Difference between revisions of "Chinchillas (Laboratory) - Pathology"
(8 intermediate revisions by the same user not shown) | |||
Line 1: | Line 1: | ||
==Introduction== | ==Introduction== | ||
− | The chinchilla is a type of hystricomorph rodent | + | The chinchilla is a type of hystricomorph rodent and there are two types; the ''Chinchilla langier'', or long-tail and the ''Chinchilla chinchilla'' which has a short tail. Chinchilla are found in the wild at altitudes of between 9,000-12,000 ft within the Andes in South America. Chinchilla have been kept in captivity since 1923 when a small number of animals were brought to North America. |
<br /> | <br /> | ||
<br /> | <br /> | ||
− | Chinchillas are used in laboratory experiments for a number of reasons but a common reason is that the chinchilla has a hearing range that is closest to that of humans. Therefore many experiments researching the auditory system utilise chinchillas. Research using chinchillas has been undertaken since the 1970s. Chinchillas also make good laboratory animals as they are relatively easy to maintain, have long life spans | + | Chinchillas are used in laboratory experiments for a number of reasons but a common reason is that the chinchilla has a hearing range that is closest to that of humans. Therefore many experiments researching the auditory system utilise chinchillas. Research using chinchillas has been undertaken since the 1970s. Chinchillas also make good laboratory animals as they are relatively easy to maintain, have long life spans of up to 20 years and can also be trained in basic techniques to facilitate easier laboratory techniques. Further to this viral and bacterial infections are relatively uncommon as are tumours. |
+ | |||
+ | ==Strains and Stocks== | ||
+ | |||
==Physiology== | ==Physiology== | ||
− | + | Most laboratory chinchilla are provided with a variety of components in their diet which includes pellets and hay. Although chinchillas eat large volumes of hay they do not drink a proportionate volume of water and chinchillas are known to survive on remarkably small amounts of water. | |
+ | <br /> | ||
+ | <br /> | ||
+ | Chinchillas have very dry faeces and only produce very small volumes of urine with very little odour. The chinchilla requires room temperature (18-24C) and approximately 14hrs of daylight or artificial light if in labs, is optimal. | ||
<br /> | <br /> | ||
<br /> | <br /> | ||
− | Within a laboratory environment chinchillas are not prolific breeders and | + | Within a laboratory environment chinchillas are not prolific breeders and they can be difficulty in maintaining breeding stocks. Puberty is not usually reached until approximately 8 months old and they have long oestrous cycles of 41 days with 2 to 3 days of oestrous. The length of gestation for a chinchilla is 111 days and the range of litter sizes varies between 1 to 6 with 1 or 2 'kits' most common. Larger sized litters may result in fatal fighting amongst the kits. |
<br /> | <br /> | ||
<br /> | <br /> | ||
− | Kits are usually weaned at between 6 to 8 weeks and at this age it is possible to pass these young onto another lactating mother without any rejection issues. Chinchillas have a post-partum oestrous | + | Kits are usually weaned at between 6 to 8 weeks and at this age it is possible to pass these young onto another lactating mother without any commonly encountered rejection issues. Chinchillas have a post-partum oestrous ans therefore it is possible to produce two litters in a breeding season which is between November to May, although the male is fertile throughout the year. |
<br /> | <br /> | ||
<br /> | <br /> | ||
Line 21: | Line 27: | ||
<br /> | <br /> | ||
<br /> | <br /> | ||
− | Most chinchilla require a sand-bathing tray for grooming | + | Most chinchilla require a sand-bathing tray for their grooming processes called dusting. |
==Diseases== | ==Diseases== | ||
− | Chinchillas suffering some form of disease will often exhibit clinical signs such as laboured breathing, poor quality hair coat, weight loss, hunched posture or an abnormal gait. Lethargy and/or unresponsiveness are also common findings in the sick animal. Therefore these clinical signs will often represent the precursor to more advanced disease or pathology. | + | Chinchillas that are suffering a some form of disease will often exhibit clinical signs such as laboured breathing, poor quality hair coat, weight loss, hunched posture or an abnormal gait. Lethargy and/or unresponsiveness are also common findings in the sick animal. Therefore these clinical signs will often represent the precursor to more advanced disease or pathology. |
