Inner ear morphology in wild vs laboratory mice
Holotype of Hamadasuchus rebouli
3D models related to the publication: Shape diversity in conodont elements, a quantitative study using 3D topography
3D GM dataset of bird skeletal variation
Skeletal embryonic development in the catshark
Bony connexions of the petrosal bone of extant hippos
bony labyrinth (11) , inner ear (10) , Eocene (8) , South America (8) , skull (7) , Oligocene (6) , phylogeny (6)
Maëva Judith Orliac (17) , Lionel Hautier (17) , Bastien Mennecart (12) , Laurent Marivaux (11) , Pierre-Olivier Antoine (11) , Leonardo Kerber (10) , Rodolphe Tabuce (9)
computationally reconstructed stomach of the human embryo (M3#57_KC-CS17STM20383) at Carnegie Stage 17 (Crown Rump Length= 12.3mm).
Data citation: Ami Nako, Norihito Kaigai, Naoto Shiraki, Shigehito Yamada , Chigako Uwabe, Katsumi Kose and Tetsuya Takakuwa , 2016. M3#57. doi: 10.18563/m3.sf57
Model solid/transparent
Flags:
body of stomach, greater curvature, lesser curvature, pyloric part
3D models related to the publication: Morphogenesis of the stomach during the human embryonic periodAmi Nako, Norihito Kaigai, Naoto Shiraki, Shigehito Yamada, Chigako Uwabe, Katsumi Kose and Tetsuya TakakuwaPublished online: 16/11/2015Keywords: human embryo; human stomach; magnetic resonance imaging; three-dimensional reconstruction https://doi.org/10.18563/m3.1.4.e3 Abstract The present 3D Dataset contains the 3D models analyzed in: Kaigai N et al. Morphogenesis and three-dimensional movement of the stomach during the human embryonic period, Anat Rec (Hoboken). 2014 May;297(5):791-797. doi: 10.1002/ar.22833. See original publication M3 article infos Published in Volume 01, Issue 04 (2016) |
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