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Zoonotic diseases
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Introduction
Zoonotic diseases are diseases that can be transferred from animals to human beings or from humans to animals. Humans can act as carriers of the diseases and spread them as well as be affected and die in case of the more serious ones like Anthrax, Brucellosis, Rift Valley Fever, Tuberculosis etc.
Domestic animals present problems not only for their handlers, i.e., farmers, but also for consumers when animals are used for food. Food products made from animals include not only meat, but meat derivatives that are added to sweets and other foods, and therefore, are less obvious to consumers. An example of a disease believed to be transmitted to humans from an animal product is Creutzfeldt-Jakob disease-variant (vCJD), of Bovine Spongiform Encephalopathy (BSE), also known as "mad cow disease". Despite the extreme rarity of this illness, the effects are so devastating that public health officials around the world recommend their governments take strict prevention measures (CDC/Edwin P. Ewing, Jr.)
The following animal diseases are known to affect humans in one form or another:
- Anthrax
- Bovine Farcy
- Brucellosis
- Hydatid cysts
- Influenza - avian flu, swine flu etc
- Leismania
- Leptospirosis
- Mad cow disease
- Mange
- Orf
- Pseudo cow pox
- Q fever
- Rabies
- Rift Valley Fever
- Ringworm
- Salmonellosis -
- Taeniasis - tape worms
- Tetanus
- Toxoplasmosis
- Tuberculosis
Anthrax
Local names:
Luo: Aremo / Embu: thita / Kamba: ndulu / Gabbra: chimale, chirrmalle / Kikuyu: Muriru / Kipsigis: bursta / Nandi: purasta / Maasai: Emburwo, ol akirikir, ol ogereger, em bjangat, eng eanairogua / Maragoli:likenji / Samburu: lokuchum, nokulupo / Somali: kut, khut, kud, baargariirshe / Swahili: kimeta, imetha / Turkana: enomokere, lolewe, lookot, lotorob, lokuchum / Iteso: atular / Luidakho:lishenji / Luvugusu: muyaka /
Luo: Aremo / Embu: thita / Kamba: ndulu / Gabbra: chimale, chirrmalle / Kikuyu: Muriru / Kipsigis: bursta / Nandi: purasta / Maasai: Emburwo, ol akirikir, ol ogereger, em bjangat, eng eanairogua / Maragoli:likenji / Samburu: lokuchum, nokulupo / Somali: kut, khut, kud, baargariirshe / Swahili: kimeta, imetha / Turkana: enomokere, lolewe, lookot, lotorob, lokuchum / Iteso: atular / Luidakho:lishenji / Luvugusu: muyaka /
Common names:
fievre charbonneuse, charbon (French) carbunco bacteridiano (Spanish)
fievre charbonneuse, charbon (French) carbunco bacteridiano (Spanish)
Description:
Zoonotic disease
Zoonotic disease
Introduction
WARNING: Notifiable disease! If you suspect an animal has anthrax, you must inform the authorities immediately. Animals suspected of having died of anthrax should not be opened. |
Anthrax is a soil-borne bacterial infection of domestic animals, wild animals, and man.
Anthrax is caused by the spore-forming organism Bacillus anthracis. It is most common in wild and domestic herbivores - cattle, sheep, goats, camels, antelopes - but it also occurs in humans exposed to tissue from infected animals, contaminated animal products, or directly to anthrax spores. It doesn't affect chickens but it is common in ostriches.
Anthrax occurs all over the world. It is more common in warm climates as spore formation only occurs when the temperature is between 20 degrees Celsius and 40 degrees Celsius, the humidity is over 60% and the pH is above 6.0. Under such conditions spore formation occurs rapidly, leading to the contamination of soil and water, where the spore may survive for years; up to 30 years in some cases. Spores are formed in the presence of oxygen. Within a carcass the organisms rapidly die. Only when they are exposed to air and oxygen do they form spores.
Mode of spread
The disease is transmitted through pastures which are contaminated by the spores. The animals may be forced during drought to graze on short grass which may be contaminated by the infected soil. Anthrax spores can remain infective in soil for many years. During this time they are a potential source of infection to grazing livestock. Grazing animals may become infected when they ingest sufficient numbers of these spores from the soil.
