Difference between revisions of "Vomiting"
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(Created page with '==The Vomit Reflex== right|thumb|150px|The Vomit Reflex - Copyright nabrown RVC *Emesis is the process of vomiting *Persistent vomiting ca…') |
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| + | * Has potentially lethal effects in the monogastric animal. | ||
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| + | ===Water Loss=== | ||
| + | |||
| + | * Fluid loss is evident as: | ||
| + | *# An increased PCV or haematocrit. | ||
| + | *# An increased total protein concentration. | ||
| + | *# A prerenal azotaemia. | ||
| + | |||
| + | |||
| + | ===Gastric Electrolyte Loss=== | ||
| + | |||
| + | * The main losses are of H<sup>+</sup> and Cl<sup>-</sup>, and also K<sup>+</sup> | ||
| + | * Can potentially cause metabolic alkalosis, although this is only likely with disease which stops at the pylorus, e.g.: pyloric outflow obstruction. | ||
| + | ** In cases where mild alkalosis occurs, homeostatic mechanisms produce a more alkaline urine to restore normal body pH. | ||
| + | ** However, in severe metablolic alkalosis with marked dehydration, acidic urine may be produced- this is termed '''paradoxical aciduria'''. | ||
| + | *** Because [[Control of Feeding - Anatomy & Physiology#The Vomit Reflex|vomiting]] induceses hypokalaemia, there is an overriding stimulus in the kidney for Na<sup>+</sup> (and therefore water) retention. | ||
| + | *** Na+ can only be resorbed in exchange for H+ | ||
| + | **** H<sup>+</sup> is therefore excreted in the urine, causing it to be acidic. | ||
| + | *** [[Control of Feeding - Anatomy & Physiology#The Vomit Reflex|Vomiting]] also induces hypochloraemia, meaning bicarbonate rather than chloride is resorbed with the Na+ to maintain electrical neutrality | ||
| + | **** This perpetuates the alkalosis. | ||
| + | * [[Control of Feeding - Anatomy & Physiology#The Vomit Reflex|Vomiting]] does not occur in the ruminant although [[The Abomasum - Anatomy & Physiology|abomasal]] content may reflux into the [[Stomach and Abomasum - Anatomy & Physiology|forestomachs]]. | ||
| + | ** Sequestration of secretions in the [[The Abomasum - Anatomy & Physiology|abomasum]] will have similar effects to pyloric outflow obstruction with [[Control of Feeding - Anatomy & Physiology#The Vomit Reflex|vomiting]] in the monogastric animal. | ||
| + | *** e.g. abomasal torsion | ||
| + | *** Causes dehydration, hypochloraemia, hypokalaemia and metabolic alkalosis. | ||
| + | |||
| + | |||
| + | * Lesions in the [[Small Intestine - Anatomy & Physiology|small intestine]] can also lead to [[Control of Feeding - Anatomy & Physiology#The Vomit Reflex|vomiting]] | ||
| + | ** Both gastric acid and pancreatic and intestinal bicarbonate secretions are lost | ||
| + | *** Animal consequently has a normal pH or may even be acidotic. | ||
| + | |||
| + | |||
==The Vomit Reflex== | ==The Vomit Reflex== | ||
[[Image:The Vomit Reflex Pathway.jpg|right|thumb|150px|The Vomit Reflex - Copyright nabrown RVC]] | [[Image:The Vomit Reflex Pathway.jpg|right|thumb|150px|The Vomit Reflex - Copyright nabrown RVC]] | ||
Revision as of 12:10, 26 July 2010
- Has potentially lethal effects in the monogastric animal.
Water Loss
- Fluid loss is evident as:
- An increased PCV or haematocrit.
- An increased total protein concentration.
- A prerenal azotaemia.
Gastric Electrolyte Loss
- The main losses are of H+ and Cl-, and also K+
- Can potentially cause metabolic alkalosis, although this is only likely with disease which stops at the pylorus, e.g.: pyloric outflow obstruction.
- In cases where mild alkalosis occurs, homeostatic mechanisms produce a more alkaline urine to restore normal body pH.
- However, in severe metablolic alkalosis with marked dehydration, acidic urine may be produced- this is termed paradoxical aciduria.
- Because vomiting induceses hypokalaemia, there is an overriding stimulus in the kidney for Na+ (and therefore water) retention.
- Na+ can only be resorbed in exchange for H+
- H+ is therefore excreted in the urine, causing it to be acidic.
- Vomiting also induces hypochloraemia, meaning bicarbonate rather than chloride is resorbed with the Na+ to maintain electrical neutrality
- This perpetuates the alkalosis.
- Vomiting does not occur in the ruminant although abomasal content may reflux into the forestomachs.
- Lesions in the small intestine can also lead to vomiting
- Both gastric acid and pancreatic and intestinal bicarbonate secretions are lost
- Animal consequently has a normal pH or may even be acidotic.
- Both gastric acid and pancreatic and intestinal bicarbonate secretions are lost
The Vomit Reflex
- Emesis is the process of vomiting
- Persistent vomiting can be exhausting and can lead to metabolic alkalosis, dehydration and electrolyte inbalances which may require fluid therapy
- Extreme cases of persistent vomiting can lead to shock
- Retching involves the abdominal and chest walls contracting
- Vomiting includes retching and the action of the diaphragm
- Diaphragm moves caudal to open the cardia
- Gastrointestinal tract have protective stimuli to recognise harmful products ingested. The mechanoreceptors and chemoreceptors respond using viscerent afferent pathways.
- Medulla co-ordinates process
- Chemoreceptive trigger zone in the 4th ventricle responds to blood and CSF
- Inputs also from inner ear and higher centres
- Emetic agents can be used in cases of gastric obstruction and to remove non-corrosive poisons from the stomach (for corrosive poisons charcoal can be used which will help adsorb the substance and decrease its absorbtion into the GIT)
- For more information on emetic and anti-emetic drugs click here
Emetic agents
- Drugs cause emesis by irritating the gastric mucosa
- Histamine
- ACh
- Dopamine
- Catecholamines
- 5-hydroxytryptamine
- Substance P
- Enkephalins
- NK1 receptor agonists
Anti-emetic agents
- Anti-emetic agents can be used to treat motion sickness and to treat or prevent vomiting
- Dopamine (D2) receptor antagonists
- 5-hydroxytryptamine antagonists
- NK1 receptor antagonists
- Muscarinic receptor antagonists
- Histamine (H1) receptor antagonists
- Gastroprotective agents