Category:Videos of blood vessels

Subcategories

This category has the following 3 subcategories, out of 3 total.

Media in category "Videos of blood vessels"

The following 183 files are in this category, out of 183 total.

• A-Functional-Requirement-for-Astroglia-in-Promoting-Blood-Vessel-Development-in-the-Early-Postnatal-pone.0048001.s008.ogv 24 s, 854 × 480; 602 KB
  
• A-Functional-Requirement-for-Astroglia-in-Promoting-Blood-Vessel-Development-in-the-Early-Postnatal-pone.0048001.s009.ogv 24 s, 854 × 480; 447 KB
  
• A-Novel-Model-of-Intravital-Platelet-Imaging-Using-CD41-ZsGreen1-Transgenic-Rats-pone.0154661.s001.ogv 12 s, 400 × 400; 2.89 MB
  
• A-Novel-Model-of-Intravital-Platelet-Imaging-Using-CD41-ZsGreen1-Transgenic-Rats-pone.0154661.s002.ogv 25 s, 1,024 × 348; 3.32 MB
  
• A-Novel-Model-of-Intravital-Platelet-Imaging-Using-CD41-ZsGreen1-Transgenic-Rats-pone.0154661.s003.ogv 25 s, 1,024 × 348; 359 KB
  
• A-Tubular-Biomaterial-Construct-Exhibiting-a-Negative-Poissons-Ratio-pone.0155681.s001.ogv 30 s, 640 × 480; 1.53 MB
  
• A-Tubular-Biomaterial-Construct-Exhibiting-a-Negative-Poissons-Ratio-pone.0155681.s002.ogv 22 s, 640 × 480; 1.63 MB
  
• A-Validated-Multiscale-In-Silico-Model-for-Mechano-sensitive-Tumour-Angiogenesis-and-Growth-pcbi.1005259.s008.ogv 12 s, 1,488 × 832; 8.15 MB
  
• A-Validated-Multiscale-In-Silico-Model-for-Mechano-sensitive-Tumour-Angiogenesis-and-Growth-pcbi.1005259.s009.ogv 12 s, 1,488 × 832; 6.9 MB
  
• A-Validated-Multiscale-In-Silico-Model-for-Mechano-sensitive-Tumour-Angiogenesis-and-Growth-pcbi.1005259.s010.ogv 12 s, 1,488 × 832; 7.95 MB
  
• A-Validated-Multiscale-In-Silico-Model-for-Mechano-sensitive-Tumour-Angiogenesis-and-Growth-pcbi.1005259.s011.ogv 12 s, 1,488 × 832; 8.69 MB
  
• A-Validated-Multiscale-In-Silico-Model-for-Mechano-sensitive-Tumour-Angiogenesis-and-Growth-pcbi.1005259.s012.ogv 12 s, 1,488 × 832; 7.05 MB
  
• A-Validated-Multiscale-In-Silico-Model-for-Mechano-sensitive-Tumour-Angiogenesis-and-Growth-pcbi.1005259.s013.ogv 12 s, 1,488 × 832; 10.69 MB
  
• A-Validated-Multiscale-In-Silico-Model-for-Mechano-sensitive-Tumour-Angiogenesis-and-Growth-pcbi.1005259.s014.ogv 12 s, 1,488 × 832; 11.64 MB
  
• A-Validated-Multiscale-In-Silico-Model-for-Mechano-sensitive-Tumour-Angiogenesis-and-Growth-pcbi.1005259.s015.ogv 12 s, 1,488 × 832; 8.89 MB
  
• A-Validated-Multiscale-In-Silico-Model-for-Mechano-sensitive-Tumour-Angiogenesis-and-Growth-pcbi.1005259.s016.ogv 12 s, 1,488 × 832; 8.84 MB
  
• A-Validated-Multiscale-In-Silico-Model-for-Mechano-sensitive-Tumour-Angiogenesis-and-Growth-pcbi.1005259.s017.ogv 12 s, 1,920 × 1,004; 9.7 MB
  
• A-Validated-Multiscale-In-Silico-Model-for-Mechano-sensitive-Tumour-Angiogenesis-and-Growth-pcbi.1005259.s018.ogv 12 s, 1,920 × 1,004; 9.71 MB
  