- Feed contaminated with bone, or other meal from infected animals, can serve as a source of infection for livestock, as can hay that is heavily contaminated with infected soil.
- Infection is influenced by communal watering points. Water holes used by different species of animals are known to be a source of infection.
- Flooding may expose previously buried spores and agricultural practices may do the same.
- Tissues of infected animals may be moved by rats and carrion eaters and transfer infection.
- Raw or poorly cooked contaminated meat is a source of infection for carnivores and omnivores, including humans.
- In animals, infection is usually by eating infected grass, less commonly by breathing spore infested dust or through open wounds. In cattle, sheep and goats infection is nearly always by mouth.
- In camels and horses biting flies may transmit infection and this may explain the swellings sometimes seen on the body and legs of these species.
- Humans are fairly resistant and are infected after an occupational hazard affecting workers in tanneries. The workers may inhale spores and suffer an acute fatal pneumonic form of anthrax. Cutaneous anthrax is common among people who carry meat and other animal products from infected carcass. The bacteria can survive for several years in livestock products such as hides, wool and bones.
- Infection in humans is usually via skin abrasions or by inhalation. People handling wool, hides and skins are mostly at risk. Eating infected meat obviously carries a major risk, although rapid cooking quickly destroys the organism before the highly resistant spores have a chance to develop. There has been cases reported in Kenya where people have eaten meat from infected animals and died shortly afterwards.
Signs of Anthrax
Depending on the route of infection, host factors, and potentially strain specific factors, anthrax can have several different clinical presentations.
The anthrax bacillus produces a lethal toxin in the animals which causes accumulation of fluid (oedema=swellings) and tissue damage, resulting in death from shock and kidney failure.
In very severe forms, there is a short illness and this makes the disease difficult to treat. The animal develops high fever, difficult breathing followed by convulsion, collapse and death.
In ruminants such as cattle, sheep and goats, the symptoms of anthrax are very sudden and severe, with death occurring within minutes to hours. There is staggering, high fever, rapid breathing, trembling, collapse, and a few convulsive movements, followed by death. Usually the animal is found dead, with bloody discharges from body openings. Rigor mortis is often absent or incomplete, with marked bloating and rapid decomposition. The blood is dark and thickened and fails to clot readily. If by mistake the carcase is opened it will be noticed that the spleen is greatly enlarged and the pulp soft and tarry.
In severe forms, the disease would last about 2 - 3 days before death. The animal will appear depressed, listless and have high fever. The mucus membranes in the eyes and gums are congested and hemorrhagic(showing blood). There is difficulty in breathing caused by edematous (watery) swelling in the throat.
In less severe cases, some animals may survive for 1 week and others will recover. In dogs, humans, horses and pigs, the disease is usually less severe. Sometimes there may be swelling in the lower neck, chest and shoulders, especially in animals such as pigs, camels and horses.
In both severe and less severe cases, affected cows may abort and have a reduction in milk production. The milk will be blood stained or appear yellowish in color. Infection in the alimentary tract may cause dysentery.
Diagnosis In any case of sudden death anthrax must be suspected and a veterinarian informed so that a diagnosis can be made. Bloat, lightning strike, black-quarter, snakebite, and plant poisoning can also cause sudden death.
It is very risky for unqualified laboratory personnel to take samples of the disease. The sampling procedure should be carried out by qualified laboratory personnel only.
Blood from nose, mouth or anus is a tell-tale sign of Anthrax. It may be a lot or a few drops. It can also be absent.
The vet will stain a blood smear or smear from a lymph node, abdominal fluid or subcutaneous swelling and examine it under the microscope to give a rapid diagnosis. Only if the result is negative should the post mortem examination proceed. Under the microscope the organism appear as large square ended rods with a pink capsule.
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Prevention and Control
Prevention and control requires a strict adherence to veterinary regulations to prevent and minimize the spread of the disease among livestock and humans.
Anthrax can be a very severe food borne pathogen and must at all means be prevented from entering any food or feed.
