Difference between revisions of "Large Intestine Overview - Anatomy & Physiology"
Fiorecastro (talk | contribs) |
|||
(21 intermediate revisions by 7 users not shown) | |||
Line 1: | Line 1: | ||
− | |||
==Introduction== | ==Introduction== | ||
− | [[Image:smalllargeintestine.jpg|thumb|right| | + | [[Image:smalllargeintestine.jpg|thumb|right|150px|Illustration of the jejunum, caecum, transverse and ascending colon - © RVC 2008]] |
− | |||
The large intestine extends from the [[Ileum - Anatomy & Physiology|ileum]] of the [[Small Intestine Overview - Anatomy & Physiology|small intestine]] to the [[Anus - Anatomy & Physiology|anus]]. Water, electrolytes and nutrients are absorbed which concentrates the ingesta into faeces. Faeces are stored prior to defeacation. There is no secretion of enzymes and any digestion that takes place is carried out by microbes. All species have a large microbial population living in the large intestine, which is of particular importance to the [[Hindgut Fermenters - Anatomy & Physiology|hindgut fermenters]]. For this reason, hindgut fermenters have a more complex large intestine with highly specialised regions for fermentation. | The large intestine extends from the [[Ileum - Anatomy & Physiology|ileum]] of the [[Small Intestine Overview - Anatomy & Physiology|small intestine]] to the [[Anus - Anatomy & Physiology|anus]]. Water, electrolytes and nutrients are absorbed which concentrates the ingesta into faeces. Faeces are stored prior to defeacation. There is no secretion of enzymes and any digestion that takes place is carried out by microbes. All species have a large microbial population living in the large intestine, which is of particular importance to the [[Hindgut Fermenters - Anatomy & Physiology|hindgut fermenters]]. For this reason, hindgut fermenters have a more complex large intestine with highly specialised regions for fermentation. | ||
===Development=== | ===Development=== | ||
+ | The caecum, ascending and part of the transverse colon have already been considered in the [[Small Intestine Overview - Anatomy & Physiology|development of the small intestine]]. The hindgut forms the portion of the transverse [[Colon - Anatomy & Physiology|colon]] that lies to the left of the midline, the descending [[Colon - Anatomy & Physiology|colon]] and [[Avian Vent and Cloaca - Anatomy & Physiology#The Cloaca|cloaca]]. The anal membrane breaks down to allow communication with the exterior. | ||
+ | |||
+ | The large intestine can be divided into: | ||
− | + | *[[Caecum - Anatomy & Physiology|Caecum]] | |
− | + | *[[Colon - Anatomy & Physiology|Colon]] | |
− | + | *[[Rectum - Anatomy & Physiology|Rectum]] | |
+ | *[[Anus - Anatomy & Physiology|Anus]] | ||
==Function== | ==Function== | ||
− | + | '''Water Absorption''' | |
− | '''Water Absorption | + | *Chyme entering the large intestine is semi solid. By the time chyme leaves the large intestine as faeces it is solid because most of the remaining water has been absorbed. |
− | Chyme entering the large intestine is semi solid. By the time chyme leaves the large intestine as faeces it is solid because most of the remaining water has been absorbed. Water absorption is achieved by the generation of an osmotic gradient between the gut lumen and the enterocytes. Sodium is actively transported into the enterocyte and is followed passively by chloride ions to increase the osmotic potential of the enterocyte. | + | **Water absorption is achieved by the generation of an osmotic gradient between the gut lumen and the enterocytes. Sodium is actively transported into the enterocyte and is followed passively by chloride ions to increase the osmotic potential of the enterocyte. |
− | + | '''Vitamin Absorption''' | |
− | '''Vitamin Absorption | + | *The large intestine is colonised by a large quantity of bacteria that produce vitamins as a consequence of their own metabolism. The large intestine absorbs these vitamins, in addition to vitamins present in the diet. |