• A-Validated-Multiscale-In-Silico-Model-for-Mechano-sensitive-Tumour-Angiogenesis-and-Growth-pcbi.1005259.s019.ogv 12 s, 1,920 × 1,004; 9.17 MB
  
• A-Validated-Multiscale-In-Silico-Model-for-Mechano-sensitive-Tumour-Angiogenesis-and-Growth-pcbi.1005259.s020.ogv 12 s, 1,920 × 1,004; 9.2 MB
  
• An-unusual-case-of-ST-segment-elevation-myocardial-infarction-following-a-late-bare-metal-stent-1752-1947-3-9296-S1.ogv 4.7 s, 620 × 620; 892 KB
  
• Anti-Inflammatory-and-Anti-Thrombotic-Effects-of-the-Fungal-Metabolite-Galiellalactone-in-pone.0130401.s004.ogv 3.2 s, 632 × 464; 1.12 MB
  
• Cathepsin-Activity-Based-Probes-and-Inhibitor-for-Preclinical-Atherosclerosis-Imaging-and-pone.0160522.s002.ogv 10 s, 640 × 480; 443 KB
  
• Cathepsin-Activity-Based-Probes-and-Inhibitor-for-Preclinical-Atherosclerosis-Imaging-and-pone.0160522.s003.ogv 10 s, 640 × 480; 443 KB
  
• Cellular-Basis-of-Pineal-Gland-Development-Emerging-Role-of-Microglia-as-Phenotype-Regulator-pone.0167063.s003.ogv 59 s, 1,280 × 720; 3.27 MB
  
• Cellular-Basis-of-Pineal-Gland-Development-Emerging-Role-of-Microglia-as-Phenotype-Regulator-pone.0167063.s004.ogv 41 s, 1,920 × 1,080; 2.76 MB
  
• Cellular-Basis-of-Pineal-Gland-Development-Emerging-Role-of-Microglia-as-Phenotype-Regulator-pone.0167063.s005.ogv 1 min 5 s, 1,280 × 720; 4.06 MB
  
• Cellular-Basis-of-Pineal-Gland-Development-Emerging-Role-of-Microglia-as-Phenotype-Regulator-pone.0167063.s006.ogv 32 s, 1,920 × 1,080; 4.55 MB
  
• Comprehensive-4D-velocity-mapping-of-the-heart-and-great-vessels-by-cardiovascular-magnetic-1532-429X-13-7-S1.ogv 2.0 s, 764 × 856; 1.12 MB
  
• Comprehensive-4D-velocity-mapping-of-the-heart-and-great-vessels-by-cardiovascular-magnetic-1532-429X-13-7-S2.ogv 2.9 s, 798 × 856; 1.48 MB
  
• Comprehensive-4D-velocity-mapping-of-the-heart-and-great-vessels-by-cardiovascular-magnetic-1532-429X-13-7-S3.ogv 20 s, 1,280 × 720; 8.71 MB
  
• Comprehensive-4D-velocity-mapping-of-the-heart-and-great-vessels-by-cardiovascular-magnetic-1532-429X-13-7-S4.ogv 15 s, 1,280 × 960; 10.59 MB
  
• Comprehensive-4D-velocity-mapping-of-the-heart-and-great-vessels-by-cardiovascular-magnetic-1532-429X-13-7-S5.ogv 4.0 s, 624 × 530; 2.45 MB
  
• Comprehensive-4D-velocity-mapping-of-the-heart-and-great-vessels-by-cardiovascular-magnetic-1532-429X-13-7-S6.ogv 16 s, 1,208 × 680; 7.82 MB
  
• Comprehensive-4D-velocity-mapping-of-the-heart-and-great-vessels-by-cardiovascular-magnetic-1532-429X-13-7-S7.ogv 1.9 s, 1,280 × 960; 101 KB
  
• Comprehensive-4D-velocity-mapping-of-the-heart-and-great-vessels-by-cardiovascular-magnetic-1532-429X-13-7-S8.ogv 9.4 s, 1,280 × 960; 2.01 MB
  
• Confocal microscopy of blood flow in a pruned and an adjacent unpruned vessel - journal.pbio.1001374.s023.mov.ogv 25 s, 54 × 72; 89 KB
  