Note:
- Picture: Suspected anthrax case: A pig with signs of Anthrax is enclosed in a plastic bag to prevent loss of body fluids before a smear of fluid from an appropriate site is taken
- The carcase of any animal suspected to have died of Anthrax should not be opened but must instead be burnt or buried at a depth of at least 2 meters, and the surrounding area burnt and treated with 10% formalin or 10% caustic soda to prevent contamination of the environment. The surrounding area where the carcass has been burned should be fenced off.
- Signs after death:
- Carcass is stiff and bloated
- Decomposition is rapid
- Bleeding from ears, mouth, nose, anus or vagina
- Blood is dark and does not clot
- Contaminated beddings, premises and feeds should be destroyed or thoroughly disinfected.
- Vaccination of all livestock at risk should be done annually as a legal requirement. The avirulent live Sterne- strain spore vaccine, which has lost its ability to form capsules, is available in most countries and offers annual protection. In Kenya a commercially available product called "Blanthax" is used for the annual vaccinations against Black quarter and Anthrax.
- Quarantine should be imposed in all infected areas to prevent movement of animals into and out of such areas. Such quarantine should be not lifted until at least 6 months after disinfection procedures are complete.
- The appropriate authorities must be notified.
- General sanitary measures must be observed by all persons handling diseased animals, both for their own safety and to prevent spread of the disease.
- Scavengers, including dogs, jackals and birds, must be controlled and kept away from dead animals to minimise spread of infection.
Recommended treatment
Bacillus anthracis is susceptible to antibiotics such as penicillin, streptomycin and tetracyclines and these may be used by a qualified veterinarian either to treat infected animals in the unlikely event that they are seen alive, or to give protection to in-contact animals. This is then followed by vaccination about 7-10 days later.
Bovine Farcy
Scientific name: Bovine nocardiosis
This is a bacterial disease caused by Nocardia farcinica organisms. These organisms cause chronic, non-contagious diseases in animals and humans. They are commonly found in soil, decaying vegetation, compost and other environmental sources. They enter the body through contamination of wounds or by inhalation.
The disease in cattle is characterised by infection and swelling of the superficial lymphatic vessels and lymph nodes of the legs, neck and around the base of the ears.
Only cattle and humans are affected
It appears initially as small nodules under the skin, most often on the legs and on the neck, at the base of or near the ears. The nodules develop slowly, and some are grouped together in the form of a large mulberry. They are firm and painless. Swellings may persist for years with no apparent adverse effect on the health of the animal.
A veterinarian will confirm the diagnosis by smears of pus removed from an unopened abscess. The main concern is to distinguish the lesions of Bovine Farcy from those of Tuberculosis, which on occasion it can resemble, especially when there are internal lesions, such as those occurring within the chest cavity.
Brucellosis
Common names
Contagious abortion, Bang's disease, In humans also called Undulant fever and often confused with malaria or influenza
Contagious abortion, Bang's disease, In humans also called Undulant fever and often confused with malaria or influenza
For complete description please see: Reproductive Problems
Brucellosis is a bacterial infection, caused by organisms belonging to the genus
Brucella
. The disease is prevalent in most countries of the world. It primarily affects cattle, buffalo, pigs, sheep, goats, camels and dogs, and occasionally horses. The disease in humans, sometimes called Undulant Fever, is a serious public health problem, especially when caused by Brucella Melitensis.
Brucellosis in cattle is caused almost exclusively by Brucella abortus, although occasionally Brucella melitensis or Brucella suis may be implicated. Melitensis occurs primarily in sheep and goats; suis in pigs.
Brucella canis is confined to dogs.
Cattle of all ages and sex can be infected with B. abortus,but it is primarily a disease of sexually mature female cattle, with bulls and immature animals showing little or no clinical disease.
Spread to man
- Man becomes infected when in direct contact with cows at abortion, calving or in the post calving period.
- Vets and stockhandlers are particularly at risk from the splashing of infected droplets into the eye.
- Handling of the afterbirth without wearing gloves is very dangerous. Afterbirth of infected animals should be buried immediately and not handled directly by anyone.
- Infection occurs in people drinking unpasteursied milk or milk products.
