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T(-786)→C polymorphism of the endothelial nitric oxide synthase gene is associated with insulin resistance in patients with ischemic or non ischemic cardiomyopathyNicotine addiction and coronary artery disease: impact of cessation interventions.Relationships between cardiac innervation/perfusion imbalance and ventricular arrhythmias: impact on invasive electrophysiological parameters and ablation procedures.Real-time respiratory triggered SPECT myocardial perfusion imaging using CZT technology: impact of respiratory phase matching between SPECT and low-dose CT for attenuation correction.MR-based attenuation correction for cardiac FDG PET on a hybrid PET/MRI scanner: comparison with standard CT attenuation correction.Neuro-cardiac imaging has a proven value in patient management: Con.Association between left ventricular regional sympathetic denervation and mechanical dyssynchrony in phase analysis: a cardiac CZT study.Insulin resistance is a major determinant of myocardial blood flow impairment in anginal patients.Effects of levosimendan in patients with severe functional mitral regurgitation undergoing MitraClip implantation.Multicentre multi-device hybrid imaging study of coronary artery disease: results from the EValuation of INtegrated Cardiac Imaging for the Detection and Characterization of Ischaemic Heart Disease (EVINCI) hybrid imaging population.Appropriate use criteria in clinical routine practice: implications in a nuclear cardiology lab.Magnetic Resonance Imaging Correlates of Left Bundle Branch Disease in Patients With Nonischemic Cardiomyopathy.Resistant hypertension: an overview.Imaging the heart's brain: Simultaneous innervation/perfusion analysis in the era of new CZT cameras.Quantification of epicardial and intrathoracic fat volume does not provide an added prognostic value as an adjunct to coronary artery calcium score and myocardial perfusion single-photon emission computed tomography.Relationship between myocardial perfusion abnormalities and contractile impairment in anginal patients.Regional heterogeneity in cardiac sympathetic innervation in acute myocardial infarction: relationship with myocardial oedema on magnetic resonance.Evaluation of left ventricular mass on cadmium-zinc-telluride imaging: Validation against cardiac magnetic resonance.Automatic evaluation of myocardial perfusion on SPECT: Need for "Normality".Interactions Between Reciprocal ST-Segment Downsloping During ST-Elevated Myocardial Infarction and Global Cardiac Perfusion and Functional Abnormalities.Abnormal glucose and lipid control in non-ischemic left ventricular dysfunction.Accuracy of myocardial perfusion imaging in detecting multivessel coronary artery disease: A cardiac CZT study.A fast and effective method to assess myocardial hyperemia in acute myocarditis by magnetic resonance.Assessment of myocardial adrenergic innervation with a solid-state dedicated cardiac cadmium-zinc-telluride camera: first clinical experience.Structural abnormalities of the coronary arterial wall--in addition to luminal narrowing--affect myocardial blood flow reserve.Myocardial ischemia without obstructive CAD: there is more than meets the eye!Noninvasive CT-based hemodynamic assessment of coronary lesions derived from fast computational analysis: a comparison against fractional flow reserveCoronary Atherosclerosis and Quantitative Myocardial Perfusion: A Relationship Beyond StenosisDetection of ischemia