Difference between revisions of "Thrombocytes"
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Image:LH_Avian_Thrombocyte_Histology.jpg|<center><p>'''Avian Thrombocytes'''</p><sup>©RVC 2008</sup></center></gallery> | Image:LH_Avian_Thrombocyte_Histology.jpg|<center><p>'''Avian Thrombocytes'''</p><sup>©RVC 2008</sup></center></gallery> | ||
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− | '' | + | Commonly known as '''''platelets |
− | + | ==Introduction== | |
+ | Thrombocytes are small anuclear fragments of [[Thrombopoiesis#Megakaryocyte|megakaryocytes]]. They are membrane bound portions of the megakaryocyte cytoplasm and have a finely granular cytoplasm; they are much smaller than other blood cells at 2-3µm and have a lifespan of around 10 days in the circulation. | ||
+ | |||
==Development== | ==Development== | ||
− | <p>[[Thrombopoiesis | + | <p>[[Thrombopoiesis#Megakaryocyte|Megakaryocytes]] develop from [[Haematopoiesis - Overview#Colony Forming Units |CFU-GEMM]] and from these thrombocytes are formed during [[Thrombopoiesis|thrombopoiesis]].</p> |
==Structure== | ==Structure== | ||
− | [[Image:LH_Thrombocyte_TEM.jpg|thumb|150px|<p>'''Thrombocyte | + | [[Image:LH_Thrombocyte_TEM.jpg|thumb|150px|<p>'''Transmission electron microscopy view of a Thrombocyte '''</p><sup>©Nottingham Uni 2008</sup>]] |
The thrombocyte is structurally divided into four zones: | The thrombocyte is structurally divided into four zones: | ||
* ''Peripheral zone'' is the outer membrane with a coat of glycocalyx | * ''Peripheral zone'' is the outer membrane with a coat of glycocalyx | ||
* ''Structural zone'' contains microtubules and actin and myosin filaments | * ''Structural zone'' contains microtubules and actin and myosin filaments | ||
* ''Organelle zone'' contains organelles such as mitochondria along with three different granule types | * ''Organelle zone'' contains organelles such as mitochondria along with three different granule types | ||
− | * ''Membrane zone'' is made of two types of membrane. One, the open canicular system, is membrane not used when the platelet budded off the megakaryocyte. The other, the dense tubular system, is membrane from the rough endoplasmic reticulum and is involved in calcium ion storage and regulation. | + | * ''Membrane zone'' is made of of two types of membrane. One, the open canicular system, is membrane not used when the platelet budded off the megakaryocyte. The other, the dense tubular system, is membrane from the rough endoplasmic reticulum and is involved in calcium ion storage and regulation. |
− | <p> | + | <p>Reptilian thrombocytes are ellipsoidal to fusiform shaped with an elliptical, centrally positioned nucleus. They are similar in function to mammalian platelets and are involved in thrombus formation, blood clotting and wound healing. |
+ | </P> | ||
+ | [[Image:Thrombocyte.jpg|150px|thumb|right|'''Reptilian Thrombocytes''' (Copyright © RVC. All rights reserved)]] | ||
+ | |||
==Granules== | ==Granules== | ||
*α granules are the most common and contain coagulation factors, fibrinogen, plasminogen, plasminogen activator factor and platelet derived growth factor (PDGF) | *α granules are the most common and contain coagulation factors, fibrinogen, plasminogen, plasminogen activator factor and platelet derived growth factor (PDGF) | ||
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==Actions== | ==Actions== | ||
− | <p>Thrombocytes play a number of roles in [[ | + | <p>Thrombocytes play a number of roles in [[Normal_Mechanisms_of_Haemostatic_Control#Platelet_Responses|haemostasis]]. They adhere to exposed connective tissue in the walls of blood vessels forming platelet plugs, while releasing a number of factors from their granules. The glycocalyx on their surface provides a surface for fibrinogen to convert to fibrin leading to the formation of the secondary haemostatic plug. The platelets then contract (see structural zone) reducing the clot size. Finally lytic enzymes are released to break the clot down.</p><p>If platelet numbers fall below 50x10<sup>9</sup>/l an animal is likely to haemorrhage after trauma and if the count falls below 30x10<sup>9</sup>/l then spontaneous haemorrhage is a risk.</p><p>PDGF from the granules stimulates tissue repair in blood vessels by stimulating smooth muscle cell growth and division and by stimulating fibroblast activity.</p> |
− | + | ===Pathology=== | |
− | + | [[Category:Blood_Cells]] [[Category:Kate English reviewing]] | |
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− | [[ |
Latest revision as of 12:54, 16 February 2011
Commonly known as platelets
Introduction
Thrombocytes are small anuclear fragments of megakaryocytes. They are membrane bound portions of the megakaryocyte cytoplasm and have a finely granular cytoplasm; they are much smaller than other blood cells at 2-3µm and have a lifespan of around 10 days in the circulation.
Development
Megakaryocytes develop from CFU-GEMM and from these thrombocytes are formed during thrombopoiesis.
Structure
The thrombocyte is structurally divided into four zones:
- Peripheral zone is the outer membrane with a coat of glycocalyx
- Structural zone contains microtubules and actin and myosin filaments
- Organelle zone contains organelles such as mitochondria along with three different granule types
- Membrane zone is made of of two types of membrane. One, the open canicular system, is membrane not used when the platelet budded off the megakaryocyte. The other, the dense tubular system, is membrane from the rough endoplasmic reticulum and is involved in calcium ion storage and regulation.
Reptilian thrombocytes are ellipsoidal to fusiform shaped with an elliptical, centrally positioned nucleus. They are similar in function to mammalian platelets and are involved in thrombus formation, blood clotting and wound healing.
Granules
- α granules are the most common and contain coagulation factors, fibrinogen, plasminogen, plasminogen activator factor and platelet derived growth factor (PDGF)
- δ granules contain ADP, ATP, serotonin and histamine and aid platelet adhesion and vasoconstriction
- λ granules contain lysosomes with hydrolytic enzymes to aid clot resorption
Actions
Thrombocytes play a number of roles in haemostasis. They adhere to exposed connective tissue in the walls of blood vessels forming platelet plugs, while releasing a number of factors from their granules. The glycocalyx on their surface provides a surface for fibrinogen to convert to fibrin leading to the formation of the secondary haemostatic plug. The platelets then contract (see structural zone) reducing the clot size. Finally lytic enzymes are released to break the clot down.
If platelet numbers fall below 50x109/l an animal is likely to haemorrhage after trauma and if the count falls below 30x109/l then spontaneous haemorrhage is a risk.
PDGF from the granules stimulates tissue repair in blood vessels by stimulating smooth muscle cell growth and division and by stimulating fibroblast activity.