about
Risk Stratification in Patients With Aortic Stenosis Using Novel Imaging ApproachesEchocardiography underestimates stroke volume and aortic valve area: implications for patients with small-area low-gradient aortic stenosis.Titin-truncating variants affect heart function in disease cohorts and the general population.Assessing exercise cardiac reserve using real-time cardiovascular magnetic resonance.A clinical risk score of myocardial fibrosis predicts adverse outcomes in aortic stenosisEffects of Aortic Valve Replacement on Severe Aortic Stenosis and Preserved Systolic Function: Systematic Review and Network Meta-analysisHigh-sensitivity troponin I concentrations are a marker of an advanced hypertrophic response and adverse outcomes in patients with aortic stenosisThe ARIC predictive model reliably predicted risk of type II diabetes in Asian populations.Lipid goal attainment and prescription behavior in asian patients with acute coronary syndromes: experience from a tertiary hospital.Cardiovascular magnetic resonance reference ranges for the heart and aorta in Chinese at 3TOptimization and comparison of myocardial T1 techniques at 3T in patients with aortic stenosis.Endothelial function and arterial stiffness assessment as early surrogate markers of vascular risk in patients with systemic lupus erythematosus.What can we learn about valvular heart disease from PET/CT?Markers of left ventricular decompensation in aortic stenosis.Novel Index of Maladaptive Myocardial Remodeling in Hypertension18F-sodium fluoride uptake is a marker of active calcification and disease progression in patients with aortic stenosis.T1 characteristics of interstitial pulmonary fibrosis on 3T MRI-a predictor of early interstitial change?The role of cardiac biochemical markers in aortic stenosis.Stress cardiovascular magnetic resonance imaging: current and future perspectives.Small valve area with low-gradient aortic stenosis: beware the hard hearted.Myocardial Fibrosis and Cardiac Decompensation in Aortic Stenosis.Fractal analysis of left ventricular trabeculations is associated with impaired myocardial deformation in healthy Chinese.Disparity Between Indications for and Utilization of Implantable Cardioverter Defibrillators in Asian Patients With Heart Failure.Cardiac myosin-binding protein C is a novel marker of myocardial injury and fibrosis in aortic stenosis.Adverse prognosis associated with asymmetric myocardial thickening in aortic stenosis.Cardiac magnetic resonance T1 and extracellular volume mapping with motion correction and co-registration based on fast elastic image registration.Importance of Sex-Specific Regression Models to Estimate Synthetic Hematocrit and Extracellular Volume Fraction.Beyond fitness tracking: The use of consumer-grade wearable data from normal volunteers in cardiovascular and lipidomics research.Valvular (18)F-Fluoride and (18)F-Fluorodeoxyglucose Uptake Predict Disease Progression and Clinical Outcome in Patients With Aortic Stenosis.An octogenarian with painless type A aortic dissection and cardiac tamponade.Extracellular volume fraction mapping at 3T with non-rigid image co-registration.A simple clinical model to predict presence of myocardial fibrosis in patients with aortic stenosis.Progression of Hypertrophy and Myocardial Fibrosis in Aortic Stenosis: A Multicenter Cardiac Magnetic Resonance Study.Asymmetric myocardial thickening in aortic stenosis.Reproducibility of T1 mapping 11-heart beat MOLLI SequenceLeft Ventricular Hypertrophy With Strain and Aortic StenosisCardioPulse: Settling scores with a failing heartInter-relationship between ageing, body mass index, diabetes, systemic blood pressure and intraocular pressure in Asians: 6-year longitudinal study.Free floating thrombus in the right heart causing pulmonary embolismParadoxical low-flow low-gradient aortic stenosis: advanced severe disease, a new entity or a progression of disease?
P50
Q26801333-ACA2CE5E-BF4E-4F29-9A46-D74309C348BCQ30430846-5E7BD943-5CDE-43EF-B91F-D4553C37FCCAQ30833466-DB54055D-6235-41FE-987C-2260D73D0C5DQ30835967-28BFF64B-95FC-4A27-90DF-E9BE20889E0AQ33166375-07F21446-3386-4201-B17A-F77D11DC8BBAQ33894813-452579D1-CD8D-4D16-9ACA-EAD0C7098B0EQ34145900-98867BAD-32EB-4E0C-8C07-D3A192E6DC75Q34231059-86E06588-FEA4-467A-A89B-44A51214F923Q36702231-91EC272D-8199-462D-A8FC-DE7C5FEDF785Q36793695-974F544B-84C8-455B-9B45-97F46ECA70D6Q37691774-7375E2D3-FF02-4762-AB36-6E53353579E4Q38056549-FA2E9B83-61B4-44AD-AF08-ED8D65BE49DAQ38135890-AE74BE63-EA7B-4324-8F20-5D3C76B5012CQ38215381-300FFF82-BB25-45E4-B1CE-229211D5624EQ38371573-34C5C184-C931-4DBB-A378-EE3BF23926DBQ38436566-84B33A08-C25D-4712-8D06-780C35DCF42DQ38729327-562518F3-1517-4BB7-9344-AD1E33221C02Q38743657-E4FA7FA9-2D7B-4685-A4C9-F1ED60697D3FQ38751207-311BFC82-BC96-4274-9F77-DB5F66DBF491Q44969601-DA327A6C-9BCD-44CF-B43D-87DF32E3FACBQ47096657-70CB87FC-9500-4AD7-814D-8773E8BEA479Q47155871-BD5BB5DE-6A40-4A9A-97A6-00FA1DD1C5E7Q47336482-D70B988B-A020-4D3B-AF0D-FA439AC86817Q47340269-2D46501A-841A-4615-8C69-511E3E13AFB4Q48229299-06FDEB69-FFB8-4B2C-9AD8-1EF3A13D3ECCQ48360264-FADA402A-7286-436C-899F-B18ABA7F209FQ49896857-4F09CED1-46F4-47E3-A1E8-A27049191E46Q52683141-15370337-8F5E-483B-9C2F-A63DD5927022Q52991181-8EA1BDEC-656B-4309-AFFA-795C9DF7B542Q53150775-28CAF802-8AA0-4A4E-8561-1833AD04E04FQ53684293-462D46A7-E542-4467-8271-DBB9E7DAA7D0Q54485280-DAA4AFE6-E9BD-40DD-A80B-FF5FC11BF9B1Q55661595-941E559E-BEE6-4542-AD49-DFEAC15D22C2Q55669587-8321BA8A-51D2-4DBA-8E19-15035E1D1FABQ57721087-A07504B1-2205-458C-B7B8-31DD1D6338C6Q57721102-E0518EDD-96CC-4308-AB88-D816FB560450Q61727655-BC152558-A482-4E42-80D9-380558157B00Q64970747-A7C629BE-AF84-4000-9D06-496BD78639B3Q83987041-0872B7AB-9587-4843-A85C-A9038703241BQ87333305-CC36CE0C-CBF1-4AF9-8BFF-86C73B2ADFA5
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Calvin Chin
@ast
Calvin Chin
@en
Calvin Chin
@es
Calvin Chin
@nl
type
label
Calvin Chin
@ast
Calvin Chin
@en
Calvin Chin
@es
Calvin Chin
@nl
prefLabel
Calvin Chin
@ast
Calvin Chin
@en
Calvin Chin
@es
Calvin Chin
@nl
P106
P1153
55221588500
P31
P496
0000-0002-9867-4390