Category:Physiologic neovascularization
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Media in category "Physiologic neovascularization"
The following 145 files are in this category, out of 145 total.
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Anti-Angiogenic-and-Anti-Inflammatory-Properties-of-Kahweol-a-Coffee-Diterpene-pone.0023407.s001.ogv 5.2 s, 1,280 × 800; 1.75 MB
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Anti-Angiogenic-and-Anti-Inflammatory-Properties-of-Kahweol-a-Coffee-Diterpene-pone.0023407.s002.ogv 6.1 s, 1,280 × 800; 2.13 MB
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Arteries-are-formed-by-vein-derived-endothelial-tip-cells-ncomms6758-s2.ogv 16 s, 2,761 × 698; 13.37 MB
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Arteries-are-formed-by-vein-derived-endothelial-tip-cells-ncomms6758-s3.ogv 28 s, 1,380 × 692; 10.46 MB
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Arteries-are-formed-by-vein-derived-endothelial-tip-cells-ncomms6758-s4.ogv 9.0 s, 810 × 997; 936 KB
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Arteries-are-formed-by-vein-derived-endothelial-tip-cells-ncomms6758-s5.ogv 28 s, 1,380 × 692; 8.58 MB
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Arteries-are-formed-by-vein-derived-endothelial-tip-cells-ncomms6758-s6.ogv 16 s, 2,761 × 694; 12.33 MB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s005.ogv 16 s, 480 × 480; 4.04 MB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s006.ogv 40 s, 480 × 480; 9.04 MB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s007.ogv 16 s, 480 × 480; 4.96 MB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s008.ogv 40 s, 480 × 480; 4.43 MB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s009.ogv 16 s, 480 × 480; 2.95 MB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s010.ogv 16 s, 480 × 480; 1.12 MB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s011.ogv 8.0 s, 200 × 200; 359 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s012.ogv 8.0 s, 200 × 200; 340 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s013.ogv 8.0 s, 200 × 200; 347 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s014.ogv 8.0 s, 200 × 200; 332 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s015.ogv 8.0 s, 200 × 200; 340 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s016.ogv 8.0 s, 200 × 200; 335 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s017.ogv 8.0 s, 200 × 200; 342 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s018.ogv 8.0 s, 200 × 200; 330 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s019.ogv 8.0 s, 200 × 200; 196 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s020.ogv 8.0 s, 200 × 200; 283 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s021.ogv 8.0 s, 200 × 200; 268 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s022.ogv 8.0 s, 200 × 200; 262 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s023.ogv 8.0 s, 200 × 200; 233 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s024.ogv 8.0 s, 200 × 200; 224 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s025.ogv 8.0 s, 200 × 200; 211 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s026.ogv 8.0 s, 200 × 200; 196 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s027.ogv 8.0 s, 200 × 200; 115 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s028.ogv 8.0 s, 200 × 200; 331 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s029.ogv 8.0 s, 200 × 200; 416 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s030.ogv 8.0 s, 200 × 200; 475 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s031.ogv 8.0 s, 200 × 200; 534 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s032.ogv 8.0 s, 200 × 200; 564 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s033.ogv 8.0 s, 200 × 200; 587 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s034.ogv 8.0 s, 200 × 200; 593 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s035.ogv 8.0 s, 200 × 200; 609 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s036.ogv 8.0 s, 200 × 200; 621 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s037.ogv 8.0 s, 200 × 200; 624 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s038.ogv 8.0 s, 200 × 200; 333 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s039.ogv 8.0 s, 200 × 200; 294 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s040.ogv 8.0 s, 200 × 200; 209 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s041.ogv 8.0 s, 200 × 200; 110 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s042.ogv 8.0 s, 200 × 200; 100 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s043.ogv 8.0 s, 200 × 200; 100 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s044.ogv 8.0 s, 200 × 200; 1.42 MB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s045.ogv 8.0 s, 200 × 200; 533 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s046.ogv 8.0 s, 200 × 200; 321 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s047.ogv 8.0 s, 200 × 200; 253 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s049.ogv 8.0 s, 200 × 200; 189 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s050.ogv 8.0 s, 200 × 200; 162 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s051.ogv 8.0 s, 400 × 400; 4.21 MB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s052.ogv 8.0 s, 400 × 400; 1.75 MB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s053.ogv 8.0 s, 400 × 400; 1.41 MB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s054.ogv 8.0 s, 400 × 400; 1.21 MB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s055.ogv 8.0 s, 400 × 400; 1.07 MB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s056.ogv 8.0 s, 400 × 400; 1.04 MB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s057.ogv 8.0 s, 400 × 400; 1,001 KB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s058.ogv 20 s, 480 × 480; 3.03 MB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s059.ogv 20 s, 480 × 480; 3.53 MB
