AI Article Synopsis
- Drastic changes in the formation of the intestinal loop (IL) include elongation, physiological umbilical herniation (PUH), and midgut rotation during embryonic development.
- Fifty-four sets of magnetic resonance images from embryos between Carnegie stage 14 and 23 were analyzed to track these changes in three dimensions, focusing on the superior mesenteric artery as the reference point.
- Initial slight rotations of the IL were observed up to CS 16, with significant changes like PUH appearing after CS 17, and by CS 20, the IL exhibited a complex structure resulting from growth, ultimately suggesting that the rotation is due to passive differential growth.
Article Abstract
Drastic changes occur during the formation of the intestinal loop (IL), including elongation, physiological umbilical herniation (PUH), and midgut rotation. Fifty-four sets of magnetic resonance images of embryos between Carnegie stage (CS) 14 and CS 23 were used to reconstruct embryonic digestive tract in three dimensions in the Amira program. Elongation, PUH, and rotation were quantified in relation to the proximal part of the superior mesenteric artery (SMA), designated as the origin. Up to CS 16, IL rotation was initially observed as a slight deviation of the duodenum and colorectum from the median plane. The PUH was noticeable after CS 17. At CS 18, the IL showed a hairpin-like structure, with the SMA running parallel to the straight part and the cecum located to the left. After CS 19, the IL began to form a complex structure as a result of the rapid growth of the small intestinal portion. By CS 20, the IL starting point had moved from the right cranial region to an area caudal to the origin, though elongation of the duodenum was not conspicuous-this was a change of almost 180° in position. The end of the IL remained in roughly the same place, to the left of and caudal to the origin. Notably, the IL rotated around the origin only during earlier stages and gradually moved away, running transversely after CS 19. The movements of the IL may be explained as the result of differential growth, suggesting that IL rotation is passive.
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| http://dx.doi.org/10.1002/ar.23296 | DOI Listing |
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