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Category:Videos of cardiovascular anatomy

Pages in category "Category:Videos of cardiovascular anatomy"

• Category:Videos of heart (organ)
• File:31P-NMR-2D-Mapping-of-Creatine-Kinase-Forward-Flux-Rate-in-Hearts-with-Postinfarction-Left-pone.0162149.s001.ogv
• File:31P-NMR-2D-Mapping-of-Creatine-Kinase-Forward-Flux-Rate-in-Hearts-with-Postinfarction-Left-pone.0162149.s002.ogv
• File:A-Novel-Model-of-Intravital-Platelet-Imaging-Using-CD41-ZsGreen1-Transgenic-Rats-pone.0154661.s001.ogv
• File:A-Novel-Model-of-Intravital-Platelet-Imaging-Using-CD41-ZsGreen1-Transgenic-Rats-pone.0154661.s002.ogv
• File:A-Novel-Model-of-Intravital-Platelet-Imaging-Using-CD41-ZsGreen1-Transgenic-Rats-pone.0154661.s003.ogv
• File:A-Novel-Mouse-Segmentation-Method-Based-on-Dynamic-Contrast-Enhanced-Micro-CT-Images-pone.0169424.s001.ogv
• File:A-Novel-Mouse-Segmentation-Method-Based-on-Dynamic-Contrast-Enhanced-Micro-CT-Images-pone.0169424.s002.ogv
• File:A-Novel-Mouse-Segmentation-Method-Based-on-Dynamic-Contrast-Enhanced-Micro-CT-Images-pone.0169424.s003.ogv
• File:A-Three-Dimensional-Human-Atrial-Model-with-Fiber-Orientation.-Electrograms-and-Arrhythmic-pone.0050883.s001.ogv
• File:A-Three-Dimensional-Human-Atrial-Model-with-Fiber-Orientation.-Electrograms-and-Arrhythmic-pone.0050883.s002.ogv
• File:A-Three-Dimensional-Human-Atrial-Model-with-Fiber-Orientation.-Electrograms-and-Arrhythmic-pone.0050883.s003.ogv
• File:A-Three-Dimensional-Human-Atrial-Model-with-Fiber-Orientation.-Electrograms-and-Arrhythmic-pone.0050883.s004.ogv
• File:A-Tubular-Biomaterial-Construct-Exhibiting-a-Negative-Poissons-Ratio-pone.0155681.s001.ogv
• File:A-Tubular-Biomaterial-Construct-Exhibiting-a-Negative-Poissons-Ratio-pone.0155681.s002.ogv
• File:Adherence-of-Staphylococcus-aureus-to-Dyneema-Purity®-Patches-and-to-Clinically-Used-Cardiovascular-pone.0162216.s001.ogv
• File:Adherence-of-Staphylococcus-aureus-to-Dyneema-Purity®-Patches-and-to-Clinically-Used-Cardiovascular-pone.0162216.s002.ogv
• File:Adherence-of-Staphylococcus-aureus-to-Dyneema-Purity®-Patches-and-to-Clinically-Used-Cardiovascular-pone.0162216.s003.ogv
• File:Calcific-Aortic-Valve-Disease-Is-Associated-with-Layer-Specific-Alterations-in-Collagen-Architecture-pone.0163858.s004.ogv
• File:Calcific-Aortic-Valve-Disease-Is-Associated-with-Layer-Specific-Alterations-in-Collagen-Architecture-pone.0163858.s005.ogv
• File:Calcific-Aortic-Valve-Disease-Is-Associated-with-Layer-Specific-Alterations-in-Collagen-Architecture-pone.0163858.s006.ogv
• File:Cathepsin-Activity-Based-Probes-and-Inhibitor-for-Preclinical-Atherosclerosis-Imaging-and-pone.0160522.s002.ogv
• File:Cathepsin-Activity-Based-Probes-and-Inhibitor-for-Preclinical-Atherosclerosis-Imaging-and-pone.0160522.s003.ogv
• File:Cellular-Basis-of-Pineal-Gland-Development-Emerging-Role-of-Microglia-as-Phenotype-Regulator-pone.0167063.s003.ogv
• File:Cellular-Basis-of-Pineal-Gland-Development-Emerging-Role-of-Microglia-as-Phenotype-Regulator-pone.0167063.s004.ogv
• File:Cellular-Basis-of-Pineal-Gland-Development-Emerging-Role-of-Microglia-as-Phenotype-Regulator-pone.0167063.s005.ogv