• Confocal microscopy of midbrain vasculature and neural tissue of a 3-dpf zebrafish larva - journal.pbio.1001374.s019.mov.ogv 17 s, 1,024 × 750; 1.36 MB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s005.ogv 16 s, 480 × 480; 4.04 MB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s006.ogv 40 s, 480 × 480; 9.04 MB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s007.ogv 16 s, 480 × 480; 4.96 MB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s008.ogv 40 s, 480 × 480; 4.43 MB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s009.ogv 16 s, 480 × 480; 2.95 MB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s010.ogv 16 s, 480 × 480; 1.12 MB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s011.ogv 8.0 s, 200 × 200; 359 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s012.ogv 8.0 s, 200 × 200; 340 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s013.ogv 8.0 s, 200 × 200; 347 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s014.ogv 8.0 s, 200 × 200; 332 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s015.ogv 8.0 s, 200 × 200; 340 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s016.ogv 8.0 s, 200 × 200; 335 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s017.ogv 8.0 s, 200 × 200; 342 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s018.ogv 8.0 s, 200 × 200; 330 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s019.ogv 8.0 s, 200 × 200; 196 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s020.ogv 8.0 s, 200 × 200; 283 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s021.ogv 8.0 s, 200 × 200; 268 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s022.ogv 8.0 s, 200 × 200; 262 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s023.ogv 8.0 s, 200 × 200; 233 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s024.ogv 8.0 s, 200 × 200; 224 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s025.ogv 8.0 s, 200 × 200; 211 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s026.ogv 8.0 s, 200 × 200; 196 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s027.ogv 8.0 s, 200 × 200; 115 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s028.ogv 8.0 s, 200 × 200; 331 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s029.ogv 8.0 s, 200 × 200; 416 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s030.ogv 8.0 s, 200 × 200; 475 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s031.ogv 8.0 s, 200 × 200; 534 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s032.ogv 8.0 s, 200 × 200; 564 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s033.ogv 8.0 s, 200 × 200; 587 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s034.ogv 8.0 s, 200 × 200; 593 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s035.ogv 8.0 s, 200 × 200; 609 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s036.ogv 8.0 s, 200 × 200; 621 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s037.ogv 8.0 s, 200 × 200; 624 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s038.ogv 8.0 s, 200 × 200; 333 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s039.ogv 8.0 s, 200 × 200; 294 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s040.ogv 8.0 s, 200 × 200; 209 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s041.ogv 8.0 s, 200 × 200; 110 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s042.ogv 8.0 s, 200 × 200; 100 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s043.ogv 8.0 s, 200 × 200; 100 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s044.ogv 8.0 s, 200 × 200; 1.42 MB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s045.ogv 8.0 s, 200 × 200; 533 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s046.ogv 8.0 s, 200 × 200; 321 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s047.ogv 8.0 s, 200 × 200; 253 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s049.ogv 8.0 s, 200 × 200; 189 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s050.ogv 8.0 s, 200 × 200; 162 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s051.ogv 8.0 s, 400 × 400; 4.21 MB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s052.ogv 8.0 s, 400 × 400; 1.75 MB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s053.ogv 8.0 s, 400 × 400; 1.41 MB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s054.ogv 8.0 s, 400 × 400; 1.21 MB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s055.ogv 8.0 s, 400 × 400; 1.07 MB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s056.ogv 8.0 s, 400 × 400; 1.04 MB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s057.ogv 8.0 s, 400 × 400; 1,001 KB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s058.ogv 20 s, 480 × 480; 3.03 MB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s059.ogv 20 s, 480 × 480; 3.53 MB
  
• Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s060.ogv 20 s, 480 × 480; 3.26 MB
  
• Contrast-enhanced-sonography-as-a-novel-tool-for-assessment-of-vascular-malformations-2040-2384-2-25-S1.ogv 1.3 s, 312 × 240; 93 KB
  
• Contrast-enhanced-sonography-as-a-novel-tool-for-assessment-of-vascular-malformations-2040-2384-2-25-S2.ogv 6.4 s, 312 × 240; 534 KB
  
• Creating-High-Resolution-Multiscale-Maps-of-Human-Tissue-Using-Multi-beam-SEM-pcbi.1005217.s004.ogv 5.0 s, 1,000 × 1,149; 5.71 MB
  
• Creating-High-Resolution-Multiscale-Maps-of-Human-Tissue-Using-Multi-beam-SEM-pcbi.1005217.s005.ogv 4.2 s, 742 × 980; 12.66 MB
  
