Difference between revisions of "Colic Pathophysiology in Horses"
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==Pathophysiology== | ==Pathophysiology== | ||
− | It is important to understand the pathophysiology of gastrointestinal obstructions in order to clinically assess the patient and formulate a treatment plan. Abnormalities of the equine gastrointestinal tract which prevent the progression of intestinal contents, constitutes an obstruction. Obstructions can be physical or functional and they can be broadly divided into simple obstructions, strangulating obstructions, and non-strangulating infarctions. | + | It is important to understand the pathophysiology of gastrointestinal obstructions in order to clinically assess the patient and formulate a treatment plan. Abnormalities of the equine [[Gastrointestinal Tract|gastrointestinal tract]] which prevent the progression of intestinal contents, constitutes an obstruction. Obstructions can be physical or functional and they can be broadly divided into simple obstructions, strangulating obstructions, and non-strangulating [[infarctions]]. |
===Simple Obstruction=== | ===Simple Obstruction=== | ||
− | This is characterised by a physical obstruction of the intestine with no initial vascular compromise to the affected bowel. A simple obstruction can be due to impacted food material, stricture formation, or foreign bodies. The primary pathophysiological abnormality caused by this obstruction is related to the trapping of fluid within the intestine, oral to the obstruction. This is due to the large amount of fluid produced in the upper gastro-intestinal tract (around 125L daily), and the fact that this fluid cannot reach the absorptive surfaces of the large intestine downstream from the obstruction. This fluid becomes sequestrated or can be lost by nasogastric reflux. | + | This is characterised by a physical obstruction of the intestine with no initial vascular compromise to the affected bowel. A simple obstruction can be due to impacted food material, [[stricture]] formation, or foreign bodies. The primary pathophysiological abnormality caused by this obstruction is related to the trapping of fluid within the intestine, oral to the obstruction. This is due to the large amount of fluid produced in the upper gastro-intestinal tract (around 125L daily), and the fact that this fluid cannot reach the absorptive surfaces of the large intestine downstream from the obstruction. This fluid becomes sequestrated or can be lost by [[Nasogastric Reflux| nasogastric reflux]]. |
− | The first problem with this degree of fluid loss from circulation is one of decreased plasma volume, leading to a reduced cardiac output, and acid-base disturbances. | + | The first problem with this degree of fluid loss from circulation is one of decreased plasma volume, leading to a reduced [[cardiac output]], and [[acid-base imbalance|acid-base disturbances]]. |
− | There are also serious effects on the intestine itself. The continued secretion of trapped fluids and the gas production from bacteria cause an increase in the intraluminal hydrostatic pressure and distends the intestine. It is this distension, and subsequent activation of stretch receptors within the intestinal wall, that leads to the associated pain. Peristalsis is reduced and subsequently stops all together | + | There are also serious effects on the intestine itself. The continued secretion of trapped fluids and the gas production from bacteria cause an increase in the intraluminal hydrostatic pressure and distends the intestine. It is this distension, and subsequent activation of [[Stretch receptor|stretch receptors]] within the intestinal wall, that leads to the associated pain. [[Peristalsis]] is reduced and subsequently stops all together. With progressive distension of the intestinal wall, there is occlusion of blood vessels, firstly veins, then arteries. The difference in time to onset of occlusion is due to the relatively more rigid walls of arteries compared with veins. This impairment of blood supply leads firstly to [[hyperaemia]] and congestion, and ultimately to [[ischaemic]] [[necrosis]] and [[cellular death]]. The poor blood supply also has effects on the vascular endothelium, leading to an increased permeability. This results initially in leakage of [[plasma]], and eventually blood into the intestinal lumen. In the opposite fashion, [[gram-negative]] bacteria and [[endotoxin]]s can enter the bloodstream, leading to further systemic effects. |
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===Strangulating Infarction=== | ===Strangulating Infarction=== | ||
− | Strangulating infarctions have all the same pathological features as a simple obstruction, but the bloody supply is immediately affected | + | Strangulating infarctions have all the same pathological features as a simple obstruction, but the bloody supply is immediately affected. Both arteries and veins may be effected immediately, or progressively as in simple obstruction. Common causes of strangulating obstruction are pedunculated lipomas, and displacement of intestine through a hole, such as a [[hernia]], a mesenteric rent, or the [[epiploic foramen]]. |
