Talk:Gastrointestinal Tract - Stomach Development: Difference between revisions

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==10 Most Recent Papers==
{{10 Most Recent}}
===Stomach Embryology===
<pubmed limit=5>Stomach Embryology</pubmed>


==2009==
==2009==
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<center>Development of the greater omentum</center>
== Stomach Development Movies ==
{| class="prettytable"
| [[Image:stomrot.jpg]][../Movies/larsen/stomrot.mov  Stomach Rotation] (326 Kb)
| [[Image:stomrot2.jpg]][../Movies/larsen/stomrot2.mov  Stomach Rotation ]large version (620 Kb)
|-
| [[Image:lessersacA.jpg]][../Movies/larsen/lessersacA.mov  Lesser Sac ]superior view (104 Kb)
| [[Image:lessersacB.jpg]][../Movies/larsen/lessersacB.mov  Lesser Sac] ventrolateral view (408 Kb)
|}
3D Model Movies
3D Model Movies


The following are links to 3D reconstruction animations of serial images of the gastrointestinal tract at an early and late embryonic stage. (More? [3dmodel.htm 3D Model Movies])
The following are links to 3D reconstruction animations of serial images of the gastrointestinal tract at an early and late embryonic stage. (More? [3dmodel.htm 3D Model Movies])


[[Image:git_resp_kidney.gif]]
'''Stage 13/14 Embryo:''' [../Movies/GIT3dmodel.htm Gastrointestinal Tract]
'''Stage 22 Embryo:''' [../Movies/GIT3dmodelst22.htm Gastrointestinal Tract]


'''Adult Stomach Position'''
'''Adult Stomach Position'''
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The greater omentum hangs like an apron over the small intestine and transverse colon. It begins attacted to the inferior end of the stomach as a fold of the dorsal mesogastrium which later fuses to form the structure we recognise anatomically. The figure below shows a lateral view of this process comparing the early second trimester arrangement with the newborn structure. (More? GIT Folding)
The greater omentum hangs like an apron over the small intestine and transverse colon. It begins attacted to the inferior end of the stomach as a fold of the dorsal mesogastrium which later fuses to form the structure we recognise anatomically. The figure below shows a lateral view of this process comparing the early second trimester arrangement with the newborn structure. (More? GIT Folding)


==Duodenum/Pancreas Rotation==
After the stomach the initial portion of the GIT tube is the duodenum which initially lies in the midline within the peritoneal cavity, but then (along with the attached pancreas) undergoes rotation to become a retroperitoneal structure. (More? GIT Folding)


The diagram below shows this rotation with spinal cord at the top, vertebral body then dorsal aorta then pertioneal wall and cavity.
The diagram below shows this rotation with spinal cord at the top, vertebral body then dorsal aorta then pertioneal wall and cavity.


==Stomach Hormonal Development==
Stein BA, Buchan AM, Morris J, Polak JM. The ontogeny of regulatory peptide-containing cells in the human fetal stomach: an immunocytochemical study. J Histochem Cytochem. 1983 Sep;31(9):1117-25.)
The gastrointestinal tract has its own complex entero-endocrine system (enterohormones) that regulates many regional tract functions.
 
Cells within the stomach express a range of peptide hormones known to regulate a range of gastric functions including secretion of digestive enzymes, mucous and the movement of the luminal contents. The list below shows the earliest detectible presence of specific hormone-containing cells in regions of the developing human stomach.
 
8 weeks - Gastrin containing cells in stomach antrum. Somatostatin cells in both the antrum and the fundus.
 
10 weeks - Glucagon containing cells in stomach fundus.
 
11 weeks - Serotonin containing cells in both the antrum and the fundus.
 
(Data: Stein BA, Buchan AM, Morris J, Polak JM. The ontogeny of regulatory peptide-containing cells in the human fetal stomach: an immunocytochemical study. J Histochem Cytochem. 1983 Sep;31(9):1117-25.)


Other gut peptides: cholecystokinin (CCK), pancreatic polypeptide, peptide YY, glucagon-like peptide-1 (GLP-1), oxyntomodulin (increase satiety and decrease food intake) and ghrelin
Other gut peptides: cholecystokinin (CCK), pancreatic polypeptide, peptide YY, glucagon-like peptide-1 (GLP-1), oxyntomodulin (increase satiety and decrease food intake) and ghrelin

Revision as of 23:07, 5 May 2013

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Cite this page: Hill, M.A. (2024, April 25) Embryology Gastrointestinal Tract - Stomach Development. Retrieved from https://embryology.med.unsw.edu.au/embryology/index.php/Talk:Gastrointestinal_Tract_-_Stomach_Development

10 Most Recent Papers

Note - This sub-heading shows an automated computer PubMed search using the listed sub-heading term. References appear in this list based upon the date of the actual page viewing. Therefore the list of references do not reflect any editorial selection of material based on content or relevance. In comparison, references listed on the content page and discussion page (under the publication year sub-headings) do include editorial selection based upon relevance and availability. (More? Pubmed Most Recent)


Stomach Embryology

<pubmed limit=5>Stomach Embryology</pubmed>


2009

Sfrp controls apicobasal polarity and oriented cell division in developing gut epithelium.

PLoS Genet. 2009 Mar;5(3):e1000427. Epub 2009 Mar 20.

Matsuyama M, Aizawa S, Shimono A.

Vertebrate Body Plan, Center for Developmental Biology, RIKEN Kobe, Minatojima-Minami, Kobe, Japan.