with early myocardial perfusion imaging: You see more if you watch beforeImproving cardiac SPECT accuracy: Old robustness for a new gold standardInteractions between myocardial sympathetic denervation and left ventricular mechanical dyssynchrony: A CZT analysisLeft ventricular eccentricity index measured with SPECT myocardial perfusion imaging: An additional parameter of adverse cardiac remodelingMyocardial 123I-metaiodobenzylguanidine imaging in hypertension and left ventricular hypertrophyStress-induced alteration of left ventricular eccentricity: An additional marker of multivessel CADDeterminants of left ventricular mechanical dyssynchrony in patients submitted to myocardial perfusion imaging: A cardiac CZT studyInfluence of cardiac stress protocol on myocardial perfusion imaging accuracy: The role of exercise level on the evaluation of ischemic burdenRelationships between left ventricular sympathetic innervation and diastolic dysfunction: the role of myocardial innervation/perfusion mismatchChronotropic response to vasodilator-stress in patients submitted to myocardial perfusion imaging: impact on the accuracy in detecting coronary stenosisDiastolic dysfunction assessed by ultra-fast cadmium-zinc-telluride cardiac imaging: impact on the evaluation of ischaemiaEvaluation of ischaemia in patients with atrial fibrillation: impact of stress protocol on myocardial perfusion imaging accuracy
P50
Q34432220-D2B1AC31-63B3-4B9B-A7F2-A39759C2E245Q37765298-774208E7-2CB2-4643-A216-16D1C614F3BCQ39588281-1120C897-8C07-4379-B638-9FBA9F26B902Q39914015-110D895F-C085-4D4A-9FB8-E54F284C32EDQ40819535-785D5781-1A74-40A3-9469-E0504BB99368Q42371031-C086FCB1-77A3-4CD8-AE25-EDFC7F64EF7EQ44323835-022173F7-A20F-4423-9E1E-4A4D1440DA20Q46254505-6AECE468-4B5B-4E30-B518-C4AD20D7F2D5Q47277881-8BCDF1BA-BAEC-403F-8021-5EAD36C90DA7Q47714016-34D2BBF1-D1FA-46B8-844A-9D3AFB400102Q47861231-5151877F-60D3-4857-85AC-E5CC4AF9E229Q48536656-401750EE-2C22-4730-8069-BA0B9800124AQ48594275-8533AACB-CF0A-47B7-8577-E7AC3FDEDF8BQ48726674-9CB0932C-BAF1-40C6-9D98-2AC786A72D33Q48741296-E2BACB4E-5AB7-4780-A341-B91110008604Q48841088-B1B49BBB-082F-4FE7-BCCF-31D03D91DC0CQ48864690-161A71F5-FF46-4867-B047-90EFD2FCD262Q50086184-7BD65B08-77FA-40E0-AAF9-8B683ED086B0Q50086575-3DF9138E-F74C-408E-B761-8B0912D58746Q50713102-BD554E9D-48A3-4DCC-B1C6-A269CA74AA34Q51334798-88A0BF15-8E29-47CE-901D-7F19B4CEA2CAQ52985182-D20616DC-8A4D-44A4-A033-7BDAA5C1E827Q53082493-F203ACF6-EA9F-4185-94A5-64E1BE37B207Q53085392-AE5E4A98-3A46-47E5-BF03-431F32678A0BQ53201729-DD083C6C-EF84-4688-AE0B-9412E8D7B961Q54219357-AA8A5075-8C7C-43C7-92AF-17BED2455FAEQ57462615-39DCC2B6-BD0B-48B5-A494-67D945E3466EQ61650817-809C1B12-51CC-470C-A4E7-EBEF30F68037Q61650872-A2EFC77D-64E3-47AF-B241-29517EAB43ADQ61650873-97EC4076-8B20-45F5-A876-1D5DDFEC7565Q61650874-6059D717-CAD2-4E7F-9A0E-1216288699C6Q61650875-CBF0D839-0CD3-461C-8ECA-BD78BF1FEAADQ61650876-13D1E881-35F7-4A5D-8F79-4B6F0EFB1F79Q61650877-7D25AB18-9184-4B54-8128-C34394538A35Q61650878-81E42617-B16D-46CF-BE10-76095408850DQ61650879-B21399C9-4CAC-48DE-BE4B-A57E4B9DAA05Q61650880-971A23F6-72B8-4A7D-A97F-33DE7415C6ECQ61650881-BC641639-CA66-4ED3-A6A2-17B06CA00C17Q61650883-9BDE88C0-1035-47A3-AF56-725A7CBFFB0CQ61650884-707B79AA-B929-4F2A-B038-E58EFD714907
P50
description
investigador
@es
researcher
@en
wetenschapper
@nl
name
Riccardo Liga
@en
Riccardo Liga
@nl
type
label
Riccardo Liga
@en
Riccardo Liga
@nl
prefLabel
Riccardo Liga
@en
Riccardo Liga
@nl
P31
P496
0000-0002-9964-5604