• Creating-High-Resolution-Multiscale-Maps-of-Human-Tissue-Using-Multi-beam-SEM-pcbi.1005217.s006.ogv 5.0 s, 750 × 652; 24.87 MB
  
• Cyp26-Enzymes-Facilitate-Second-Heart-Field-Progenitor-Addition-and-Maintenance-of-Ventricular-pbio.2000504.s013.ogv 5.2 s, 640 × 360; 303 KB
  
• Cyp26-Enzymes-Facilitate-Second-Heart-Field-Progenitor-Addition-and-Maintenance-of-Ventricular-pbio.2000504.s014.ogv 5.2 s, 640 × 360; 293 KB
  
• Diversified-Expression-of-NG2CSPG4-Isoforms-in-Glioblastoma-and-Human-Foetal-Brain-Identifies-pone.0084883.s008.ogv 23 s, 1,024 × 1,024; 1.75 MB
  
• Dynamic-Analysis-of-Vascular-Morphogenesis-Using-Transgenic-Quail-Embryos-pone.0012674.s001.ogv 28 s, 710 × 950; 43.77 MB
  
• Dynamic-Analysis-of-Vascular-Morphogenesis-Using-Transgenic-Quail-Embryos-pone.0012674.s002.ogv 4.6 s, 548 × 950; 3.63 MB
  
• Dynamic-Analysis-of-Vascular-Morphogenesis-Using-Transgenic-Quail-Embryos-pone.0012674.s003.ogv 4.6 s, 1,000 × 950; 7.08 MB
  
• Dynamic-Analysis-of-Vascular-Morphogenesis-Using-Transgenic-Quail-Embryos-pone.0012674.s006.ogv 5.4 s, 1,200 × 1,000; 26.49 MB
  
• Dynamic-Analysis-of-Vascular-Morphogenesis-Using-Transgenic-Quail-Embryos-pone.0012674.s009.ogv 7.5 s, 1,372 × 700; 4.13 MB
  
• Dynamic-Analysis-of-Vascular-Morphogenesis-Using-Transgenic-Quail-Embryos-pone.0012674.s010.ogv 6.8 s, 850 × 500; 1.28 MB
  
• Endothelial-Cell-Self-fusion-during-Vascular-Pruning-pbio.1002126.s011.ogv 23 s, 1,440 × 701; 9.19 MB
  
• Evidence-of-Flicker-Induced-Functional-Hyperaemia-in-the-Smallest-Vessels-of-the-Human-Retinal-pone.0162621.s001.ogv 17 s, 1,488 × 785; 1.04 MB
  
• Ex-Vivo-Lung-Perfusion-in-the-Rat-Detailed-Procedure-and-Videos-pone.0167898.s002.ogv 41 s, 640 × 360; 3.41 MB
  
• Ex-Vivo-Lung-Perfusion-in-the-Rat-Detailed-Procedure-and-Videos-pone.0167898.s003.ogv 1 min 5 s, 640 × 360; 6.42 MB
  
• Ex-Vivo-Lung-Perfusion-in-the-Rat-Detailed-Procedure-and-Videos-pone.0167898.s004.ogv 32 s, 640 × 360; 1.6 MB
  
• Ex-Vivo-Lung-Perfusion-in-the-Rat-Detailed-Procedure-and-Videos-pone.0167898.s005.ogv 1 min 17 s, 640 × 360; 7.64 MB
  
• Ex-Vivo-Lung-Perfusion-in-the-Rat-Detailed-Procedure-and-Videos-pone.0167898.s006.ogv 1 min 0 s, 640 × 360; 5.17 MB
  
• Ex-Vivo-Lung-Perfusion-in-the-Rat-Detailed-Procedure-and-Videos-pone.0167898.s007.ogv 32 s, 640 × 360; 1.29 MB
  
• Fibro-Vascular-Coupling-in-the-Control-of-Cochlear-Blood-Flow-pone.0020652.s007.ogv 9.0 s, 720 × 576; 757 KB
  
• Fli+-etsrp+-Hemato-Vascular-Progenitor-Cells-Proliferate-at-the-Lateral-Plate-Mesoderm-during-pone.0014732.s008.ogv 7.2 s, 1,388 × 1,040; 1.36 MB
  
