Difference between revisions of "Platelet Abnormalities"
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Causes of acquired thrombocytopathia include: | Causes of acquired thrombocytopathia include: | ||
− | + | *Infection with ''[[Angiostrongylus vasorum]]'', the canine lungworm, which also causes a consumptive coagulopathy. | |
+ | *Administration of large volumes of some '''[[Colloids|colloid solutions]]'''. | ||
+ | *Administration of certain '''pharmaceutical products''', including [[NSAIDs|non-steroidal anti-inflammatory drugs]] and [[Cephalosporins|cephalosporins]]. | ||
==Thrombocytosis== | ==Thrombocytosis== | ||
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*Pathological | *Pathological | ||
**'''Essential thrombocythaemia''' | **'''Essential thrombocythaemia''' | ||
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[[Category:Haemorrhagic Diseases]] | [[Category:Haemorrhagic Diseases]] | ||
[[Category:To Do - James]][[Category:Blood Cell Changes]] | [[Category:To Do - James]][[Category:Blood Cell Changes]] |
Revision as of 19:05, 18 August 2010
This article is still under construction. |
Description
Platelets (or thrombocytes) are responsible for primary haemostasis, the formation of a temporary platelet plug that initially seals any breach to a blood vessel wall. Bleeding disorders may occur if platelets are deficient (thrombocytopaenia) or if the platelets are unable to function adequately (thrombocytopathia). Immune-mediated thrombocytopaenia (ITP) is one common cause of thrombocytopaenia and this may be a primary or secondary disease. Thrombocytosis refers to an increase in the blood platelet concentration above the normal level.
Thrombocytopaenia and thrombocytopathia lead to disorders of primary haemostasis but, in general, this is less serious than the disorders of secondary haemostasis caused by deficiencies in the clotting factors.
Thrombocytopaenia
Thrombocytopaenia is the most common haematological abnormality as platelet numbers are subject to fluctation in a large number of different diseases however care should be taken to ensure that this finding is not caused by an artefact of sampling. The normal blood platelet concentration of the dog is 175-500x10^9 but clinical disease is not usually observed until this level falls below 50x10^9 and spontaneous haemorrhage is observed only when the level falls below 20x10^9. Reductions in the number of platelets may be caused by failure to produce adequate numbers in the bone marrow in the process of megakaryopoiesis, increased destruction of existing platelets or sequestration of platelets outside of the circulation.
- Diseases that cause bone marrow suppression
- Aplastic anaemia caused by ingestion of bracken, administration of oestrogens or of chloramphenicol or sulphonamide antibiotics. Prolonged use of phenylbutazone or salicylate may cause the same disease.
- Infectious diseases that reduce stem cell function, including canine distemper virus, canine parvovirus and feline panleucopaenia virus.
- Myelophthisis, the displacement of the normal cell lines of the bone marrow by another cell or tissue type may also reduce the function of the megakaryocytes. Possible diseases include myelofibrosis and immunoproliferative or myeloproliferative neoplastic disease.
- Radiotherapy or myelosuppressive chemotherapy may cause reversible bone marrow suppression.
- Diseases that cause increased destruction of platelets
- Immune-mediated thrombocytopaenia is a common autoimmune disease that leads to the destruction of platelets by cell of the monocyte phagocyte system (MPS).
- Infectious diseases that cause destruction of platelets include bovine viral diarrhoea, classical swine fever and infectious canine hepatitis. The parasites Ehrlichia platys, Anaplasma phagocytophilum and Ehrlichia canis may also cause infectious thrombocytopaenia. Any severe bacterial infection, including those caused by Staphylococci and the Gram negative bacteria that produce endotoxin (e.g. Pseudomonas spp. or Salmonella spp.) may also result in the destruction of platelets.
- Diseases that cause sequestration of platelets usually involve some enlargement of the spleen as this is the major organ where platelets are stored outside of the circulation. Examples include:
- Haemangiosarcoma of the spleen and liver
- Splenic enlargement under general anaesthesia maintained with agents such as barbiturates and phenothiazines
- Artefactual or spurious thrombocytopaenia
- Cavalier King Charles spaniels have a relatively small number of giant platelets (macrothrombocytes) but they do not suffer from bleeding disorders as they maintain a similar total platelet mass as do dogs of other breeds.
- If venepuncture is traumatic, platelet clumps may form and these will not be counted by automated machines. The presence of clumps can be investigated by making a blood smear and examining the feathered edge for large agglomerations of platelets.
Thrombocytopathia
Defects in platelet function may be congenital defects or they may be acquired with a number of diseases. Congenital thrombocytopathias are rare inherited diseases which are characterised by defects in platelet adhesiveness, aggregation and factor release. The defects are usually associated with particular breeds, such as Chediak-Higashi syndrome in blue smoke Persian cats.
Causes of acquired thrombocytopathia include:
- Infection with Angiostrongylus vasorum, the canine lungworm, which also causes a consumptive coagulopathy.
- Administration of large volumes of some colloid solutions.
- Administration of certain pharmaceutical products, including non-steroidal anti-inflammatory drugs and cephalosporins.
Thrombocytosis
Increases in platelets above the normal level may occur due to physiological or pathological processes.
- Physiological
- Splenic contraction pushes sequestered platelets into the circulation. This phenomenon is especially marked in horses which have a muscular splenic capsule.
- Splenectomy prevents the sequestration of platelets in the spleen, resulting in constantly increased levels of platelets.
- As part of a response to anaemia, a reactive thrombocytosis is often documented and this may precede signs of regeneration.
- Pathological
- Essential thrombocythaemia