# | Title | Journal | Year | Citations |
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1 | Metabolic syndrome update | Trends in Cardiovascular Medicine | 2016 | 576 |
2 | Monocyte-Endothelial Cell Interactions in the Development of Atherosclerosis | Trends in Cardiovascular Medicine | 2008 | 455 |
3 | PPAR Signaling in the Control of Cardiac Energy Metabolism | Trends in Cardiovascular Medicine | 2000 | 440 |
4 | The Reperfusion Injury Salvage Kinase Pathway: A Common Target for Both Ischemic Preconditioning and Postconditioning | Trends in Cardiovascular Medicine | 2005 | 395 |
5 | The Oxidative Modification Hypothesis of Atherosclerosis Does It Hold for Humans? | Trends in Cardiovascular Medicine | 2001 | 373 |
6 | Vascular calcification: Mechanisms of vascular smooth muscle cell calcification | Trends in Cardiovascular Medicine | 2015 | 331 |
7 | Angiogenesis and Bone Growth | Trends in Cardiovascular Medicine | 2000 | 321 |
8 | Cellular Basis of Triggered Arrhythmias in Heart Failure | Trends in Cardiovascular Medicine | 2004 | 310 |
9 | The Neuropilins Multifunctional Semaphorin and VEGF Receptors that Modulate Axon Guidance and Angiogenesis | Trends in Cardiovascular Medicine | 2002 | 308 |
10 | Controlling the Angiogenic SwitchA Balance between Two Distinct TGF-b Receptor Signaling Pathways | Trends in Cardiovascular Medicine | 2003 | 302 |
11 | Cardiovascular toxicity of nicotine: Implications for electronic cigarette use | Trends in Cardiovascular Medicine | 2016 | 301 |
12 | Homing to Hypoxia: HIF-1 as a Mediator of Progenitor Cell Recruitment to Injured Tissue | Trends in Cardiovascular Medicine | 2005 | 297 |
13 | The Role of Angiopoietin-Like Proteins in Angiogenesis and Metabolism | Trends in Cardiovascular Medicine | 2008 | 291 |
14 | Basic Mechanisms of Oxidative Stress and Reactive Oxygen Species in Cardiovascular Injury | Trends in Cardiovascular Medicine | 2007 | 282 |
15 | Blood pressure and the new ACC/AHA hypertension guidelines | Trends in Cardiovascular Medicine | 2020 | 274 |
16 | Two-Way Interactions Between Inflammation and Coagulation | Trends in Cardiovascular Medicine | 2005 | 267 |
17 | Brain-Derived Neurotrophic Factor: A Newly Described Mediator of Angiogenesis | Trends in Cardiovascular Medicine | 2007 | 263 |
18 | Current Status of Acrolein as a Lipid Peroxidation Product | Trends in Cardiovascular Medicine | 1999 | 259 |
19 | Plant-based diets and cardiovascular health | Trends in Cardiovascular Medicine | 2018 | 256 |
20 | COVID-19 – A vascular disease | Trends in Cardiovascular Medicine | 2021 | 254 |
21 | Regulation of Weibel–Palade Body Exocytosis | Trends in Cardiovascular Medicine | 2005 | 239 |
22 | The Role of ACE2 in Cardiovascular Physiology | Trends in Cardiovascular Medicine | 2003 | 232 |
23 | Endothelial Progenitor Cells | Trends in Cardiovascular Medicine | 2004 | 231 |
24 | Reactive Oxygen Species as Mediators of Signal Transduction in Cardiovascular Disease | Trends in Cardiovascular Medicine | 1998 | 227 |
25 | Cardiac HCN Channels Structure, Function, and Modulation | Trends in Cardiovascular Medicine | 2002 | 224 |
26 | Regulation of Angiogenesis by Eph–Ephrin Interactions | Trends in Cardiovascular Medicine | 2007 | 223 |
27 | Omentin: A Novel Link Between Inflammation, Diabesity, and Cardiovascular Disease | Trends in Cardiovascular Medicine | 2010 | 219 |
28 | Atrial remodeling, fibrosis, and atrial fibrillation | Trends in Cardiovascular Medicine | 2015 | 218 |
29 | Mesp1 Expression Is the Earliest Sign of Cardiovascular Development | Trends in Cardiovascular Medicine | 2000 | 212 |
30 | Cardiac amyloidosis: An update on pathophysiology, diagnosis, and treatment | Trends in Cardiovascular Medicine | 2018 | 211 |
31 | Cardioprotection by Adiponectin | Trends in Cardiovascular Medicine | 2006 | 207 |
32 | Endothelial Progenitor Cells Isolation and Characterization | Trends in Cardiovascular Medicine | 2003 | 203 |
33 | Cardiac Aging in Mice and Humans: The Role of Mitochondrial Oxidative Stress | Trends in Cardiovascular Medicine | 2009 | 197 |
34 | Desmin Cytoskeleton A Potential Regulator of Muscle Mitochondrial Behavior and Function | Trends in Cardiovascular Medicine | 2002 | 196 |
35 | Role of Platelets in the Development of Atherosclerosis | Trends in Cardiovascular Medicine | 2004 | 195 |
36 | Regulation of G Protein-Coupled Receptor Kinases | Trends in Cardiovascular Medicine | 2000 | 194 |
37 | Polycystic ovary syndrome and cardiometabolic risk: Opportunities for cardiovascular disease prevention | Trends in Cardiovascular Medicine | 2020 | 191 |
38 | Role of the JAK–STAT Pathway in Protection Against Myocardial Ischemia/Reperfusion Injury | Trends in Cardiovascular Medicine | 2003 | 189 |
39 | The Lymphatics Revisited New Perspectives from the Hyaluronan Receptor LYVE-1 | Trends in Cardiovascular Medicine | 2003 | 188 |
40 | Metalloproteinases and Vulnerable Atherosclerotic Plaques | Trends in Cardiovascular Medicine | 2007 | 186 |
41 | Cardiac Sodium Channel Overlap Syndromes: Different Faces of SCN5A Mutations | Trends in Cardiovascular Medicine | 2008 | 182 |
42 | Vascular Endothelial Growth Factor and Angiopoietins in Focal Cerebral Ischemia | Trends in Cardiovascular Medicine | 2002 | 177 |
43 | Human Urotensin-II, the Most Potent Mammalian Vasoconstrictor Identified To Date, as a Therapeutic Target for the Management of Cardiovascular Disease | Trends in Cardiovascular Medicine | 2000 | 173 |
44 | Lipoxygenase Pathways in Atherogenesis | Trends in Cardiovascular Medicine | 2004 | 173 |
45 | Tetrahydrobiopterin | Trends in Cardiovascular Medicine | 2004 | 173 |
46 | The Effects of Altered Apolipoprotein A-I Structure on Plasma HDL Concentration | Trends in Cardiovascular Medicine | 2002 | 172 |
47 | Endothelial Glycocalyx: Sweet Shield of Blood Vessels | Trends in Cardiovascular Medicine | 2007 | 170 |
48 | Vascular Progenitors From Biology to Treatment | Trends in Cardiovascular Medicine | 2002 | 168 |
49 | The role of cardiac rehabilitation in patients with heart disease | Trends in Cardiovascular Medicine | 2017 | 168 |
50 | Oxidized LDL-Induced Injury and Apoptosis in Atherosclerosis Potential Roles for Oxysterols | Trends in Cardiovascular Medicine | 2001 | 167 |