+ | |||
+ | ==Integument System== | ||
+ | |||
+ | ==Reproductive System== | ||
==Nervous System== | ==Nervous System== | ||
Line 33: | Line 43: | ||
Gross pathology may show eyes that have visible oedema, a hyperaemic conjunctiva and either a serous or purulent ocular discharge. | Gross pathology may show eyes that have visible oedema, a hyperaemic conjunctiva and either a serous or purulent ocular discharge. | ||
===Otitis Media=== | ===Otitis Media=== | ||
− | Otitis media is common in younger animals and | + | Otitis media is common in younger animals and if often a secondary infection to a respiratory infection or other trauma. Depending on the severity and location of the infection neurological clinical signs may be apparent which include ataxia, circling or rolling. |
<br /> | <br /> | ||
<br /> | <br /> | ||
Macroscopic pathology may include considerable scar tissue that can result in blockage of the ear canal. Where this occurs cerumen and debris are often trapped inside. The tympanic membrane is often thickened. The ear canal and tympanic membrane will be acutely inflammed. This inflammation may progress to the inner ear and/or meninges. | Macroscopic pathology may include considerable scar tissue that can result in blockage of the ear canal. Where this occurs cerumen and debris are often trapped inside. The tympanic membrane is often thickened. The ear canal and tympanic membrane will be acutely inflammed. This inflammation may progress to the inner ear and/or meninges. | ||
− | |||
===''Baylisascaris procyonis'' Infection=== | ===''Baylisascaris procyonis'' Infection=== | ||
This nervous system disease is also referred to as 'Cerebral Nematodiasis'. ''B. procyonis'' is a roundworm commonly found in raccoons and transmission can occur following ingestion of feed contaminated by raccoon faeces. Chinchillas infected with the disease may exhibit a number of clinical signs including recumbancy, paralysis, ataxia, incoordination, head tilt, coma and death. | This nervous system disease is also referred to as 'Cerebral Nematodiasis'. ''B. procyonis'' is a roundworm commonly found in raccoons and transmission can occur following ingestion of feed contaminated by raccoon faeces. Chinchillas infected with the disease may exhibit a number of clinical signs including recumbancy, paralysis, ataxia, incoordination, head tilt, coma and death. | ||
Line 43: | Line 52: | ||
<br /> | <br /> | ||
Gross lesions may include multifocal necrosis of the brain. Histopathology may include meningitis with sections containing ascarid larvae within the [[Midbrain_-_Anatomy_%26_Physiology|midbrain]], [[Hindbrain_-_Anatomy_%26_Physiology#Medulla_Oblongata|medulla]] and [[Hindbrain_-_Anatomy_%26_Physiology#Cerebellum_Structure_.26_Function|cerebellum]]. | Gross lesions may include multifocal necrosis of the brain. Histopathology may include meningitis with sections containing ascarid larvae within the [[Midbrain_-_Anatomy_%26_Physiology|midbrain]], [[Hindbrain_-_Anatomy_%26_Physiology#Medulla_Oblongata|medulla]] and [[Hindbrain_-_Anatomy_%26_Physiology#Cerebellum_Structure_.26_Function|cerebellum]]. | ||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
==Cardiorespiratory System== | ==Cardiorespiratory System== |
Revision as of 16:33, 18 August 2011
Introduction
The chinchilla is a type of hystricomorph rodent and there are two types; the Chinchilla langier, or long-tail and the Chinchilla chinchilla which has a short tail. Chinchilla are found in the wild at altitudes of between 9,000-12,000 ft within the Andes in South America. Chinchilla have been kept in captivity since 1923 when a small number of animals were brought to North America.
Chinchillas are used in laboratory experiments for a number of reasons but a common reason is that the chinchilla has a hearing range that is closest to that of humans. Therefore many experiments researching the auditory system utilise chinchillas. Research using chinchillas has been undertaken since the 1970s. Chinchillas also make good laboratory animals as they are relatively easy to maintain, have long life spans of up to 20 years and can also be trained in basic techniques to facilitate easier laboratory techniques. Further to this viral and bacterial infections are relatively uncommon as are tumours.