• Fli+-etsrp+-Hemato-Vascular-Progenitor-Cells-Proliferate-at-the-Lateral-Plate-Mesoderm-during-pone.0014732.s009.ogv 19 s, 1,388 × 1,040; 1.13 MB
  
• Flicker-assisted-localization-microscopy-reveals-altered-mitochondrial-architecture-in-hypertension-srep16875-s2.ogv 15 s, 320 × 240; 101 KB
  
• Flicker-assisted-localization-microscopy-reveals-altered-mitochondrial-architecture-in-hypertension-srep16875-s3.ogv 11 s, 320 × 240; 352 KB
  
• Imaging-Transient-Blood-Vessel-Fusion-Events-in-Zebrafish-by-Correlative-Volume-Electron-Microscopy-pone.0007716.s001.ogv 31 s, 320 × 240; 688 KB
  
• Imaging-Transient-Blood-Vessel-Fusion-Events-in-Zebrafish-by-Correlative-Volume-Electron-Microscopy-pone.0007716.s002.ogv 30 s, 320 × 240; 1.18 MB
  
• Imaging-Transient-Blood-Vessel-Fusion-Events-in-Zebrafish-by-Correlative-Volume-Electron-Microscopy-pone.0007716.s003.ogv 30 s, 320 × 240; 1.59 MB
  
• Imaging-Transient-Blood-Vessel-Fusion-Events-in-Zebrafish-by-Correlative-Volume-Electron-Microscopy-pone.0007716.s004.ogv 40 s, 320 × 240; 1.42 MB
  
• Imaging-Transient-Blood-Vessel-Fusion-Events-in-Zebrafish-by-Correlative-Volume-Electron-Microscopy-pone.0007716.s005.ogv 40 s, 320 × 240; 880 KB
  
• Imaging-Transient-Blood-Vessel-Fusion-Events-in-Zebrafish-by-Correlative-Volume-Electron-Microscopy-pone.0007716.s006.ogv 40 s, 320 × 240; 1.98 MB
  
• In-Silico-Patterning-of-Vascular-Mesenchymal-Cells-in-Three-Dimensions-pone.0020182.s001.ogv 15 s, 550 × 633; 1.46 MB
  
• In-Silico-Patterning-of-Vascular-Mesenchymal-Cells-in-Three-Dimensions-pone.0020182.s002.ogv 15 s, 550 × 633; 1.89 MB
  
• In-Silico-Patterning-of-Vascular-Mesenchymal-Cells-in-Three-Dimensions-pone.0020182.s003.ogv 14 s, 550 × 631; 669 KB
  
• In-vivo-Bioimaging-as-a-Novel-Strategy-to-Detect-Doxorubicin-Induced-Damage-to-Gonadal-Blood-Vessels-pone.0023492.s003.ogv 1 min 29 s, 480 × 336; 2.73 MB
  
• In-vivo-Bioimaging-as-a-Novel-Strategy-to-Detect-Doxorubicin-Induced-Damage-to-Gonadal-Blood-Vessels-pone.0023492.s004.ogv 5 min 14 s, 480 × 336; 11.62 MB
  
• Intraoperative-intravital-microscopy-permits-the-study-of-human-tumour-vessels-ncomms10684-s2.ogv 30 s, 700 × 512; 2.33 MB
  
• Intraoperative-intravital-microscopy-permits-the-study-of-human-tumour-vessels-ncomms10684-s3.ogv 31 s, 581 × 428; 6.93 MB
  
• Intraoperative-intravital-microscopy-permits-the-study-of-human-tumour-vessels-ncomms10684-s4.ogv 31 s, 700 × 512; 5.67 MB
  
• Intraoperative-intravital-microscopy-permits-the-study-of-human-tumour-vessels-ncomms10684-s5.ogv 20 s, 700 × 512; 1.42 MB
  
• Intravital-Two-Photon-Microscopy-of-Immune-Cell-Dynamics-in-Corneal-Lymphatic-Vessels-pone.0026253.s001.ogv 5.8 s, 544 × 482; 1.14 MB
  
• Intravital-Two-Photon-Microscopy-of-Immune-Cell-Dynamics-in-Corneal-Lymphatic-Vessels-pone.0026253.s002.ogv 14 s, 500 × 500; 15.14 MB
  