− | The large intestine is colonised by a large quantity of bacteria that produce vitamins as a consequence of their own metabolism. The large intestine absorbs these vitamins, in addition to vitamins present in the diet. | + | '''Transportation''' |
− | + | *Chyme is transported slowly in the large intestine. | |
− | '''Transportation | + | *Chyme from the small intestine passes into the caecum and the colon in similar amounts. |
− | Chyme is transported slowly in the large intestine. Chyme from the small intestine passes into the caecum and the colon in similar amounts. | + | '''Storage and Defecation''' |
− | + | *Remaining water, waste and undigested food is stored as faeces prior to defecation. Defecation is the periodical expulsion of faeces into the environment. | |
− | '''Storage and Defecation | + | '''Defence Against Pathogens''' |
− | Remaining water, waste and undigested food is stored as faeces prior to defecation. Defecation is the periodical expulsion of faeces into the environment. | ||
− | |||
− | ''' | ||
''Secretions'' | ''Secretions'' | ||
− | + | *Mucus - inhibits contact and protects the mucosal surface | |
− | Mucus inhibits contact and protects the mucosal surface | + | *Digestive enzymes - nonspecifically target bacteria and viruses |
− | + | *Bile - kills some bacteria and viruses | |
''Epithelium'' | ''Epithelium'' | ||
− | + | *"Tight junctions" between epithelial cells prevent entry of macromolecules and pathogens into the intestinal tract. | |
− | "Tight junctions" between epithelial cells prevent entry of macromolecules and pathogens. Epithelial cells have a very high turnover rate | + | *Epithelial cells have a very high turnover rate thus preventing pathogens with a longer life cycle from successfully colonising. |
− | |||
''Commensal flora'' | ''Commensal flora'' | ||
− | + | *Commensal flora competitively inhibit attachment of pathogens to enterocytes in addition to competing for nutrition and substrates. Many also produce inhibitory growth substances that are toxic to other bacteria (McGavin and Zachary, 2007). | |
− | Commensal flora competitively inhibit attachment of pathogens to enterocytes in addition to competing for nutrition and substrates. Many also produce inhibitory growth substances that are toxic to other bacteria (McGavin and Zachary, 2007). | ||
− | |||
''Movement'' | ''Movement'' | ||
− | + | *Continuous [http://en.wikipedia.org/wiki/Peristalsis| peristalsis] discourages persistence of toxins and aids in their elimination from the gut. | |
− | Continuous peristalsis discourages persistence of toxins and aids in their elimination from the gut. | + | ''Cell-mediated and humoural defences'' |
− | + | *The lamina propria contains macrophages, B and T lymphocytes, plasma cells, and [[Mast Cells|mast cells]]. | |
− | ''Cell-mediated and humoural | + | *Lymphoid aggregates known as [[Peyer's Patches - Anatomy & Physiology|Peyer's patches]] within the [[Small Intestine Overview - Anatomy & Physiology|small intestine]] aid in immunity. |
− | + | *Secretory [[IgA]] and [[IgM]] provide humoural immunity and help prevent attachment of pathogens to the intestinal epithelium. | |
− | The lamina propria contains macrophages, B and T lymphocytes, plasma cells, and [[Mast Cells|mast cells]]. Lymphoid aggregates known as [[Peyer's Patches - Anatomy & Physiology|Peyer's patches]] within the [[Small Intestine Overview - Anatomy & Physiology|small intestine]] aid in immunity. Secretory [[IgA]] and [[IgM]] provide humoural immunity and help prevent attachment of pathogens to the intestinal epithelium. Lysozyme from Paneth cells inhibits bacterial growth (McGavin & Zachary, 2007). | + | *Lysozyme from Paneth cells inhibits bacterial growth (McGavin & Zachary, 2007). |
==Vasculature== | ==Vasculature== | ||
− | The '''cranial mesenteric artery''' supplies the [[Caecum - Anatomy & Physiology|caecum]], ascending | + | *The '''cranial mesenteric artery''' supplies the [[Caecum - Anatomy & Physiology|caecum]], ascending and part of the transverse [[Colon - Anatomy & Physiology|colon]] |