- Symptoms in humans include recurrent bouts of fever, headache, muscle and joint pains and and general weakness. Women also abort. Brucellosis is often confused with malaria and influenza. Diagnosis is done through a blood sample taken by the doctor, and treatment is usually a very expensive 3 month on antibiotics
Diagnosis
This is based on the history, serology and bacteriology. Abortions occurring after 6 months of pregnancy are suggestive. However, blood samples should be taken for detailed laboratory analysis to confirm the disease.
- Serum samples should be taken for agglutination testing.
- When abortion occurs, aborted fetuses should be taken intact in a sealed container to the laboratory for detailed examination. The organisms can be found in the placenta but more conveniently in pure culture in the stomach and lungs of an aborted foetus. All foetuses and afterbirths should be handled carefully with gloves to avoid human infection.
Diseases with similar symptoms
Abortion: See Vibriosis, Leptospirosis, Rift Valley Fever
Prevention - Control - Treatment
Prevention and Control
- The disease can be controlled through effective sanitary measures in the cattle environment. Pregnant animals must be closely observed and any which show signs of aborting must be immediately isolated.
- Any animal which has aborted must be kept isolated until all uterine discharges have stopped. If there is any suspicion of infection, any animal about to calve should also be isolated.
- Under cool conditions the organism may survive for up to 2 months. Exposure to direct sunlight kills the organisms within a few hours.
- The use of plastic gloves and thorough disinfection of the vulva and tail of cattle helps greatly to reduce the risk of infection when examining pregnant animals.
- Because of the danger of human infection, infected fetuses, placenta and cows should be handled with great care. Proper hygienic precautions should be taken when handling abortions and where infection is known to occur in certain herds of cattle. Handlers of such material should always wear gloves for protection. They should also ensure that they keep their hands away from the mouth, nose and eyes until after the hands are thoroughly disinfected.
- Burn or bury all contaminated materials such as foetuses and foetal membranes
- Clean and disinfect all cattle premises which may be contaminated with foetuses and foetal membranes.
- Drinking of raw milk and unpasteurized milk products should be prohibited
- Pasteurisation of milk and milk products makes them safe for consumption.
Vaccination
- Calves between three and eight months should be vaccinated with live vaccine (S.19) to prevent infection. Such vaccinations can provide lifelong immunity against all but the heaviest challenge.
- The live vaccine should be used with care in adult animals because it can cause abortion in in-calf females and inflammation of the testes in adult males. It also results in persistent antibody titres if used in adults, making differentiation between antibody levels due to natural infection and vaccination very difficult Adult cattle should therefore be vaccinated annually with dead B. abortus vaccine (45/20), or a with a reduced dose - one twentieth - of S19 vaccine.
- S19 vaccine should be handled with care. It is a live vaccine and can infect humans.
- Vaccination will reduce the number of infected animals in a herd by by over 90% if carried out over a period of 5 years. Vaccination cannot eradicate Brucellosis but it can lay the groundwork for future eradication.
- Bulls should not be vaccinated as the vaccine may result in the organism appearing in the semen.
Recommended treatment
Brucella infections are known to be persistent, so treatment of animals with antibiotic is not recommended. It is therefore not practical and not useful to make any treatment attempt. Infected animals should be culled. Meat is safe for consumption if cooked well.
Hydatid cysts
Hydatid cysts: Echinococcus granulosus
Hydatid cysts are unfortunately not uncommon in human beings. Mature cysts can reach up to half a meter in diameter if not attended to. A person may look very pregnant only to find out that what they have is a hydatid cyst, which will have to be removed surgically.
This is a very short dog tapeworm, whose main significance is that the larval stage forms large multiple hydatid cysts in the intermediate hosts, including humans. These cysts are located in the liver and lungs and can grow to a very large size indeed. People living in close association with dogs are especially at risk.
Leishmaniasis
For full datasheet please link to Human Health/Insect transmitted diseases (under construction)
A skin disease of humans and in other parts of the world - dogs. In Africa it is mainly transmitted by sandflies, and dogs seem to be less affected.
Leishmaniasis is caused by protozoal parasites of the genus Leishmania, which were originally parasites of rodents, in which they cause a mild skin disease. They are transmitted by sandflies and have become adapted to dogs and to man in whom they cause three main clinical types of disease.