Abstract Epithelial tubular morphogenesis leading to alteration of organ shape has important physiological consequences. However, little is known regarding the mechanisms that govern epithelial tube morphogenesis. Here, we show that inactivation of Sfrp1 and Sfrp2 leads to reduction in fore-stomach length in mouse embryos, which is enhanced in the presence of the Sfrp5 mutation. In the mono-cell layer of fore-stomach epithelium, cell division is normally oriented along the cephalocaudal axis; in contrast, orientation diverges in the Sfrps-deficient fore-stomach. Cell growth and apoptosis are not affected in the Sfrps-deficient fore-stomach epithelium. Similarly, cell division orientation in fore-stomach epithelium diverges as a result of inactivation of either Stbm/Vangl2, an Fz/PCP component, or Wnt5a. These observations indicate that the oriented cell division, which is controlled by the Fz/PCP pathway, is one of essential components in fore-stomach morphogenesis. Additionally, the small intestine epithelium of Sfrps compound mutants fails to maintain proper apicobasal polarity; the defect was also observed in Wnt5a-inactivated small intestine. In relation to these findings, Sfrp1 physically interacts with Wnt5a and inhibits Wnt5a signaling. We propose that Sfrp regulation of Wnt5a signaling controls oriented cell division and apicobasal polarity in the epithelium of developing gut.


PMID 19300477


File:D5lst13stom.gif
 File:Stomach.jpg
Embryo stage 13/14 stomach
Adult stomach anatomy

During week 4 where the stomach will form the tube begins to dilate, forming an enlarged lumen in the tube. Dorsal border grows more rapidly than ventral, which establishes the greater curvature of the stomach. A second rotation (of 90 degrees) occurs on the longitudinal axis establishing the adult orientation of the stomach.

Stage 13/14 Stomach

File:St1314sm.gif File:D2st13stom.gif File:D3lst13stom.gif File:D4st13stom.gif
Sections from D2 to D7 downward.
(viewed from beneath, top is right, bottom is left)
 View through osophageal pyloric region at top of stomach.(base of R. and L. lung buds) Beginning of stomach rotation. Broad dorsal mesogastrium, narrow ventral mesogastrium. Cavity beneath stomach is the omentum bursa. Section through the body of the stomach. Dorsal mesogastrium beneath the omentum bursa will form greater omentum.
File:D5st13stom.gif File:D6st13stom.gif File:D7st13stom.gif
Section through the body of the stomach. Section at the stomach duodenal junction.

Stage 22 Stomach

File:St22hum.gif File:E6lst22stom.gif File:E7lst22stom.gif
Sections from E6 to D4 downward.
 Note thick muscular wall of stomach body and change in lumen shape between pyloris and duodenum.
File:F1lst22stom.gif File:F2lst22stom.gif File:F3lst22stom.gif
File:F4lst22stom.gif File:F5lst22stom.gif
File:Mov.gifSee[../Movies/st22/e6f5lstom.mov Labelled Movie of Stomach][../Movies/st22/e6f5lstom.mov ][../Movies/st22/e6f5lstom.mov (sections E6-D5)](237 Kb)
[../embryo/Movies/st22/e6f5stom.mov Unlabelled Movie](243 Kb)

Greater Omentum

The greater omentum hangs like an apron over the small intestine and transverse colon. It begins attacted to the inferior end of the stomach as a fold of the dorsal mesogastrium which later fuses to form the structure we recognise anatomically. The figure below shows a lateral view of this process comparing the early second trimester arrangement with the newborn structure. (More? [git12.htm GIT Folding])


3D Model Movies

The following are links to 3D reconstruction animations of serial images of the gastrointestinal tract at an early and late embryonic stage. (More? [3dmodel.htm 3D Model Movies])


Adult Stomach Position


File:Stomach-position.jpg Movie of anatomical position of the erect adult stomach position on filling, based upon historic drawings.

Quicktime: [../Movies/git/adult_stomach_position.mov adult_stomach_position.mov (36 Kb)]

Abnormalities

  • Congenital hypertrophic pyloric stenosis
  • duodenal atresia
  • duodenal stenosis

WWW Links

Indiana University animation showing Development of the Stomach, Omenta and Duodenum Discussion of the development of the stomach from the foregut, the omenta development from the mesenteries, and the rotational movements of the stomach and duodenum.(approx. 2 minutes)


Introduction

This section of notes gives an overview of how the stomach and duodenum develops. The GIT is best imagined as a simple tube, the upper part being the foregut diverticulum, which is further divided into oesophagus and stomach.

During week 4 where the stomach will form the tube begins to dilate, forming an enlarged lumen in the tube. Dorsal border grows more rapidly than ventral, which establishes the greater curvature of the stomach. A second rotation (of 90 degrees) occurs on the longitudinal axis establishing the adult orientation of the stomach.

stomach

  • glandular/proventricular/pyloric stenosis
  • fundus/pyloric antrum
  • pyloric sphincter

original page

Greater Omentum

The greater omentum hangs like an apron over the small intestine and transverse colon. It begins attacted to the inferior end of the stomach as a fold of the dorsal mesogastrium which later fuses to form the structure we recognise anatomically. The figure below shows a lateral view of this process comparing the early second trimester arrangement with the newborn structure. (More? GIT Folding)


The diagram below shows this rotation with spinal cord at the top, vertebral body then dorsal aorta then pertioneal wall and cavity.

Stein BA, Buchan AM, Morris J, Polak JM. The ontogeny of regulatory peptide-containing cells in the human fetal stomach: an immunocytochemical study. J Histochem Cytochem. 1983 Sep;31(9):1117-25.)

Other gut peptides: cholecystokinin (CCK), pancreatic polypeptide, peptide YY, glucagon-like peptide-1 (GLP-1), oxyntomodulin (increase satiety and decrease food intake) and ghrelin

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