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Contact-Inhibited-Chemotaxis-in-De-Novo-and-Sprouting-Blood-Vessel-Growth-pcbi.1000163.s060.ogv 20 s, 480 × 480; 3.26 MB
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Dynamic-Analysis-of-Vascular-Morphogenesis-Using-Transgenic-Quail-Embryos-pone.0012674.s001.ogv 28 s, 710 × 950; 43.77 MB
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Dynamic-Analysis-of-Vascular-Morphogenesis-Using-Transgenic-Quail-Embryos-pone.0012674.s002.ogv 4.6 s, 548 × 950; 3.63 MB
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Dynamic-Analysis-of-Vascular-Morphogenesis-Using-Transgenic-Quail-Embryos-pone.0012674.s003.ogv 4.6 s, 1,000 × 950; 7.08 MB
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Dynamic-Analysis-of-Vascular-Morphogenesis-Using-Transgenic-Quail-Embryos-pone.0012674.s006.ogv 5.4 s, 1,200 × 1,000; 26.49 MB
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Dynamic-Analysis-of-Vascular-Morphogenesis-Using-Transgenic-Quail-Embryos-pone.0012674.s009.ogv 7.5 s, 1,372 × 700; 4.13 MB
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Dynamic-Analysis-of-Vascular-Morphogenesis-Using-Transgenic-Quail-Embryos-pone.0012674.s010.ogv 6.8 s, 850 × 500; 1.28 MB
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Erk1-and-Erk2-Regulate-Endothelial-Cell-Proliferation-and-Migration-during-Mouse-Embryonic-pone.0008283.s011.ogv 12 s, 1,392 × 1,040; 4.79 MB
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Erk1-and-Erk2-Regulate-Endothelial-Cell-Proliferation-and-Migration-during-Mouse-Embryonic-pone.0008283.s012.ogv 12 s, 1,392 × 1,040; 1.81 MB
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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
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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
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Human-testicular-peritubular-cells-secrete-pigment-epithelium-derived-factor-(PEDF)-which-may-be-srep12820-s2.ogv 21 s, 1,360 × 1,024; 31.51 MB
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Human-testicular-peritubular-cells-secrete-pigment-epithelium-derived-factor-(PEDF)-which-may-be-srep12820-s3.ogv 21 s, 1,360 × 1,024; 27.32 MB
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In-Vitro-and-In-Vivo-Anti-Angiogenic-Activities-of-Panduratin-A-pone.0038103.s001.ogv 26 s, 312 × 240; 707 KB
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In-Vitro-and-In-Vivo-Anti-Angiogenic-Activities-of-Panduratin-A-pone.0038103.s002.ogv 17 s, 312 × 240; 377 KB
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In-Vitro-Engineering-of-Vascularized-Tissue-Surrogates-srep01316-s1.ogv 20 s, 854 × 480; 853 KB
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Miniaturized-Embryo-Array-for-Automated-Trapping-Immobilization-and-Microperfusion-of-Zebrafish-pone.0036630.s004.ogv 6 min 14 s, 1,920 × 1,088; 25.3 MB
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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
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Mural-Cell-Associated-VEGF-Is-Required-for-Organotypic-Vessel-Formation-pone.0005798.s004.ogv 8.3 s, 320 × 240; 125 KB
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Mural-Cell-Associated-VEGF-Is-Required-for-Organotypic-Vessel-Formation-pone.0005798.s005.ogv 7.0 s, 1,388 × 1,040; 526 KB
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The-role-of-survivin-in-angiogenesis-during-zebrafish-embryonic-development-1471-213X-7-50-S2.ogv 22 s, 320 × 240; 4.32 MB
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Tipping-the-Balance-Robustness-of-Tip-Cell-Selection-Migration-and-Fusion-in-Angiogenesis-pcbi.1000549.s013.ogv 1 min 43 s, 575 × 620; 9.7 MB
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Tipping-the-Balance-Robustness-of-Tip-Cell-Selection-Migration-and-Fusion-in-Angiogenesis-pcbi.1000549.s014.ogv 1 min 39 s, 879 × 620; 20.62 MB
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Vasculogenic-dynamics-in-3D-engineered-tissue-constructs-srep17840-s10.ogv 13 s, 1,440 × 1,080; 10.41 MB
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Vasculogenic-dynamics-in-3D-engineered-tissue-constructs-srep17840-s11.ogv 13 s, 2,170 × 1,279; 28.63 MB
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Vasculogenic-dynamics-in-3D-engineered-tissue-constructs-srep17840-s2.ogv 4.9 s, 1,440 × 1,080; 8.18 MB
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Vasculogenic-dynamics-in-3D-engineered-tissue-constructs-srep17840-s3.ogv 28 s, 1,440 × 1,080; 17.76 MB
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Vasculogenic-dynamics-in-3D-engineered-tissue-constructs-srep17840-s4.ogv 6.9 s, 640 × 480; 752 KB
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Vasculogenic-dynamics-in-3D-engineered-tissue-constructs-srep17840-s5.ogv 6.9 s, 320 × 240; 237 KB
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Vasculogenic-dynamics-in-3D-engineered-tissue-constructs-srep17840-s6.ogv 7.2 s, 640 × 480; 627 KB
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Vasculogenic-dynamics-in-3D-engineered-tissue-constructs-srep17840-s7.ogv 7.2 s, 640 × 480; 753 KB
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Vasculogenic-dynamics-in-3D-engineered-tissue-constructs-srep17840-s8.ogv 13 s, 1,440 × 1,080; 7.57 MB
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Vasculogenic-dynamics-in-3D-engineered-tissue-constructs-srep17840-s9.ogv 12 s, 1,440 × 1,080; 22.74 MB