- Skin (Cutaneous) Leishmaniasis.
- In some parts of the world the infection may spread to the lymph nodes, other areas of skin and to mucocutaneous junctions- this type is called Espundia or Lymph node (Mucocutaneous) Leishmaniasis.
- The final type is one in which spread occurs throughout the body and this is called Visceral (affecting soft internal organs) Leishmaniasis or Kala-azar. The name Kala-azar derives from Asia and means "black fever" and refers to the darkening of the skin which may occur in fair-skinned people, when they contract Visceral Leishmaniasis.
Lizards, rodents and rock hyraxes are intermediate hosts
Leptospirosis
Introduction
Leptospirosis is a bacterial disease caused by members of a single species. Leptospira interrogans, which contains two major groups - those which are free-living and those which are strictly parasitic.
Domestic animals, wildlife and humans can all be infected.
Most infections are subclinical, but severe disease characterized by haemolytic anaemia leading to jaundice (pale yellow gums, underside of eyelids etc), blood in the urine, and sometimes death, or milder forms with fever, milk drop, atypical mastitis and abortion may occur.
The causal agent is a long, fine, wavy or spiral organism, which is bent into a hook at one or both ends. It moves actively, with a rotary action, but is fragile, readily losing its vitality on exposure to drying, excessive sunlight, acids or heat.
The disease is widespread throughout the world. The best environment for the organism is warm, wet conditions with a pH value close to neutral.
All domestic animals are susceptible.
Mode of spread
The source of infection is usually an infected animal which contaminates pasture, drinking water and feed by infected urine, aborted fetuses and infected uterine discharges. Transmission is mainly via infected urine.
The largest reservoir of infection is in wild animals, and of these, rodents such as rats, voles and mice are the most important. Rats can excrete the organism for at least 220 days.
In cattle, leptospires can be excreted for a period which can last from a few weeks up to 18 months, or for the animal's lifetime.
Direct transmission can occur when animals are herded together. However infection usually arises from contact with an infected environment, with infected water playing an important part in the transmission cycle. The organism may survive for months in water-saturated soil.
The organism may enter a new host through the skin, especially damaged skin, or through the mucosa of the muzzle, mouth or conjunctiva. Other routes of infection are bites from rodents; venereal spread (leptospires have been isolated from bulls' semen); animals hunting and killing infected prey; and infection of the foetus through the placenta.
Man may be infected by domestic animals, wild animals, or by contact with surface water contaminated by urine from infected animals.
Signs of Leptrospirosis
Clinical Signs
- The incubation period is usually 5-7 days. The symptoms in severe cases are those of acute septicaemia (blood poisoning) as well as fever, lack of appetite, acute anaemia (lack of blood seen in pale gums and underside of eyelids), severe jaundice and the passage of urine whose colour may range from a light-brown yellowish colour, to bright red, to almost black in some cases.
- The most severe cases usually occur in young animals, but with some serotypes, such as L. pomona , L. grippotyphosa, L. icterohaemorrhagiae and L. autumnalis adults may be also acutely affected.
- The teats are often red and inflamed. Milk flow usually ceases and there is a secretion that is red-coloured or contains blood clots. The udder is soft and limp. All four quarters of the udder are affected. There is no inflammation of the udder and the changes are due to a general vascular lesion rather than local injury to the mammary tissue.
- A skin inflammation frequently occurs in the white areas of the skin due to extreme sensitivity to light caused by liver damage.
- The animal may stamp its feet in discomfort. The muzzle may be dry, reddened and crusty and the vulva a reddish-purple colour.
- Subacute cases caused by L. pomona differ from acute cases only in degree. The fever is usually milder, but depression, lack of appetite, rapid breathing and a degree of blood in the urine still occur. Jaundice is not always present.
- Abortion may occur 3-4 weeks later, together with the characteristic drop in milk yield and the appearance of blood-stained or yellow-orange, thick milk in all four quarters, without physical change in the udder.
- In chronic cases signs are mild and may be restricted to abortion in the last third of pregnancy. Abortion "storms" may occur in groups of cattle at the same stage of pregnancy exposed at the same time to infection.
