File:Non-invasive-in-vivo-investigation-of-hepatobiliary-structure-and-function-in-STII-medaka-(Oryzias-1476-5926-7-7-S6.ogv
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Size of this JPG preview of this OGG file: 629 × 600 pixels. Other resolutions: 252 × 240 pixels | 503 × 480 pixels | 688 × 656 pixels.
Original file (Ogg Theora video file, length 3.3 s, 688 × 656 pixels, 8.76 Mbps, file size: 3.48 MB)
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DescriptionNon-invasive-in-vivo-investigation-of-hepatobiliary-structure-and-function-in-STII-medaka-(Oryzias-1476-5926-7-7-S6.ogv |
English: Example of 3D reconstruction of hepatobiliary architecture from in vivo confocal image stack: sinusoids and parenchymal architecture, STII medaka, 30 dpf. Sinusoids (S) are red. All space between sinusoids (empty) is hepatocellular space, not rendered for visual clarity. Morphometric and volumetric analyses of 3D reconstructions allowed elucidation of parenchymal architecture, and revealed medaka parenchyma more akin to a muralium like structure (as opposed to tubular architecture). Background grayscale image is a single frame from a confocal image stack from which the 3D model was generated. The movie given here, extracted from an Amira 3D reconstruction, is limited to rotation in a single plane. Actual 3D reconstructions can be rotated in any plane, at virtually any magnification, allowing detailed study of hepatobiliary structure/function relationships. STII medaka, 30 dpf. |
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Source | Video file from Hardman R, Kullman S, Hinton D (2008). "Non invasive in vivo investigation of hepatobiliary structure and function in STII medaka (Oryzias latipes): methodology and applications". Comparative Hepatology. DOI:10.1186/1476-5926-7-7. PMID 18838008. PMC: 2586619. | ||
Author | Hardman R, Kullman S, Hinton D | ||
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This file is licensed under the Creative Commons Attribution 2.0 Generic license.
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current | 04:57, 7 February 2017 | 3.3 s, 688 × 656 (3.48 MB) | Open Access Media Importer Bot (talk | contribs) | Automatically uploaded media file from Open Access source. Please report problems or suggestions here. |
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Short title | Additional file 6 |
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Author | Hardman R, Kullman S, Hinton D |
Usage terms | http://creativecommons.org/licenses/by/2.0/ |
Image title | Example of 3D reconstruction of hepatobiliary architecture from in vivo confocal image stack: sinusoids and parenchymal architecture, STII medaka, 30 dpf. Sinusoids (S) are red. All space between sinusoids (empty) is hepatocellular space, not rendered for visual clarity. Morphometric and volumetric analyses of 3D reconstructions allowed elucidation of parenchymal architecture, and revealed medaka parenchyma more akin to a muralium like structure (as opposed to tubular architecture). Background grayscale image is a single frame from a confocal image stack from which the 3D model was generated. The movie given here, extracted from an Amira 3D reconstruction, is limited to rotation in a single plane. Actual 3D reconstructions can be rotated in any plane, at virtually any magnification, allowing detailed study of hepatobiliary structure/function relationships. STII medaka, 30 dpf. |
Software used | Xiph.Org libtheora 1.1 20090822 (Thusnelda) |
Date and time of digitizing | 2008 |