+ | *The '''caudal mersenteric artery''' supplies the rest of the transverse [[Colon - Anatomy & Physiology|colon]], the descending [[Colon - Anatomy & Physiology|colon]] and the [[Rectum - Anatomy & Physiology|rectum]]. | ||
==Innervation== | ==Innervation== | ||
− | Similarly to the [[Small Intestine Overview - Anatomy & Physiology|small intestine]], there are pacemaker cells that generate an action potential. Cells are able to function as a syncytium due to gap junctions, allowing the action potential to spread. | + | *Similarly to the [[Small Intestine Overview - Anatomy & Physiology|small intestine]], there are pacemaker cells that generate an action potential. |
− | Contractions are generated in the forward (peristaltic) and backward (antiperistaltic) directions. Antiperistaltic contractions move ingesta into the caecum in some species. The formation of action potentials is under a much stronger neural influence than in the [[Monogastric Stomach - Anatomy & Physiology|stomach]] and [[Small Intestine Overview - Anatomy & Physiology|small intestine]]. The large intestine | + | *Cells are able to function as a syncytium due to gap junctions, allowing the action potential to spread. |
+ | **Contractions are generated in the forward (peristaltic) and backward (antiperistaltic) directions. Antiperistaltic contractions move ingesta into the caecum in some species. | ||
+ | *The formation of action potentials is under a much stronger neural influence than in the [[Monogastric Stomach - Anatomy & Physiology|stomach]] and [[Small Intestine Overview - Anatomy & Physiology|small intestine]]. | ||
+ | *The large intestine recieves '''sympathetic''' and '''parasympathetic''' innervation. | ||
+ | **The sympathetic have coeliac, cranial mesenteric and caudal mesenteric ganglia. | ||
+ | **As the sympathetic fibres leave the ganglia, they surround their respective artery. | ||
+ | *Parasympathetic innervation increases the frequency of action potentials and thus stimulates peristalsis. | ||
+ | *Sympathetic innervation has the opposite effect. | ||
+ | *Neurones interact with the myenteric plexus to affect contractility, and with the submucosal plexus to affect secretions. | ||
+ | *Motility of the large intestine increases during meals, possibly as a result of gastrin and cholecystokinin secretion. | ||
==Lymphatics== | ==Lymphatics== | ||
+ | [[Image:Colon fox lymphatic nodule.jpg|thumb|right|150px|Lymphatic Nodule - © RVC 2008]] | ||
+ | *Lymphatic nodules are present in the mucosa of the large intestine. | ||
+ | *Lymph nodes of the large intestine drain into one of two centres, the '''cranial mesenteric centre''' or the '''caudal mesenteric centre'''. | ||
+ | **The '''cranial mesenteric centre''' includes lymph nodes of the [[Small Intestine Overview - Anatomy & Physiology|small intestine]] and the following lymph nodes of the large intestine: | ||
+ | **'''Caecal''' - drains the [[Caecum - Anatomy & Physiology|caecum]]. | ||
+ | **'''Colic''' - drains the ascending and transverse [[Colon - Anatomy & Physiology|colon]]. | ||
+ | ***The efferent vessels of these lymph nodes converge to form the cranial mesenteric trunk which drains into the chyle cistern. | ||
+ | **The '''caudal mesenteric centre''' includes the lymph nodes of the descending [[Colon - Anatomy & Physiology|colon]], which are situated in the mesocolon. | ||
+ | ***The efferent vessels of these lymph nodes converge to form the caudal mesenteric trunk which unites with the cranial mesenteric trunk to open into the chyle cistern. | ||
− | [[ | + | ==[[Large Intestines - Histology|Histology]]== |
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
==Species Differences== | ==Species Differences== | ||
===Carnivore=== | ===Carnivore=== | ||
− | Digestion is nearing completion by the time chyme enters the large intestine. | + | *Digestion is nearing completion by the time chyme enters the large intestine. |