- Stillbirths and premature live births of weak calves may occur up to 3 months, and occasionally longer, after the acute stage of infection.
- Leptospirosis caused by L. hardjo occurs only in pregnant or lactating cows because the organism is restricted to growing in the pregnant uterus and the lactating mammary gland. There is sudden onset of fever, lack of appetite, and a cessation of milk yield, with a flabby udder and yellow to orange milk containing clots. The udder is non-painful. Up to 50% of animals in a herd may be affected. Abortion may occur several weeks later. Later, as natural immunity develops in adult cows, infection is restricted to heifers which show abortion only, with no mastitis.
Diagnosis
- At post-mortem examination severe jaundice, when present, is very striking. The entire carcass may appear extremely yellow, almost orange in some cases.
- There may be ulcers and haemorrhages in the abomasal mucosa, the liver may be swollen and the pattern of lobulation may be abnormally distinct.
- The kidneys may be enlarged, with the cortex a reddish-brown mottled colour.
- Urine in the bladder may be coloured red or even black.
- In chronic cases, large numbers of white spots may be seen in the kidneys.
- The identification of leptospires is difficult as they are very fragile and do not survive long in a decomposing carcass. A fluorescent antibody technique may be used, but the most commonly used method is by the demonstration of antibodies using the microscopic agglutination test by taking paired serum sample 7-10 days apart and showing a rising titre of antibodies. Serum samples will be taken by an attending veterinarian for dispatch to a laboratory. Several animals should be sampled as individual samples may be difficult to interpret. In addition milk and urine samples should also be taken for analysis.
Differential Diagnosis
- Leptospirosis should be differentiated from Babesiosis (Redwater), Anaplasmosis, Acute Haemolytic Anaemia which occurs in calves after drinking large volumes of cold water, Chronic Copper Poisoning, Rape and Kale Poisoning and in the less acute cases, differentiation from other causes of abortion.
Treatment
- This must be started early to prevent irreparable damage to liver and kidneys and to prevent the development of the carrier state.
- Streptomycin is the drug of choice in the control of infection, but one of the tetracyclines may also be effective.
- In acute infections streptomycin is given for 3 consecutive days at a rate of 25mg/kg bodyweight daily.
- A single injection of 25mg/kg dihydrostreptomycin is effective in eliminating urinary tract infections.
- No treatment is successful once a haemolytic crisis has developed.
Prevention and Control
- Vaccination with or without antibiotic therapy (dihydrostreptomycin at 25mg/kg to all cattle in the herd) offers an effective method of preventing and controlling infection in cattle herds.
- In closed herds vaccination of all members of the herd should be carried out annually while in open herds vaccination should be carried out every 6 months.
- The vaccine should be a multivalent one giving protection against those serotypes diagnosed or locally endemic. In a few animals, vaccination may fail to prevent colonization of the renal tubules and the development of a carrier state.
- In addition to vaccination steps should be taken to avoid animal contact with infected surroundings. Damp areas should be fenced and pens disinfected after use by infected animals.
- Cattle should be separated from pigs and wildlife. Rats and other rodents should be controlled.
- Replacement stock should be selected from herds which are sero-negative for leptospirosis and replacement stock should be vaccinated and treated with streptomycin.
Bovine Spongiform Encephalopathy ( Mad Cow Disease)
Apart from cattle BSE has been transmitted experimentally to several other species, including mice, pigs, sheep, goats, mink, monkeys and marmosets. During the British epidemic cases of BSE occurred in small numbers of captive ungulates - nyala, gemsbok, eland, oryx, kudu, Ankole cow and bison - and in five species of wild cat - puma, cheetah, ocelot, lion and tiger - either kept in, or originating from, British zoos. The ungulates were infected from the same food source as cattle and the cats, including a small number of domestic cats, were most likely infected by eating infected bovine tissue.
Cause
Transmission
Clinical Findings
Diagnosis
Zoonotic Risk
Only the U.K. has experienced the disease in epidemic proportions, but lower incidences have occurred in cattle in several countries in Europe, Israel , Canada , Japan , the Falkland Islands and the Sultanate of Oman . Cattle may have been infected as a result of the importation of cattle and /or ruminant-derived meat and bone meal from countries with the disease.