• Intravital-Two-Photon-Microscopy-of-Immune-Cell-Dynamics-in-Corneal-Lymphatic-Vessels-pone.0026253.s003.ogv 14 s, 432 × 400; 8.64 MB
  
• Mtmr8-is-essential-for-vasculature-development-in-zebrafish-embryos-1471-213X-10-96-S1.ogv 16 s, 368 × 368; 1,011 KB
  
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• Mtmr8-is-essential-for-vasculature-development-in-zebrafish-embryos-1471-213X-10-96-S3.ogv 15 s, 368 × 184; 151 KB
  
• Mural-Cell-Associated-VEGF-Is-Required-for-Organotypic-Vessel-Formation-pone.0005798.s003.ogv 1 min 11 s, 1,300 × 1,030; 9.65 MB
  
• Mural-Cell-Associated-VEGF-Is-Required-for-Organotypic-Vessel-Formation-pone.0005798.s004.ogv 8.3 s, 320 × 240; 125 KB
  
• Mural-Cell-Associated-VEGF-Is-Required-for-Organotypic-Vessel-Formation-pone.0005798.s005.ogv 7.0 s, 1,388 × 1,040; 526 KB
  
• Mutation-in-utp15-Disrupts-Vascular-Patterning-in-a-p53-Dependent-Manner-in-Zebrafish-Embryos-pone.0025013.s005.ogv 7.3 s, 640 × 480; 281 KB
  
• Mutation-in-utp15-Disrupts-Vascular-Patterning-in-a-p53-Dependent-Manner-in-Zebrafish-Embryos-pone.0025013.s006.ogv 12 s, 1,280 × 720; 598 KB
  
• Optimization-of-Liver-Decellularization-Maintains-Extracellular-Matrix-Micro-Architecture-and-pone.0155324.s002.ogv 28 s, 1,180 × 1,080; 1.52 MB
  
• Optimization-of-Liver-Decellularization-Maintains-Extracellular-Matrix-Micro-Architecture-and-pone.0155324.s003.ogv 28 s, 1,168 × 1,024; 2.37 MB
  
• Optimization-of-Liver-Decellularization-Maintains-Extracellular-Matrix-Micro-Architecture-and-pone.0155324.s004.ogv 47 s, 960 × 540; 4.79 MB
  
• Optimization-of-Liver-Decellularization-Maintains-Extracellular-Matrix-Micro-Architecture-and-pone.0155324.s005.ogv 1 min 16 s, 640 × 480; 2.11 MB
  
• Platelets-Guide-Leukocytes-to-Their-Sites-of-Extravasation-pbio.1002459.s011.ogv 1.9 s, 465 × 470; 59 KB
  
• Platelets-Guide-Leukocytes-to-Their-Sites-of-Extravasation-pbio.1002459.s012.ogv 8.0 s, 640 × 480; 164 KB
  
• Platelets-Guide-Leukocytes-to-Their-Sites-of-Extravasation-pbio.1002459.s013.ogv 3.0 s, 148 × 156; 25 KB
  
• Platelets-Guide-Leukocytes-to-Their-Sites-of-Extravasation-pbio.1002459.s014.ogv 16 s, 547 × 545; 642 KB
  
• Quantitative-Spatial-and-Temporal-Analysis-of-Fluorescein-Angiography-Dynamics-in-the-Eye-pone.0111330.s001.ogv 7.1 s, 368 × 276; 115 KB
  
• Role-of-the-2-zebrafish-survivin-genes-in-vasculo-angiogenesis-neurogenesis-cardiogenesis-and-1471-213X-9-25-S5.ogv 8.0 s, 540 × 512; 854 KB
  
• Role-of-the-2-zebrafish-survivin-genes-in-vasculo-angiogenesis-neurogenesis-cardiogenesis-and-1471-213X-9-25-S6.ogv 8.0 s, 524 × 512; 221 KB
  
• Role-of-the-2-zebrafish-survivin-genes-in-vasculo-angiogenesis-neurogenesis-cardiogenesis-and-1471-213X-9-25-S7.ogv 8.0 s, 548 × 512; 803 KB
  
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• Stable-Vascular-Connections-and-Remodeling-Require-Full-Expression-of-VE-Cadherin-in-Zebrafish-pone.0005772.s004.ogv 10 s, 388 × 290; 494 KB
  
