File:Mouse embryo vascular.png: Difference between revisions

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Figure 2. Surface renderings of embryonic vascular structures.
==Surface renderings of embryonic vascular structures==


(A) Reconstructed FDR-deconvolution OPT data of the 19 somite embryo is shown as a surface rendered object.  
(A) Reconstructed FDR-deconvolution OPT data of the 19 somite embryo is shown as a surface rendered object.  
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(E) Segmentation of the data allows selective display of labelled structures. Exclusion of the unsegmented data provides better analysis of the ICAs and the pharyngeal arch arteries.
(E) Segmentation of the data allows selective display of labelled structures. Exclusion of the unsegmented data provides better analysis of the ICAs and the pharyngeal arch arteries.
See also [[Movie - Mouse Cephalic Plexus]]


All scale bars represent 100 microns.
All scale bars represent 100 microns.
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'''UV''' - umbilical vein
'''UV''' - umbilical vein


Original File name: Figure 2. Journal.pone.0002853.g002.png


Original File name: Journal.pone.0002853.g002.png
==Reference==


Three-dimensional analysis of vascular development in the mouse embryo. Walls JR, Coultas L, Rossant J, Henkelman RM. PLoS One. 2008 Aug 6;3(8):e2853. [http://www.ncbi.nlm.nih.gov/pubmed/18682734 PMID: 18682734]
<pubmed>18682734</pubmed>| [http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0002853 PLoS One]
[http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0002853 PLoS link]


:"Key vasculogenic (de-novo vessel forming) and angiogenic (vessel remodelling) events occur in the mouse embryo between embryonic days (E) 8.0 and 10.0 of gestation, during which time the vasculature develops from a simple circulatory loop into a complex, fine structured, three-dimensional organ. Interpretation of vascular phenotypes exhibited by signalling pathway mutants has historically been hindered by an inability to comprehensively image the normal sequence of events that shape the basic architecture of the early mouse vascular system. We have employed Optical Projection Tomography (OPT) using frequency distance relationship (FDR)-based deconvolution to image embryos immunostained with the endothelial specific marker PECAM-1 to create a high resolution, three-dimensional atlas of mouse vascular development between E8.0 and E10.0 (5 to 30 somites). Analysis of the atlas has provided significant new information regarding normal development of intersomitic vessels, the perineural vascular plexus, the cephalic plexus and vessels connecting the embryonic and extraembryonic circulation. We describe examples of vascular remodelling that provide new insight into the mechanisms of sprouting angiogenesis, vascular guidance cues and artery/vein identity that directly relate to phenotypes observed in mouse mutants affecting vascular development between E8.0 and E10.0. This atlas is freely available at http://www.mouseimaging.ca/research/mouse_atlas.html and will serve as a platform to provide insight into normal and abnormal vascular development."
:"Key vasculogenic (de-novo vessel forming) and angiogenic (vessel remodelling) events occur in the mouse embryo between embryonic days (E) 8.0 and 10.0 of gestation, during which time the vasculature develops from a simple circulatory loop into a complex, fine structured, three-dimensional organ. Interpretation of vascular phenotypes exhibited by signalling pathway mutants has historically been hindered by an inability to comprehensively image the normal sequence of events that shape the basic architecture of the early mouse vascular system. We have employed Optical Projection Tomography (OPT) using frequency distance relationship (FDR)-based deconvolution to image embryos immunostained with the endothelial specific marker PECAM-1 to create a high resolution, three-dimensional atlas of mouse vascular development between E8.0 and E10.0 (5 to 30 somites). Analysis of the atlas has provided significant new information regarding normal development of intersomitic vessels, the perineural vascular plexus, the cephalic plexus and vessels connecting the embryonic and extraembryonic circulation. We describe examples of vascular remodelling that provide new insight into the mechanisms of sprouting angiogenesis, vascular guidance cues and artery/vein identity that directly relate to phenotypes observed in mouse mutants affecting vascular development between E8.0 and E10.0. This atlas is freely available at http://www.mouseimaging.ca/research/mouse_atlas.html and will serve as a platform to provide insight into normal and abnormal vascular development."




Citation: Walls JR, Coultas L, Rossant J, Henkelman RM (2008) Three-Dimensional Analysis of Vascular Development in the Mouse Embryo. PLoS ONE 3(8): e2853. doi:10.1371/journal.pone.0002853
 
[[Category:Heart]] [[Category:Mouse]]

Revision as of 16:02, 13 August 2010

Surface renderings of embryonic vascular structures

(A) Reconstructed FDR-deconvolution OPT data of the 19 somite embryo is shown as a surface rendered object.

(B) The surface rendered object can be zoomed in to any magnification, as in this magnified image of the vasculature in the mouse head.

(C) The surface rendering can also be rotated so that it can be viewed from any angle. Viewing the rendering from the left side reveals structures in the heart (arrow) that are obscured by the tail in (A).

(D) The 3D data can also be segmented as described in Materials and Methods. The DA, heart and ICAs are labelled yellow, the UV dark pink, and the unsegmented vasculature blue.

(E) Segmentation of the data allows selective display of labelled structures. Exclusion of the unsegmented data provides better analysis of the ICAs and the pharyngeal arch arteries.


See also Movie - Mouse Cephalic Plexus

All scale bars represent 100 microns.

ACV - anterior cardinal vein

CCV - common cardinal vein

DA - dorsal aorta

DLAV - dorsal longitudinal anastomotical vessel

ISA - intersomitic artery

ISV - intersomitic vein

OA - omphalomesenteric artery

OV - omphalomesenteric vein

PCV - posterior cardinal vein

PNVP - perineual vascular plexus

UA - umbilical artery

UV - umbilical vein

Original File name: Figure 2. Journal.pone.0002853.g002.png

Reference

<pubmed>18682734</pubmed>| PLoS One

"Key vasculogenic (de-novo vessel forming) and angiogenic (vessel remodelling) events occur in the mouse embryo between embryonic days (E) 8.0 and 10.0 of gestation, during which time the vasculature develops from a simple circulatory loop into a complex, fine structured, three-dimensional organ. Interpretation of vascular phenotypes exhibited by signalling pathway mutants has historically been hindered by an inability to comprehensively image the normal sequence of events that shape the basic architecture of the early mouse vascular system. We have employed Optical Projection Tomography (OPT) using frequency distance relationship (FDR)-based deconvolution to image embryos immunostained with the endothelial specific marker PECAM-1 to create a high resolution, three-dimensional atlas of mouse vascular development between E8.0 and E10.0 (5 to 30 somites). Analysis of the atlas has provided significant new information regarding normal development of intersomitic vessels, the perineural vascular plexus, the cephalic plexus and vessels connecting the embryonic and extraembryonic circulation. We describe examples of vascular remodelling that provide new insight into the mechanisms of sprouting angiogenesis, vascular guidance cues and artery/vein identity that directly relate to phenotypes observed in mouse mutants affecting vascular development between E8.0 and E10.0. This atlas is freely available at http://www.mouseimaging.ca/research/mouse_atlas.html and will serve as a platform to provide insight into normal and abnormal vascular development."

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current11:07, 15 August 2009Thumbnail for version as of 11:07, 15 August 2009600 × 576 (518 KB)S8600021 (talk | contribs)Figure 2. Surface renderings of embryonic vascular structures. (A) Reconstructed FDR-deconvolution OPT data of the 19 somite embryo is shown as a surface rendered object. (B) The surface rendered object can be zoomed in to any magnification, as in this