• File:Cellular-Basis-of-Pineal-Gland-Development-Emerging-Role-of-Microglia-as-Phenotype-Regulator-pone.0167063.s006.ogv
• File:Chronic-High-Fat-Diet-Impairs-Collecting-Lymphatic-Vessel-Function-in-Mice-pone.0094713.s003.ogv
• File:Chronic-High-Fat-Diet-Impairs-Collecting-Lymphatic-Vessel-Function-in-Mice-pone.0094713.s004.ogv
• File:Chronic-High-Fat-Diet-Impairs-Collecting-Lymphatic-Vessel-Function-in-Mice-pone.0094713.s005.ogv
• File:Chronic-High-Fat-Diet-Impairs-Collecting-Lymphatic-Vessel-Function-in-Mice-pone.0094713.s006.ogv
• File:Computational-Investigation-of-Cerebrospinal-Fluid-Dynamics-in-the-Posterior-Cranial-Fossa-and-pone.0162938.s002.ogv
• File:Contribution-of-the-Arterial-System-and-the-Heart-to-Blood-Pressure-during-Normal-Aging-–-A-pone.0157493.s001.ogv
• File:Creating-High-Resolution-Multiscale-Maps-of-Human-Tissue-Using-Multi-beam-SEM-pcbi.1005217.s004.ogv
• File:Creating-High-Resolution-Multiscale-Maps-of-Human-Tissue-Using-Multi-beam-SEM-pcbi.1005217.s005.ogv
• File:Creating-High-Resolution-Multiscale-Maps-of-Human-Tissue-Using-Multi-beam-SEM-pcbi.1005217.s006.ogv
• File:Critical-Transitions-in-Early-Embryonic-Aortic-Arch-Patterning-and-Hemodynamics-pone.0060271.s009.ogv
• File:Cyp26-Enzymes-Facilitate-Second-Heart-Field-Progenitor-Addition-and-Maintenance-of-Ventricular-pbio.2000504.s013.ogv
• File:Cyp26-Enzymes-Facilitate-Second-Heart-Field-Progenitor-Addition-and-Maintenance-of-Ventricular-pbio.2000504.s014.ogv
• File:Deeper-Penetration-of-Erythrocytes-into-the-Endothelial-Glycocalyx-Is-Associated-with-Impaired-pone.0096477.s001.ogv
• File:Deeper-Penetration-of-Erythrocytes-into-the-Endothelial-Glycocalyx-Is-Associated-with-Impaired-pone.0096477.s002.ogv
• File:Development-of-the-Hearts-of-Lizards-and-Snakes-and-Perspectives-to-Cardiac-Evolution-pone.0063651.s010.ogv
• File:Development-of-the-Hearts-of-Lizards-and-Snakes-and-Perspectives-to-Cardiac-Evolution-pone.0063651.s011.ogv
• File:Development-of-the-Hearts-of-Lizards-and-Snakes-and-Perspectives-to-Cardiac-Evolution-pone.0063651.s012.ogv
• File:Development-of-the-Hearts-of-Lizards-and-Snakes-and-Perspectives-to-Cardiac-Evolution-pone.0063651.s013.ogv
• File:Development-of-the-Hearts-of-Lizards-and-Snakes-and-Perspectives-to-Cardiac-Evolution-pone.0063651.s014.ogv
• File:Development-of-the-Hearts-of-Lizards-and-Snakes-and-Perspectives-to-Cardiac-Evolution-pone.0063651.s015.ogv
• File:Distinct-Contributions-of-Astrocytes-and-Pericytes-to-Neuroinflammation-Identified-in-a-3D-Human-pone.0150360.s006.ogv
• File:Distinct-Contributions-of-Astrocytes-and-Pericytes-to-Neuroinflammation-Identified-in-a-3D-Human-pone.0150360.s007.ogv
• File:Distinctive-Left-Sided-Distribution-of-Adrenergic-Derived-Cells-in-the-Adult-Mouse-Heart-pone.0022811.s001.ogv
• File:Distinctive-Left-Sided-Distribution-of-Adrenergic-Derived-Cells-in-the-Adult-Mouse-Heart-pone.0022811.s002.ogv
• File:Endocannabinoids-Control-Platelet-Activation-and-Limit-Aggregate-Formation-under-Flow-pone.0108282.s002.ogv
• File:Endocannabinoids-Control-Platelet-Activation-and-Limit-Aggregate-Formation-under-Flow-pone.0108282.s003.ogv
• File:Evidence-of-Flicker-Induced-Functional-Hyperaemia-in-the-Smallest-Vessels-of-the-Human-Retinal-pone.0162621.s001.ogv