• Stable-Vascular-Connections-and-Remodeling-Require-Full-Expression-of-VE-Cadherin-in-Zebrafish-pone.0005772.s005.ogv 8.5 s, 388 × 292; 515 KB
  
• Stable-Vascular-Connections-and-Remodeling-Require-Full-Expression-of-VE-Cadherin-in-Zebrafish-pone.0005772.s006.ogv 10 s, 388 × 290; 361 KB
  
• Stable-Vascular-Connections-and-Remodeling-Require-Full-Expression-of-VE-Cadherin-in-Zebrafish-pone.0005772.s007.ogv 10 s, 388 × 290; 427 KB
  
• Stable-Vascular-Connections-and-Remodeling-Require-Full-Expression-of-VE-Cadherin-in-Zebrafish-pone.0005772.s008.ogv 10 s, 388 × 290; 442 KB
  
• Stable-Vascular-Connections-and-Remodeling-Require-Full-Expression-of-VE-Cadherin-in-Zebrafish-pone.0005772.s009.ogv 10 s, 388 × 290; 424 KB
  
• Stable-Vascular-Connections-and-Remodeling-Require-Full-Expression-of-VE-Cadherin-in-Zebrafish-pone.0005772.s010.ogv 10 s, 512 × 512; 1.46 MB
  
• Stable-Vascular-Connections-and-Remodeling-Require-Full-Expression-of-VE-Cadherin-in-Zebrafish-pone.0005772.s011.ogv 10 s, 512 × 512; 1.41 MB
  
• Stented Aneurysm.webm 6.7 s, 829 × 480; 647 KB
  
• Survival-after-Left-Ventricular-Free-Wall-Rupture-in-an-Elderly-Woman-with-Acute-Myocardial-728602.f2.ogv 7.2 s, 1,024 × 576; 965 KB
  
• The-Natural-History-of-Kidney-Graft-Cortical-Microcirculation-Determined-by-Real-Time-Contrast-pone.0150384.s001.ogv 1 min 18 s, 787 × 576; 8.94 MB
  
• Three-Dimensional-Analysis-of-Vascular-Development-in-the-Mouse-Embryo-pone.0002853.s001.ogv 13 s, 400 × 315; 6.5 MB
  
• Three-Dimensional-Arrangement-of-Human-Bone-Marrow-Microvessels-Revealed-by-Immunohistology-in-pone.0168173.s008.ogv 20 s, 1,000 × 1,000; 4.85 MB
  
• Three-Dimensional-Arrangement-of-Human-Bone-Marrow-Microvessels-Revealed-by-Immunohistology-in-pone.0168173.s009.ogv 20 s, 1,000 × 1,000; 2.25 MB
  
• Three-Dimensional-Arrangement-of-Human-Bone-Marrow-Microvessels-Revealed-by-Immunohistology-in-pone.0168173.s010.ogv 20 s, 1,000 × 1,000; 4.04 MB
  
• Three-Dimensional-Arrangement-of-Human-Bone-Marrow-Microvessels-Revealed-by-Immunohistology-in-pone.0168173.s011.ogv 20 s, 1,000 × 1,000; 4.41 MB
  
• Three-Dimensional-Arrangement-of-Human-Bone-Marrow-Microvessels-Revealed-by-Immunohistology-in-pone.0168173.s012.ogv 1 min 7 s, 1,920 × 1,080; 63.98 MB
  
• Time-Series-Interactions-of-Gene-Expression-Vascular-Growth-and-Hemodynamics-during-Early-Embryonic-pone.0161611.s001.ogv 9.9 s, 1,920 × 1,080; 5.15 MB
  
• Zebrafish midbrain vasculature 2dpf - journal.pbio.1001374.s020.mov.ogv 14 s, 1,260 × 864; 2.49 MB
  
• Zebrafish midbrain vasculature centerline 4dpf - journal.pbio.1001374.s021.mov.ogv 14 s, 1,260 × 864; 3.68 MB
  
• Zebrafish midbrain vasculature centerline 7.5dpf - journal.pbio.1001374.s022.mov.ogv 14 s, 1,260 × 864; 4.47 MB
  
• Zebrafish midbrain vasculature imaged at 2.5 and 3.0 dpf - journal.pbio.1001374.s025.mov.ogv 7.6 s, 915 × 1,676; 4.53 MB