Cause
The precise cause of BSE is not known. It is believed to be an abnormal protein called a prion. Such agents, in addition to causing Scrapie in sheep, are also responsible for Creutzfeldt-Jakob Disease, Kuru and Fatal Familial Insomnia in humans.
Transmission
This is via food-borne exposure to a Scrapie-like agent via contaminated meat and bone meal included in cattle rations. Transmission between cattle seems not to occur, although calves born to affected cows have a maternally associated risk.
The average age when symptoms appear is 5 years, and there is no sex or breed predisposition. The incidence in herds is generally low. At the peak of the epidemic in Britain is it was an average of 2 %.
Clinical Findings
Initially these are slight and associated with the animal's behaviour. Over the following weeks and months the symptoms progress and increase arriving at a terminal state by 3 months after onset. Close observation will reveal various neurological abnormalities. These include nose licking, teeth grinding, head rubbing, nose wrinkling, sneezing or snoring. Head shyness, kicking, and frenzy may also occur. There may be an exaggerated response to unexpected visual, auditory or tactile stimuli. Long periods may be spent standing with a fixed staring expression, the head held low to the ground. As the disease progresses there is staggering and collapse accompanied by general paralysis. There is weight loss and a reduction in milk yield. Euthanasia (destruction of the animal) is advisable at this or an earlier stage.
Diagnosis
This can only be done by advanced laboratory techniques, using histopathology and electron microscopy to examine brain tissue.
Differential diagnosis includes Rabies, Lead Poisoning, Brain Abscess, Hypomagnesemia, Nervous Ketosis, Trauma to the Spinal Cord and Ecephalitic Listeriosis.
The lengthy course of BSE however, should help in reaching a diagnosis, as most other conditions are much shorter in their clinical manifestations.
Treatment and Control
There is no treatment.
Control has been effected in Britain and other European countries by banning the use of any tissue from warm blooded animals in the rations of all farm animals. Animal protein, including that derived from birds, should NEVER be fed to livestock.
Zoonotic Risk
Associated with the emergence of BSE has been a novel variant of Creutzfeldt-Jakob Disease in the human population of Great Britain , in 1996. Cases have also been seen outside Britain . Infection is presumed to be the result of eating infected bovine tissue. As a result BSE affected countries have introduced the statutory removal of high-risk bovine tissue from the human food chain.
Mange (under construction)
For complete datasheet please see here: Skin problems
Mange is a very itchy skin condition that comes when the skin is infected by small borrowing mites called sarcoptic mites. It may affect all warm blooded animals including humans. Humans may get it from any of the domesticated animals that have an infection.
Orf
Orf is an infectious viral skin disease of mainly sheep and goats. It mainly affects the lips of young animals. The disease is more severe in goats than in sheep. It can also affect wild sheep and goats. Humans are occasionally infected and the disease has been reported in dogs that have scavenged on infected carcases.
It is characterised by the development of pus-filled and scabby wounds on the muzzle and lips of lambs and kids, by the appearance of similar lesions on the teats of nursing ewes and nanny goats and it can also produce lesions on the teats of cows.
Epidemics tend to occur twice yearly - the first peak is associated with the disease in sucking lambs, the later one with susceptible stock lambs. But sporadic cases can occur at any time.
The disease is commonest in lambs and kids aged 3-6 months, although lambs aged 10-12 days and adults can be severely affected. Outbreaks can occur at any time but are most common in dry conditions. Recovered animals are solidly immune for 2-3 years but they do not transfer this immunity in their colostrum to their lambs, which are therefore susceptible to infection.
In humans typical wounds occur at the site of infection, usually an abrasion infected while handling diseased sheep, or milking infected cows or by accidental means when vaccinating sheep. The lesions are very itchy and respond poorly to treatment.
Infection only occurs if there is a break in the surface of the skin or the lips. The rapid spread during dry conditions may be due to scratches on the skin caused by dry feed, allowing a ready entry of infection. Spread in a flock is very rapid and occurs by contact with other infected animals or non-living objects. Ewes nursing affected lambs often develop crops of lesions on their teats which sometime lead to mastitis. As a result lambs are unable to suckle and may suffer from starvation.
