Difference between revisions of "Feline Panleucopenia"
| Line 21: | Line 21: | ||
====Diagnosis==== | ====Diagnosis==== | ||
| − | + | 1.Clinical signs | |
| − | + | 2. Haematology. | |
| − | + | 3. Analysis of faeces; use of an '''Elisa''' to detect the virus antigen or detecting the virus DNA, using a '''PCR''' (Polymerase chain reaction.) | |
| − | + | 4. Evidence of exposure to virus - detect antibody to virus within the blood. | |
====Control==== | ====Control==== | ||
| Line 32: | Line 32: | ||
==Parvovirus Enteritis== | ==Parvovirus Enteritis== | ||
| − | Since a vaccine | + | Since the introduction of a vaccine, this disease is now relatively uncommonly seen. |
Over the last 10/15 years this has been seen primarily in the cat, but it is now also seen [[Canine Parvovirus|in the dog]]. | Over the last 10/15 years this has been seen primarily in the cat, but it is now also seen [[Canine Parvovirus|in the dog]]. | ||
===Clinical=== | ===Clinical=== | ||
| − | + | As discussed, feline parvovirus manifests mainly in cats under 6 months old, but may also be seen in older unvaccinated cats. | |
| − | + | ||
** Produces big outbreaks, with [[Control of Feeding - Anatomy & Physiology#The Vomit Reflex|vomiting]] and pyrexia. | ** Produces big outbreaks, with [[Control of Feeding - Anatomy & Physiology#The Vomit Reflex|vomiting]] and pyrexia. | ||
* Severe [[Control of Feeding - Anatomy & Physiology#The Vomit Reflex|vomiting]] and [[Diarrhoea|diarrhoea]] occur. | * Severe [[Control of Feeding - Anatomy & Physiology#The Vomit Reflex|vomiting]] and [[Diarrhoea|diarrhoea]] occur. | ||
Revision as of 13:47, 13 July 2010
Introduction
Feline Parvovirus, also known as feline infectious enteritis (FIE) or feline panleukopenia is a non-enveloped virus, capable of persisting for long periods of time in the enviroment.
It infects the lymph nodes of the oropharynx and the nasopharynx, and the spreads to other tissues. It infects and kills actively replicating cells. Kittens are most susceptible, but unvaccinated older cats can also become infected.
Hosts
Feline Parvovirus is most commonly seen in cats, but is may also be seen in minks, racoons, and pandas.
Pathogenesis
Feline Parvovirus kills the stem cells of the villi. The villi tip cells turnover normally but are not being replaced, leading to stunted villi and malabsorption. Clinical signs include pyrexia, severe enteritis (often bloody), dehydration, leukopenia, anemia.
Neonatal kittens less than 2 weeks show cerebellar hypoplasia. This leads to problems with coordination and balance.
The virus targets rapidly dividing cells: lymph nodes, bone marrow, crypts of small intestine. The breakdown of lymphoid tissue leads to a decreased white blood cell count, and destruction of lymphoid and myeloid stem cells.
Epidemiology
Infection may be via direct contact or by fomites. Subclinical infection may also occur.
Diagnosis
1.Clinical signs 2. Haematology. 3. Analysis of faeces; use of an Elisa to detect the virus antigen or detecting the virus DNA, using a PCR (Polymerase chain reaction.) 4. Evidence of exposure to virus - detect antibody to virus within the blood.
Control
Modified live and inactivated virus vaccines are avaliable, with boosters every 1-2 years required. One should also try to prevent exposure to kittens with feline panleukopenia.
Parvovirus Enteritis
Since the introduction of a vaccine, this disease is now relatively uncommonly seen. Over the last 10/15 years this has been seen primarily in the cat, but it is now also seen in the dog.
Clinical
As discussed, feline parvovirus manifests mainly in cats under 6 months old, but may also be seen in older unvaccinated cats.
- Produces big outbreaks, with vomiting and pyrexia.
- Severe vomiting and diarrhoea occur.
- diarrhoea is thin, watery and foul-smelling, and may also be blood-tinged.
- Animals usually die despite treatment- die from dehydration.
- diarrhoea is thin, watery and foul-smelling, and may also be blood-tinged.
- Animals suffer from fever.
- Pancytopaenia also occures.
- White blood cell count drops very low so as to become almost non-existent.
- Drops to 1/ml from 10000/ml.
- Animals may therefore also die from other infections.
- White blood cell count drops very low so as to become almost non-existent.
Pathology
Gross
- Virus targets crypt cells and lymphoid areas.
- Causes villus atrophy.
- In the cat, the intestine is thickened, turgid and swollen.
- Has a pale, dull and mottled appearance.
- The contents are rather dry - this gets worse lower down the gut.
- Areas of depression in the mucosa can be seen in the upper small bowel.
- Due to necrosis of tissue overlying Peyers patch.
- Lower down in the gut, enteritis is apparent.
- Cat- fibrinous.
- Dog- haemorrhagic.
- Blood in lumen.
- Inflammation sometimes doesn't appear very severe.
- There may be very few lesions
- Histology is usually required for diagnosis.
- A radiomimetic virus.
- Affects all rapidly dividing cells and destroys them.
- E.g. epithelium in the base of the crypts of small intestine are killed.
- Affects all rapidly dividing cells and destroys them.
Histological
- The crypt lining cells undergo complete necrosis, but very little inflammation occurs.
- Collapse of villous architecture.
- May be fibrinous exudates on surface of mucosa.
- The submucosa and lamina propria are not affected and are left intact.
- Many neutrophils in the lamina propria.
- Cyst-like structures are seen in the deepest parts of the glands of the intestinal mucosa, if the animal survives for more than a few days.
- Flattened epithelial cells line these cystic glands.
- Are enterocytes trying to repair the damage.
- However, animals usually die from dehydration or secondary infection before the mucosa recovers.
- Flattened epithelial cells line these cystic glands.
- Inclusion bodies may be seen, but these are very hard to find.
- May get lymphocyte invasion of mucosa.
- Lymph nodes appear pale and oedematous, and almost aplastic.
- Bone marrow appears pale and fatty looking and is depleted of cells.