+ | *The dog and cat posses two [[Anus - Anatomy & Physiology#Species Differnces|anal sacs]]. | ||
===Ruminant=== | ===Ruminant=== | ||
− | Digestion is nearing completion by the time chyme enters the large intestine | + | *Digestion is nearing completion by the time chyme enters the large intestine. |
− | ===[[Alimentary System - | + | ===[[Equine Alimentary System - Anatomy & Physiology|Equine]]=== |
− | Most digestion occurs in the large intestine. | + | *Most digestion occurs in the large intestine. |
+ | *Taenia present. | ||
===Porcine=== | ===Porcine=== | ||
− | Taenia | + | *Taenia present |
+ | |||
+ | ==Test yourself with the Large Intestine flashcards== | ||
− | + | *[[Large Intestine - Anatomy & Physiology - Flashcards|Large Intestine Flashcards]] | |
− | |||
==Links== | ==Links== | ||
− | + | *[[Intestines, Small and Large - Pathology|Pathology of the Small and Large Intestine]] | |
− | + | *[[Diarrhoea]] | |
− | + | *[http://stream2.rvc.ac.uk/Anatomy/bovine/Pot0048.mp4 Pot 48 The Small and Large intestine of the Ruminant] | |
− | + | *[http://stream2.rvc.ac.uk/Anatomy/bovine/Pot0052.mp4 Pot 52 Lateral view of the Abdomen of a young Ruminant] | |
− | + | *[http://stream2.rvc.ac.uk/Frean/Pony/left_topography.mp4 Left Sided topography of the Equine abdomen] | |
− | + | *[http://stream2.rvc.ac.uk/Frean/Pony/right_topography.mp4 Right sided topography of the Equine Abdomen] | |
− | + | *[http://stream2.rvc.ac.uk/Anatomy/feline/pot0357.mp4 Pot 357 The Feline Abdomen] | |
− | + | *[http://stream2.rvc.ac.uk/Frean/sheep/LargeSmallIntestine.mp4 Small and Large intestine of the Sheep] | |
− | + | *[http://stream2.rvc.ac.uk/Frean/sheep/RightSideTopography.mp4 Right sided topography of the Ovine Abdomen] | |
− | + | *[http://stream2.rvc.ac.uk/Anatomy/swine/Pig_abdomen.mp4 The Porcine Abdomen] | |
− | |||
− | |||
− | |||
− | |||
− | |||
[[Category:Large Intestine - Anatomy & Physiology]] | [[Category:Large Intestine - Anatomy & Physiology]] | ||
− |
Revision as of 16:36, 7 September 2010
Introduction
The large intestine extends from the ileum of the small intestine to the anus. Water, electrolytes and nutrients are absorbed which concentrates the ingesta into faeces. Faeces are stored prior to defeacation. There is no secretion of enzymes and any digestion that takes place is carried out by microbes. All species have a large microbial population living in the large intestine, which is of particular importance to the hindgut fermenters. For this reason, hindgut fermenters have a more complex large intestine with highly specialised regions for fermentation.
Development
The caecum, ascending and part of the transverse colon have already been considered in the development of the small intestine. The hindgut forms the portion of the transverse colon that lies to the left of the midline, the descending colon and cloaca. The anal membrane breaks down to allow communication with the exterior.
The large intestine can be divided into:
Function
Water Absorption
- Chyme entering the large intestine is semi solid. By the time chyme leaves the large intestine as faeces it is solid because most of the remaining water has been absorbed.
- Water absorption is achieved by the generation of an osmotic gradient between the gut lumen and the enterocytes. Sodium is actively transported into the enterocyte and is followed passively by chloride ions to increase the osmotic potential of the enterocyte.
Vitamin Absorption
- The large intestine is colonised by a large quantity of bacteria that produce vitamins as a consequence of their own metabolism. The large intestine absorbs these vitamins, in addition to vitamins present in the diet.
Transportation
- Chyme is transported slowly in the large intestine.
- Chyme from the small intestine passes into the caecum and the colon in similar amounts.
Storage and Defecation
- Remaining water, waste and undigested food is stored as faeces prior to defecation. Defecation is the periodical expulsion of faeces into the environment.