Strains and Stocks
Physiology
Most laboratory chinchilla are provided with a variety of components in their diet which includes pellets and hay. Although chinchillas eat large volumes of hay they do not drink a proportionate volume of water and chinchillas are known to survive on remarkably small amounts of water.
Chinchillas have very dry faeces and only produce very small volumes of urine with very little odour. The chinchilla requires room temperature (18-24C) and approximately 14hrs of daylight or artificial light if in labs, is optimal.
Within a laboratory environment chinchillas are not prolific breeders and they can be difficulty in maintaining breeding stocks. Puberty is not usually reached until approximately 8 months old and they have long oestrous cycles of 41 days with 2 to 3 days of oestrous. The length of gestation for a chinchilla is 111 days and the range of litter sizes varies between 1 to 6 with 1 or 2 'kits' most common. Larger sized litters may result in fatal fighting amongst the kits.
Kits are usually weaned at between 6 to 8 weeks and at this age it is possible to pass these young onto another lactating mother without any commonly encountered rejection issues. Chinchillas have a post-partum oestrous ans therefore it is possible to produce two litters in a breeding season which is between November to May, although the male is fertile throughout the year.
Copulation between chinchillas can be confirmed by the existance of a copulatory plug.
General Behavioural Characteristics
Unless regularly handled, adult chinchilla can be very aggressive. This is especially common in females and therefore these should be kept in separate cages. If weanlings or young chinchillas are introduced to another female it is likely that the adult will kill the young.
Most chinchilla require a sand-bathing tray for their grooming processes called dusting.
Diseases
Chinchillas that are suffering a some form of disease will often exhibit clinical signs such as laboured breathing, poor quality hair coat, weight loss, hunched posture or an abnormal gait. Lethargy and/or unresponsiveness are also common findings in the sick animal. Therefore these clinical signs will often represent the precursor to more advanced disease or pathology.
Integument System
Reproductive System
Nervous System
Conjunctivitis
Conjunctivitis is rarely seen in adults but can be seen in young animals and is often the result of a foreign body. A common example of this is dust bath sand causing irritation to the eye. Clinical signs including purulent conjunctivitis may indicate a bacterial infection with Staphylococcus sp and Pseudomonas aeruginosa species being reported.
Gross pathology may show eyes that have visible oedema, a hyperaemic conjunctiva and either a serous or purulent ocular discharge.
Otitis Media
Otitis media is common in younger animals and if often a secondary infection to a respiratory infection or other trauma. Depending on the severity and location of the infection neurological clinical signs may be apparent which include ataxia, circling or rolling.
Macroscopic pathology may include considerable scar tissue that can result in blockage of the ear canal. Where this occurs cerumen and debris are often trapped inside. The tympanic membrane is often thickened. The ear canal and tympanic membrane will be acutely inflammed. This inflammation may progress to the inner ear and/or meninges.
Baylisascaris procyonis Infection
This nervous system disease is also referred to as 'Cerebral Nematodiasis'. B. procyonis is a roundworm commonly found in raccoons and transmission can occur following ingestion of feed contaminated by raccoon faeces. Chinchillas infected with the disease may exhibit a number of clinical signs including recumbancy, paralysis, ataxia, incoordination, head tilt, coma and death.
Gross lesions may include multifocal necrosis of the brain. Histopathology may include meningitis with sections containing ascarid larvae within the midbrain, medulla and cerebellum.
Cardiorespiratory System
Upper Respiratory Tract Infection
The causes of upper respiratory tract infection in chinchillas are thought to be wide ranging and include humidity, overcrowding and poor ventilation. Bacterial infections caused by Streptococcus sp., Pseudomonas sp., Bordetella sp. and Pasturella sp. are most common with these agents initially infecting the nasal sinuses and/or mucous membranes. Clinical signs may include nasal discharge, conjunctivitis and sneezing. Acute cases can result in sudden death.
Macroscopic pathological findings may include necrotic sinus cavities which can be filled with a mucopurulent debris. In more advanced cases the infection may track to the brain. Diagnosis is via isolation and culture of the causative agent.