• File:Ex-Vivo-Lung-Perfusion-in-the-Rat-Detailed-Procedure-and-Videos-pone.0167898.s002.ogv
• File:Ex-Vivo-Lung-Perfusion-in-the-Rat-Detailed-Procedure-and-Videos-pone.0167898.s003.ogv
• File:Ex-Vivo-Lung-Perfusion-in-the-Rat-Detailed-Procedure-and-Videos-pone.0167898.s004.ogv
• File:Ex-Vivo-Lung-Perfusion-in-the-Rat-Detailed-Procedure-and-Videos-pone.0167898.s005.ogv
• File:Ex-Vivo-Lung-Perfusion-in-the-Rat-Detailed-Procedure-and-Videos-pone.0167898.s006.ogv
• File:Ex-Vivo-Lung-Perfusion-in-the-Rat-Detailed-Procedure-and-Videos-pone.0167898.s007.ogv
• File:Fetuin-A-and-Albumin-Alter-Cytotoxic-Effects-of-Calcium-Phosphate-Nanoparticles-on-Human-Vascular-pone.0097565.s007.ogv
• File:Hemodynamic-Forces-Regulate-Developmental-Patterning-of-Atrial-Conduction-pone.0115207.s004.ogv
• File:Hemodynamic-Forces-Regulate-Developmental-Patterning-of-Atrial-Conduction-pone.0115207.s005.ogv
• File:Hemodynamic-Forces-Regulate-Developmental-Patterning-of-Atrial-Conduction-pone.0115207.s006.ogv
• File:Identification-of-Inter-Organ-Vascular-Network-Vessels-Bridging-between-Organs-pone.0065720.s002.ogv
• File:Identification-of-Inter-Organ-Vascular-Network-Vessels-Bridging-between-Organs-pone.0065720.s003.ogv
• File:Identification-of-Inter-Organ-Vascular-Network-Vessels-Bridging-between-Organs-pone.0065720.s004.ogv
• File:Identification-of-Inter-Organ-Vascular-Network-Vessels-Bridging-between-Organs-pone.0065720.s005.ogv
• File:In-Vitro-Shear-Stress-Measurements-Using-Particle-Image-Velocimetry-in-a-Family-of-Carotid-Artery-pone.0098209.s005.ogv
• File:In-Vivo-Quantitative-Microcomputed-Tomographic-Analysis-of-Vasculature-and-Organs-in-a-Normal-and-pone.0150085.s002.ogv
• File:In-Vivo-Quantitative-Microcomputed-Tomographic-Analysis-of-Vasculature-and-Organs-in-a-Normal-and-pone.0150085.s003.ogv
• File:In-Vivo-Quantitative-Microcomputed-Tomographic-Analysis-of-Vasculature-and-Organs-in-a-Normal-and-pone.0150085.s004.ogv
• File:In-Vivo-Quantitative-Microcomputed-Tomographic-Analysis-of-Vasculature-and-Organs-in-a-Normal-and-pone.0150085.s005.ogv
• File:In-Vivo-Quantitative-Microcomputed-Tomographic-Analysis-of-Vasculature-and-Organs-in-a-Normal-and-pone.0150085.s006.ogv
• File:In-Vivo-Quantitative-Microcomputed-Tomographic-Analysis-of-Vasculature-and-Organs-in-a-Normal-and-pone.0150085.s007.ogv
• File:In-Vivo-Quantitative-Microcomputed-Tomographic-Analysis-of-Vasculature-and-Organs-in-a-Normal-and-pone.0150085.s008.ogv
• File:Increased-Echogenicity-and-Radiodense-Foci-on-Echocardiogram-and-MicroCT-in-Murine-Myocarditis-pone.0159971.s002.ogv
• File:Increased-Echogenicity-and-Radiodense-Foci-on-Echocardiogram-and-MicroCT-in-Murine-Myocarditis-pone.0159971.s003.ogv
• File:Increased-Echogenicity-and-Radiodense-Foci-on-Echocardiogram-and-MicroCT-in-Murine-Myocarditis-pone.0159971.s004.ogv
• File:Increased-Echogenicity-and-Radiodense-Foci-on-Echocardiogram-and-MicroCT-in-Murine-Myocarditis-pone.0159971.s005.ogv
• File:Increased-Echogenicity-and-Radiodense-Foci-on-Echocardiogram-and-MicroCT-in-Murine-Myocarditis-pone.0159971.s006.ogv
• File:Increased-Echogenicity-and-Radiodense-Foci-on-Echocardiogram-and-MicroCT-in-Murine-Myocarditis-pone.0159971.s007.ogv
