Difference between revisions of "Acute Inflammation - Introduction"
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==Introduction== | ==Introduction== | ||
| − | Acute inflammation is characterised | + | * Acute inflammation is characterised sudden onset and may last for a few hours to a few days. |
| − | + | * Vascular, humoral and cellular alterations cause the 5 cardinal signs as a result of exposure of tissues to various causes. | |
| − | + | * Acute inflammation can: | |
| − | + | *# Be fatal | |
| − | + | *# Resolve by regeneration in association with the host defence mechanisms. | |
| − | + | *#* May be assisted by therapeutic measures. | |
| − | + | *# Undergo repair by fibrosis. | |
| + | *# Become chronic. | ||
| + | *#* First goes through a subacute phase. | ||
| + | *#* Is dependent upon the persistence of the agent and the amount of damage caused. | ||
==Sequence of Events== | ==Sequence of Events== | ||
| − | The following sequence of events is provoked by the presence of the irritant. | + | * The following sequence of events is provoked by the presence of the irritant. |
# '''Momentary vasoconstriction''' | # '''Momentary vasoconstriction''' | ||
| − | #* Following contact with the irritant, there is momentary vasoconstriction of the blood vessels in the affected area | + | #* Following contact with the irritant, there is momentary vasoconstriction of the blood vessels in the affected area. |
| + | #* This is reversed within minutes. | ||
# '''Dilation of the blood vessels''' | # '''Dilation of the blood vessels''' | ||
| − | #* Initially, dilation of the capillaries is caused by the release of chemical mediators. | + | #* Initially, dilation of the capillaries is caused by the release of chemical mediators. |
| + | #* Arterioles then dilate under the influence of a local axon reflex. | ||
| + | #* This gives rise to an initial acceleration of the blood flow to the area. | ||
| + | #** This later gives way to a slowing of blood flow, caused by alterations in vascular endothelial permeability and the filling of previously closed capillaries. | ||
# '''[[Exudation of fluid]]''' | # '''[[Exudation of fluid]]''' | ||
| − | #* | + | #* Follwing the slowing of blood flow and altered capillary permeability, a protein-rich fluid is exudated. |
# '''Margination of leukocytes''' | # '''Margination of leukocytes''' | ||
| − | #* Circulating white blood cells | + | #* Circulating white blood cells are attracted to the altered endothelial surfaces. |
# '''Emigration of leukocytes''' | # '''Emigration of leukocytes''' | ||
| − | #* [[Leukocytes|Leukocytes]] | + | #* [[Leukocytes|Leukocytes]] migrate through the altered endothelium to reach the injured area. |
| + | #* This is an active process - [http://www.cellsalive.com/chemotx.htm| chemotaxis]. | ||
| + | #** The cells are attracted to the endothelium by release of proteins, and further into the tissues by factors released from cells in the damaged area. | ||
| + | #** The emigrated leukocytes and components of the fluid exudate are also chemotactic. | ||
| + | #** More cells and fluid are attracted to the area. | ||
# '''Emigration of red blood cells''' | # '''Emigration of red blood cells''' | ||
| − | #* | + | #* [[Erythrocytes|Erythrocytes]] migrate through the gaps in the altered endothelium to the damaged tissue. |
# '''Induction of an increase in temperature''' | # '''Induction of an increase in temperature''' | ||
| − | #* This | + | #* This may occur either locally or systemically. |
| + | #* A systemic rise in temperature is known as pyrexia. | ||
| + | #** Occurs in generalise acute inflammation. | ||
| + | #** Pyrogens act on the temperature control centres in the hypothalamus, and are released from: | ||
| + | #*** [[Neutrophils|Neutrophils]], [[Eosinophils|eosinophils]] and [[Macrophages|macrophages]] | ||
| + | #**** Particulary [[Neutrophils|neutrophils]] when they begin to phagocytose. | ||
| + | #*** The cellular coat of gram-negative organisms. | ||
| + | #*** Necrosis of damaged tissue cells. | ||
| + | #*** Antigen-antibody complexes. | ||
| + | #*** Tumours. | ||
| + | #**** Particularly those which have metastasised | ||
| + | #**** It may be difficult to separate this from the pyrexia caused by the central necrosis in such tumours. | ||
==Cells== | ==Cells== | ||
| − | + | ||
| − | * The classical cells of acute inflammation are [[Neutrophils|neutrophils]], [[Eosinophils|eosinophils]], [[Macrophages|macrophages]], [[Mast Cells|mast cells]] and [[Basophils|basophils]] | + | * The classical cells of acute inflammation are [[Neutrophils|neutrophils]], [[Eosinophils|eosinophils]], [[Macrophages|macrophages]], [[Mast Cells|mast cells]] and [[Basophils|basophils]]. |
| − | + | ** [[Macrophages|Macrophages]] are a common feature of acute and chronic inflammation. | |
[[Category:Acute Inflammation|A]] | [[Category:Acute Inflammation|A]] | ||
| − | [[Category:To Do - | + | [[Category:To Do - Blood]] |
Revision as of 11:09, 4 August 2010
Introduction
- Acute inflammation is characterised sudden onset and may last for a few hours to a few days.
- Vascular, humoral and cellular alterations cause the 5 cardinal signs as a result of exposure of tissues to various causes.
- Acute inflammation can:
- Be fatal
- Resolve by regeneration in association with the host defence mechanisms.
- May be assisted by therapeutic measures.
- Undergo repair by fibrosis.
- Become chronic.
- First goes through a subacute phase.
- Is dependent upon the persistence of the agent and the amount of damage caused.
Sequence of Events
- The following sequence of events is provoked by the presence of the irritant.
- Momentary vasoconstriction
- Following contact with the irritant, there is momentary vasoconstriction of the blood vessels in the affected area.
- This is reversed within minutes.
- Dilation of the blood vessels
- Initially, dilation of the capillaries is caused by the release of chemical mediators.
- Arterioles then dilate under the influence of a local axon reflex.
- This gives rise to an initial acceleration of the blood flow to the area.
- This later gives way to a slowing of blood flow, caused by alterations in vascular endothelial permeability and the filling of previously closed capillaries.
- Exudation of fluid
- Follwing the slowing of blood flow and altered capillary permeability, a protein-rich fluid is exudated.
- Margination of leukocytes
- Circulating white blood cells are attracted to the altered endothelial surfaces.
- Emigration of leukocytes
- Leukocytes migrate through the altered endothelium to reach the injured area.
- This is an active process - chemotaxis.
- The cells are attracted to the endothelium by release of proteins, and further into the tissues by factors released from cells in the damaged area.
- The emigrated leukocytes and components of the fluid exudate are also chemotactic.
- More cells and fluid are attracted to the area.
- Emigration of red blood cells
- Erythrocytes migrate through the gaps in the altered endothelium to the damaged tissue.
- Induction of an increase in temperature
- This may occur either locally or systemically.
- A systemic rise in temperature is known as pyrexia.
- Occurs in generalise acute inflammation.
- Pyrogens act on the temperature control centres in the hypothalamus, and are released from:
- Neutrophils, eosinophils and macrophages
- Particulary neutrophils when they begin to phagocytose.
- The cellular coat of gram-negative organisms.
- Necrosis of damaged tissue cells.
- Antigen-antibody complexes.
- Tumours.
- Particularly those which have metastasised
- It may be difficult to separate this from the pyrexia caused by the central necrosis in such tumours.
- Neutrophils, eosinophils and macrophages
Cells
- The classical cells of acute inflammation are neutrophils, eosinophils, macrophages, mast cells and basophils.
- Macrophages are a common feature of acute and chronic inflammation.