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===Non-strangulating Infarction=== | ===Non-strangulating Infarction=== | ||
− | In a non-strangulating infarction, blood supply to a section of intestine is occluded, without any obstruction to ingesta present within the intestinal lumen. The most common cause is infection with ''Strongylus vulgaris'' larvae, which develop within the (primarily cranial)mesenteric artery. | + | In a non-strangulating infarction, blood supply to a section of intestine is occluded, without any obstruction to ingesta present within the intestinal lumen. The most common cause is infection with ''Strongylus vulgaris'' larvae, which develop within the (primarily cranial) [[mesenteric artery]]. |
==References== | ==References== | ||
− | * Edwards B. ( | + | * Edwards B. (2006, Diagnosis and Pathophysiology of Intestinal Obstruction, in Equine Gastroenterology courtesy of the University of Liverpool, pp 3-18 |
* Meuller E, Moore J. N, (2008) Classification and Pathophysiology of Colic, Gastrointestinal Emergencies and Other Causes of Colic, in Equine Emergencies- Treatments and Procedures, 3rd Edition, Eds Orsini J. A, Divers T.J, Saunders Elsevier, pp 107 | * Meuller E, Moore J. N, (2008) Classification and Pathophysiology of Colic, Gastrointestinal Emergencies and Other Causes of Colic, in Equine Emergencies- Treatments and Procedures, 3rd Edition, Eds Orsini J. A, Divers T.J, Saunders Elsevier, pp 107 | ||
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Revision as of 14:11, 21 May 2010
Pathophysiology
It is important to understand the pathophysiology of gastrointestinal obstructions in order to clinically assess the patient and formulate a treatment plan. Abnormalities of the equine gastrointestinal tract which prevent the progression of intestinal contents, constitutes an obstruction. Obstructions can be physical or functional and they can be broadly divided into simple obstructions, strangulating obstructions, and non-strangulating infarctions.
Simple Obstruction
This is characterised by a physical obstruction of the intestine with no initial vascular compromise to the affected bowel. A simple obstruction can be due to impacted food material, stricture formation, or foreign bodies. The primary pathophysiological abnormality caused by this obstruction is related to the trapping of fluid within the intestine, oral to the obstruction. This is due to the large amount of fluid produced in the upper gastro-intestinal tract (around 125L daily), and the fact that this fluid cannot reach the absorptive surfaces of the large intestine downstream from the obstruction. This fluid becomes sequestrated or can be lost by nasogastric reflux. The first problem with this degree of fluid loss from circulation is one of decreased plasma volume, leading to a reduced cardiac output, and acid-base disturbances.
There are also serious effects on the intestine itself. The continued secretion of trapped fluids and the gas production from bacteria cause an increase in the intraluminal hydrostatic pressure and distends the intestine. It is this distension, and subsequent activation of stretch receptors within the intestinal wall, that leads to the associated pain. Peristalsis is reduced and subsequently stops all together. With progressive distension of the intestinal wall, there is occlusion of blood vessels, firstly veins, then arteries. The difference in time to onset of occlusion is due to the relatively more rigid walls of arteries compared with veins. This impairment of blood supply leads firstly to hyperaemia and congestion, and ultimately to ischaemic necrosis and cellular death. The poor blood supply also has effects on the vascular endothelium, leading to an increased permeability. This results initially in leakage of plasma, and eventually blood into the intestinal lumen. In the opposite fashion, gram-negative bacteria and endotoxins can enter the bloodstream, leading to further systemic effects.
Strangulating Infarction
Strangulating infarctions have all the same pathological features as a simple obstruction, but the bloody supply is immediately affected. Both arteries and veins may be effected immediately, or progressively as in simple obstruction. Common causes of strangulating obstruction are pedunculated lipomas, and displacement of intestine through a hole, such as a hernia, a mesenteric rent, or the epiploic foramen.
Non-strangulating Infarction
In a non-strangulating infarction, blood supply to a section of intestine is occluded, without any obstruction to ingesta present within the intestinal lumen. The most common cause is infection with Strongylus vulgaris larvae, which develop within the (primarily cranial) mesenteric artery.
References
- Edwards B. (2006, Diagnosis and Pathophysiology of Intestinal Obstruction, in Equine Gastroenterology courtesy of the University of Liverpool, pp 3-18
- Meuller E, Moore J. N, (2008) Classification and Pathophysiology of Colic, Gastrointestinal Emergencies and Other Causes of Colic, in Equine Emergencies- Treatments and Procedures, 3rd Edition, Eds Orsini J. A, Divers T.J, Saunders Elsevier, pp 107