• File:Increased-Echogenicity-and-Radiodense-Foci-on-Echocardiogram-and-MicroCT-in-Murine-Myocarditis-pone.0159971.s008.ogv
• File:Increased-Echogenicity-and-Radiodense-Foci-on-Echocardiogram-and-MicroCT-in-Murine-Myocarditis-pone.0159971.s009.ogv
• File:Increased-Echogenicity-and-Radiodense-Foci-on-Echocardiogram-and-MicroCT-in-Murine-Myocarditis-pone.0159971.s010.ogv
• File:Increased-Echogenicity-and-Radiodense-Foci-on-Echocardiogram-and-MicroCT-in-Murine-Myocarditis-pone.0159971.s011.ogv
• File:Increased-Echogenicity-and-Radiodense-Foci-on-Echocardiogram-and-MicroCT-in-Murine-Myocarditis-pone.0159971.s012.ogv
• File:Increased-Echogenicity-and-Radiodense-Foci-on-Echocardiogram-and-MicroCT-in-Murine-Myocarditis-pone.0159971.s013.ogv
• File:Increased-Echogenicity-and-Radiodense-Foci-on-Echocardiogram-and-MicroCT-in-Murine-Myocarditis-pone.0159971.s014.ogv
• File:Indian-Ink-Perfusion-Based-Method-for-Reconstructing-Continuous-Vascular-Networks-in-Whole-Mouse-pone.0088067.s005.ogv
• File:Indian-Ink-Perfusion-Based-Method-for-Reconstructing-Continuous-Vascular-Networks-in-Whole-Mouse-pone.0088067.s006.ogv
• File:Indian-Ink-Perfusion-Based-Method-for-Reconstructing-Continuous-Vascular-Networks-in-Whole-Mouse-pone.0088067.s007.ogv
• File:Inhibition-of-the-Unfolded-Protein-Response-Mechanism-Prevents-Cardiac-Fibrosis-pone.0159682.s006.ogv
• File:Modeling-Electrophysiological-Coupling-and-Fusion-between-Human-Mesenchymal-Stem-Cells-and-pcbi.1005014.s015.ogv
• File:Modeling-Electrophysiological-Coupling-and-Fusion-between-Human-Mesenchymal-Stem-Cells-and-pcbi.1005014.s016.ogv
• File:Modeling-Electrophysiological-Coupling-and-Fusion-between-Human-Mesenchymal-Stem-Cells-and-pcbi.1005014.s017.ogv
• File:Modeling-Electrophysiological-Coupling-and-Fusion-between-Human-Mesenchymal-Stem-Cells-and-pcbi.1005014.s018.ogv
• File:New-Strategies-for-Echocardiographic-Evaluation-of-Left-Ventricular-Function-in-a-Mouse-Model-of-pone.0041691.s005.ogv
• File:New-Strategies-for-Echocardiographic-Evaluation-of-Left-Ventricular-Function-in-a-Mouse-Model-of-pone.0041691.s006.ogv
• File:New-Strategies-for-Echocardiographic-Evaluation-of-Left-Ventricular-Function-in-a-Mouse-Model-of-pone.0041691.s007.ogv
• File:New-Strategies-for-Echocardiographic-Evaluation-of-Left-Ventricular-Function-in-a-Mouse-Model-of-pone.0041691.s008.ogv
• File:New-Strategies-for-Echocardiographic-Evaluation-of-Left-Ventricular-Function-in-a-Mouse-Model-of-pone.0041691.s009.ogv
• File:New-Strategies-for-Echocardiographic-Evaluation-of-Left-Ventricular-Function-in-a-Mouse-Model-of-pone.0041691.s010.ogv
• File:New-Strategies-for-Echocardiographic-Evaluation-of-Left-Ventricular-Function-in-a-Mouse-Model-of-pone.0041691.s011.ogv
• File:New-Strategies-for-Echocardiographic-Evaluation-of-Left-Ventricular-Function-in-a-Mouse-Model-of-pone.0041691.s012.ogv
• File:Optimization-of-Liver-Decellularization-Maintains-Extracellular-Matrix-Micro-Architecture-and-pone.0155324.s002.ogv
• File:Optimization-of-Liver-Decellularization-Maintains-Extracellular-Matrix-Micro-Architecture-and-pone.0155324.s003.ogv
• File:Optimization-of-Liver-Decellularization-Maintains-Extracellular-Matrix-Micro-Architecture-and-pone.0155324.s004.ogv
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