195 | ||
Quantitation of left ventricular ejection fraction reserve from early gated regadenoson stress Tc-99m high-efficiency SPECT. | Q37424130 | ||
Quantification of Myocardial Perfusion Reserve Using Dynamic SPECT Imaging in Humans: A Feasibility Study. | Q37633902 | ||
A model for the prediction of a successful stress-first Tc-99m SPECT MPI. | Q38053091 | ||
New cardiac cameras: single-photon emission CT and PET. | Q38221794 | ||
Visual identification of coronary calcifications on attenuation correction CT improves diagnostic accuracy of SPECT/CT myocardial perfusion imaging. | Q38724370 | ||
Automatic Valve Plane Localization in Myocardial Perfusion SPECT/CT by Machine Learning: Anatomic and Clinical Validation | Q39218415 | ||
New Imaging Protocols for New Single Photon Emission CT Technologies | Q40267595 | ||
Reduced dose measurement of absolute myocardial blood flow using dynamic SPECT imaging in a porcine model | Q40585863 | ||
Simultaneous dual-isotope solid-state detector SPECT for improved tracking of white blood cells in suspected endocarditis | Q40596219 | ||
Automatic registration of misaligned CT attenuation correction maps in Rb-82 PET/CT improves detection of angiographically significant coronary artery disease | Q41385992 | ||
Extending the Use of Coronary Calcium Scanning to Clinical Rather Than Just Screening Populations: Ready for Prime Time? | Q41557135 | ||
Normal stress-only versus standard stress/rest myocardial perfusion imaging: similar patient mortality with reduced radiation exposure | Q43242426 | ||
Comparative feasibility of separate or simultaneous rest thallium-201/stress technetium-99m-sestamibi dual-isotope myocardial perfusion SPECT. | Q43501361 | ||
Clinical utility of SPECT-(low-dose)CT versus SPECT alone in patients presenting for bone scintigraphy | Q43605960 | ||
Quantitation of myocardial blood flow and myocardial flow reserve with 99mTc-sestamibi dynamic SPECT/CT to enhance detection of coronary artery disease | Q43648743 | ||
Multicenter investigation comparing a highly efficient half-time stress-only attenuation correction approach against standard rest-stress Tc-99m SPECT imaging | Q43830317 | ||
Combined Quantitative Assessment of Myocardial Perfusion and Coronary Artery Calcium Score by Hybrid 82Rb PET/CT Improves Detection of Coronary Artery Disease | Q44575981 | ||
Automatic quantification of myocardial perfusion stress-rest change: a new measure of ischemia. | Q44762709 | ||
Long-term prognostic value of 13N-ammonia myocardial perfusion positron emission tomography added value of coronary flow reserve | Q45349436 | ||
Comparison of positron emission tomography measurement of adenosine-stimulated absolute myocardial blood flow versus relative myocardial tracer content for physiological assessment of coronary artery stenosis severity and location. | Q45972530 | ||
Dynamic SPECT measurement of absolute myocardial blood flow in a porcine model | Q46172677 | ||
Diagnostic accuracy of computed tomography coronary angiography and evaluation of stress-only single-photon emission computed tomography/computed tomography hybrid imaging: comparison of prospective electrocardiogram-triggering vs. retrospective gat | Q46184666 | ||
"Motion-frozen" display and quantification of myocardial perfusion | Q46697730 | ||
Quantitation in gated perfusion SPECT imaging: the Cedars-Sinai approach | Q46711287 | ||
Low event rate for stress-only perfusion imaging in patients evaluated for chest pain | Q46722600 | ||
SPECT myocardial blood flow quantitation toward clinical use: a comparative study with 13N-Ammonia PET myocardial blood flow quantitation | Q48042606 | ||
Dual "motion-frozen heart" combining respiration and contraction compensation in clinical myocardial perfusion SPECT imaging | Q48586290 | ||
Cadmium-zinc-telluride myocardial perfusion imaging in obese patients. | Q49105354 | ||
Quantification of nuclear cardiac images: the Yale approach. | Q50942330 | ||
Accuracy of coronary CT angiography using a submillisievert fraction of radiation exposure: comparison with invasive coronary angiography. | Q51052170 | ||
Use of coronary calcium score scans from stand-alone multislice computed tomography for attenuation correction of myocardial perfusion SPECT. | Q51149510 | ||
Reduction in occupational and patient radiation exposure from myocardial perfusion imaging: impact of stress-only imaging and high-efficiency SPECT camera technology. | Q51215826 | ||
Absolute Myocardial Blood Flow and Flow Reserve Assessed by Gated SPECT with Cadmium-Zinc-Telluride Detectors Using 99mTc-Tetrofosmin: Head-to-Head Comparison with 13N-Ammonia PET. | Q52982005 | ||
Visual estimation of coronary calcium on computed tomography for attenuation correction. | Q52983564 | ||
Radiation dose and prognosis of ultra-low-dose stress-first myocardial perfusion SPECT in patients with chest pain using a high-efficiency camera. | Q53023010 | ||
A preliminary feasibility study of simultaneous dual-isotope imaging with a solid-state dedicated cardiac camera for evaluating myocardial perfusion and fatty acid metabolism. | Q53051610 | ||
Myocardial perfusion imaging with real-time respiratory triggering: impact of inspiration breath-hold on left ventricular functional parameters. | Q53298727 | ||
Comparison of simultaneous dual-isotope multipinhole SPECT with rotational SPECT in a group of patients with coronary artery disease. | Q53410224 | ||
The increasing role of quantification in clinical nuclear cardiology: the Emory approach. | Q53469930 | ||
Optimization of a simultaneous dual-isotope 201Tl/123I-MIBG myocardial SPECT imaging protocol with a CZT camera for trigger zone assessment after myocardial infarction for routine clinical settings: Are delayed acquisition and scatter correction nec | Q53755351 | ||
Diagnostic Value of 13N-Ammonia Myocardial Perfusion PET: Added Value of Myocardial Flow Reserve | Q62127949 | ||
Comparison between the end-diastolic images and the summed images of gated 99mTc-sestamibi SPECT perfusion study in detection of coronary artery disease in women | Q77748663 | ||
Value of vasodilator left ventricular ejection fraction reserve in evaluating the magnitude of myocardium at risk and the extent of angiographic coronary artery disease: a 82Rb PET/CT study | Q79856924 | ||
Prediction of short-term cardiovascular events using quantification of global myocardial flow reserve in patients referred for clinical 82Rb PET perfusion imaging | Q83883234 | ||
Impaired myocardial flow reserve on rubidium-82 positron emission tomography imaging predicts adverse outcomes in patients assessed for myocardial ischemia | Q84682517 | ||
Quantification with normal limits: New cameras and low-dose imaging | Q87667161 | ||
Comparison of the myocardial uptake of a technetium-labeled isonitrile analogue and thallium | Q93517404 | ||
P275 | copyright license | Creative Commons Attribution-NonCommercial 4.0 International | Q34179348 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 1 | |
P304 | page(s) | 31-46 | |
P577 | publication date | 2016-12-01 | |
P1433 | published in | Cardiovascular Innovations and Applications | Q50806854 |
P1476 | title | Novel SPECT Technologies and Approaches in Cardiac Imaging. | |
P478 | volume | 2 |
Q57193219 | New Trends in Quantitative Nuclear Cardiology Methods | cites work | P2860 |