Defence Against Pathogens
Secretions
- Mucus - inhibits contact and protects the mucosal surface
- Digestive enzymes - nonspecifically target bacteria and viruses
- Bile - kills some bacteria and viruses
Epithelium
- "Tight junctions" between epithelial cells prevent entry of macromolecules and pathogens into the intestinal tract.
- Epithelial cells have a very high turnover rate thus preventing pathogens with a longer life cycle from successfully colonising.
Commensal flora
- Commensal flora competitively inhibit attachment of pathogens to enterocytes in addition to competing for nutrition and substrates. Many also produce inhibitory growth substances that are toxic to other bacteria (McGavin and Zachary, 2007).
Movement
- Continuous peristalsis discourages persistence of toxins and aids in their elimination from the gut.
Cell-mediated and humoural defences
- The lamina propria contains macrophages, B and T lymphocytes, plasma cells, and mast cells.
- Lymphoid aggregates known as Peyer's patches within the small intestine aid in immunity.
- Secretory IgA and IgM provide humoural immunity and help prevent attachment of pathogens to the intestinal epithelium.
- Lysozyme from Paneth cells inhibits bacterial growth (McGavin & Zachary, 2007).
Vasculature
- The cranial mesenteric artery supplies the caecum, ascending and part of the transverse colon
- The caudal mersenteric artery supplies the rest of the transverse colon, the descending colon and the rectum.
Innervation
- Similarly to the small intestine, there are pacemaker cells that generate an action potential.
- Cells are able to function as a syncytium due to gap junctions, allowing the action potential to spread.
- Contractions are generated in the forward (peristaltic) and backward (antiperistaltic) directions. Antiperistaltic contractions move ingesta into the caecum in some species.
- The formation of action potentials is under a much stronger neural influence than in the stomach and small intestine.
- The large intestine recieves sympathetic and parasympathetic innervation.
- The sympathetic have coeliac, cranial mesenteric and caudal mesenteric ganglia.
- As the sympathetic fibres leave the ganglia, they surround their respective artery.
- Parasympathetic innervation increases the frequency of action potentials and thus stimulates peristalsis.
- Sympathetic innervation has the opposite effect.
- Neurones interact with the myenteric plexus to affect contractility, and with the submucosal plexus to affect secretions.
- Motility of the large intestine increases during meals, possibly as a result of gastrin and cholecystokinin secretion.
Lymphatics
- Lymphatic nodules are present in the mucosa of the large intestine.
- Lymph nodes of the large intestine drain into one of two centres, the cranial mesenteric centre or the caudal mesenteric centre.
- The cranial mesenteric centre includes lymph nodes of the small intestine and the following lymph nodes of the large intestine:
- Caecal - drains the caecum.
- Colic - drains the ascending and transverse colon.
- The efferent vessels of these lymph nodes converge to form the cranial mesenteric trunk which drains into the chyle cistern.
- The caudal mesenteric centre includes the lymph nodes of the descending colon, which are situated in the mesocolon.
- The efferent vessels of these lymph nodes converge to form the caudal mesenteric trunk which unites with the cranial mesenteric trunk to open into the chyle cistern.
Histology
Species Differences
Carnivore
- Digestion is nearing completion by the time chyme enters the large intestine.
- The dog and cat posses two anal sacs.
Ruminant
- Digestion is nearing completion by the time chyme enters the large intestine.
Equine
- Most digestion occurs in the large intestine.
- Taenia present.
Porcine
- Taenia present
Test yourself with the Large Intestine flashcards
Links
- Pathology of the Small and Large Intestine
- Diarrhoea
- Pot 48 The Small and Large intestine of the Ruminant
- Pot 52 Lateral view of the Abdomen of a young Ruminant
- Left Sided topography of the Equine abdomen
- Right sided topography of the Equine Abdomen
- Pot 357 The Feline Abdomen
- Small and Large intestine of the Sheep
- Right sided topography of the Ovine Abdomen
- The Porcine Abdomen