Pneumonia
In chinchilla this is commonly cause by bacterial infection, usually by similar species to the upper respiratory tract infection above. A species of fungus Histoplasma capsulatum has also bee associated with hay and pneumonia in chinchilla. Pneumonia is thought to be caused by housing in damp, cold environments. Clinical signs may include laboured breathing, coughing/sneezing and a mucopurulent discharge. In chinchillas pneumonia may also be accompanied by conjunctivitis, weight loss and the other more general signs discussed at the beginning of the disease section. Sudden death due to sepsis may occur.
Macroscopic lesions may include pneumonic lesions in the lung parenchyma and bronchi and general inflammation.
Digestive System
Pseudomonas aeruginosa Infection
This is often a secondary infection due to stress and has been linked to drinking water and the general cage environment. Transmission is via aerosol, fecal-oral routes and via contact between animals. Clinical signs can include anorexia, depression, diarrhoea/constipation, mastitis, intradermal pustules and acute death. This infection is a multifocal systemic infection.
Macroscopic lesions can include abcesses throughout multiple organs, a generalised lymphadenopathy and generalised multifocal necrosis.
Listeria monocytogenes Infection
L. monocytogenes infections are associated with poor sanitation and contaminated feeds and/or water. Tranmission is via the fecal-oral route. Chinchillas appear to be particularly susceptible to this species of bacterium. Clinical signs are consistent with those found with P. aeruginosa infections (above). Additionally, this infection may also have a neurological element which may include flaccid ears, ataxia, circling and convulsions.
Macroscopic lesions may include fibrinous peritonitis, broad multifocal mamillary necrosis and widespread intersitial pneumonia. Most organs are susceptible to L. monocytogenes. Microscopic histopathology may include monocytic perivascular cuffing in brain tissues.
Yersina Infections
Two species of Yersina have been isolated from chinchillas; Y. pseudotuberculosis and Y. enterocolitica. Both are types of gram-negative bacteria. Transmission is both via fecal-oral routes but also transplacental and milkborne. Infection can be asymptomatic but there is a high morbidity and mortality rate associated with infection. Clinical signs are consistent with other forms of bacterial infection such as those above.
Gross pathology associated with Y. pseudotuberculosis will often include granulomatous lesions primarily in the liver spleen and lungs. Gross pathology associated with Y. enterocolitica will cause similar lesions in these organs but also within the lymph nodes, intestines and kidneys.
Iatrogenic (Antibiotics)
The administration of inappropriate antibiotics such as lincomycin, cephalosporins, penecillins or amoxicillins may result in a decrease in the usual gram-positive gut flora and an increase in gram-negative bacteria causing enterotoxaemia. Clostridium perfringens is the most common gram-negative causative agent of enterotoxaemia. Clinical signs will include emaciation, diarrhoea, lethargy, dehydration and if untreated, death.
Gross pathology will include enlarged liver and spleen. The lining of the gut may be inflammed in some cases.
Constipation
Constipation is more common than diarrhoea in chinchillas and is often due to insufficient dietary fibre and/or roughage. The causes of constipation have also been linked to dehydration, environmental stress, intestinal obstruction, obesity or uterine compression in pregnant females.
Gross pathology will include gut contents that consist of fecal pellets that will be thin, hard and in some cases stained with blood. In more chronic cases there may be rectal prolapse or intestinal torsion, colonic flexure or cecal impaction. Chronic cases may also display intestinal adhesions, foreign bodies or abcesses.
Gastric Ulcers
Gastric ulcers are common in young chinchilla and are most often caused by feed that is too course, fiberous or mouldy.
Macroscopic lesions may include gastric mucosal ulcers and/or erosions that may be covered with a thick dark fluid.
Other
Septicaemia
Septicaemia is most commonly a secondary infection to bacterial enteritis. Bacterial species such as Streptococcus and Pasturella have been linked to such multisystemic infections. Animals can progressively degenerate or can die suddenly depending on the severity of the infection.
Gross pathology findings may include septicemic organs and may be diffusely congested. The organs may also contain bacterial emboli.
Heat Stress
Chinchillas are highly temperature sensitive, especially to sudden changes in environmental temperatures. Clinical signs of heat stress will include restlessness, rapid respiration and hypersalivation.
Macroscopic lesions will include markedly congested lungs.