Stomach: Normal Structures and Developmental Abnormalities EMBRYOLOGY Stomach The stomach appears at 14 weeks as a fusiform dilation of the caudal part of the foregut. The dorsal border grows faster than the ventral border, establishing the greater curvature of the stomach. As the stomach acquires it...
Among the non-contrast-enhanced CT images, 85.3% of the duodenum contours, 92.0% of the small bowel contours, 93.3% of the stomach contours and more than 95% of the other organ contours received a score of 3 or greater, suggesting that these contours required only minor edits from ...
b The 3D-reconstituted (3D) body image of a VE-cad-tdTomato mouse (female, 4 months). Before CUBIC procedures, tamoxifen (Tx) was injected (i.p.) for the induction of reporter. The enlarged images of the abdominal organs (liver, stomach, intestine and leg) are shown in the right ...
FIG. 8A shows an anchoring system implanted in a stomach to reduce the volume of the stomach to treat obesity. FIG. 8B shows a cross sectional view of a stomach before implanting an anchoring system to reduce the volume of the stomach. FIG. 8C shows a cross sectional view of the stomach...
Injection of biotin-wheat germ agglutinin into the celiac ganglion labeled many neurons in the myenteric ganglion of the stomach. Simultaneous staining with antiserum against VIP showed that some of these neurons are VIPI-positive. These findings indicate that VIPI neurons in the myenteric ganglion ...
Structures of DBD, TET, CTD and full-length p53.aThe structure of DBD in complex with a sequence-specific DNA (PDB: 1TSR). p53-DBD is shown as a cartoon, and the secondary structures are labeled. The interfacial residues are shown as sticks. DNA is shown as sticks and surfaces.b...
Structures of DBD, TET, CTD and full-length p53.aThe structure of DBD in complex with a sequence-specific DNA (PDB: 1TSR). p53-DBD is shown as a cartoon, and the secondary structures are labeled. The interfacial residues are shown as sticks. DNA is shown as sticks and surfaces.bDNA ...
Parasites of the phylum Apicomplexa cause important diseases including malaria, cryptosporidiosis and toxoplasmosis. These intracellular pathogens inject the contents of an essential organelle, the rhoptry, into host cells to facilitate invasion and infe