Pseudo cow pox
Pseudo-Cow Pox is a common, mild infection of the udder and teats of cows and occurs worldwide.
Other names for Pseudo-Cow Pox include Bovine Papular Stomatis (BPS) and Milkers' Nodules.
Pseudo-Cow Pox is visible as eroded patches (blisters) on the teats and udders of lactating cows, whereas BPS is acquired by calves suckling cows with active Pseudo-Cow Pox and is visible as circular patches around the nose and mouth and by a pimple-like inflammation on the margins of the nostrils, inner surfaces of the lips, and the edges of the tooth sockets.
ATTENTION: Human beings can be infected with BPS and the disease in humans is called Milkers' Nodules.
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Q-fever
Q Fever, Coxiella burnetti, is a disease passed to humans from sheep. People working around domestic sheep should consider getting vaccinated against this disease. The disease can be acquired from the inhalation of aerosolized barnyard dust should it contain infected dried urine, manure particles, or dried fluids from the birth of calves or lambs or through tick bites or by drinking raw milk.
Q-fever is found all over the world, in every country where it has been sought.
Its main importance is its ability to infect man, and to cause abortions, metritis (inflammation of the lining of the uterus), and mastitis in infected ruminants.
Ventral view of a larval Ixodide, Dermacentor marginatus hard tick that has been cleared and mounted. This tick species is known to be a vector for Tick-borne encephalitis virus, caused by a member of the Tick-borne encephalitis virus complex, Flaviviridae, and Q fever, which is caused by the bacteria Coxiella burnetii.
Coxiella burnetii is an extremely difficult organism to eliminate. It is very tough, resisting most disinfectants, heat and drying, and surviving for years in dust
At-risk animals, and man, become infected by inhaling infected fluid discharges in the air or dust loaded with dried discharges.
The disease is highly infectious. Animal handlers are particularly at risk from infection, especially at lambing or calving, from inhalation, ingestion or direct contact with birth fluids or afterbirth.
However the main route of most human infections is by inhalation of contaminated air droplets or dust originating in infected ruminants or other animals e.g. cats.
Spread can occur up to 10 kilometres from the source of infection by wind dispersal of dried reproductive products, such as afterbirth, genital discharges, etc from infected sheep, cattle and goats, depending on wind condition.
Rabies
Local names:
Luo: Tuo swao, Rabudi, swawo / Swahili: Kichaa cha mbwa / Turkana: long'okwo, arthim, nkerep, nkwang' / Somali: ramis, nyanyo, waalan, walan / Samburu: nkuang, nkwang / Maasai: Olloitirwa LolLdien, enkeyian orki, enkeya oldian / Meru: nthu cia kuuru / Maragoli: bulalu vwa tsimbwa / Gabbra: nyanye, aidurr / Kamba: mun'gethya, nduuka ya ngiti / Kipsigis: miotap ngokto /
Luo: Tuo swao, Rabudi, swawo / Swahili: Kichaa cha mbwa / Turkana: long'okwo, arthim, nkerep, nkwang' / Somali: ramis, nyanyo, waalan, walan / Samburu: nkuang, nkwang / Maasai: Olloitirwa LolLdien, enkeyian orki, enkeya oldian / Meru: nthu cia kuuru / Maragoli: bulalu vwa tsimbwa / Gabbra: nyanye, aidurr / Kamba: mun'gethya, nduuka ya ngiti / Kipsigis: miotap ngokto /
Common names:
hydrophobia, lyssa, rage (French), rabia (Spanish) Tollwut (German)
hydrophobia, lyssa, rage (French), rabia (Spanish) Tollwut (German)
Introduction
WARNING: Rabies is a notifiable disease! If you suspect an animal has Rabies, you must inform the authorities immediately. |
Rabies is is a fatal viral inflammation of the central nervous system caused by Rhabdovirus. It occurs world wide and affects all warm blooded animals including man and other domestic and wild animals except birds.
Rabies is common in both rural and urban areas. Many people are unaware of the mortal dangers associated with this terrible disease. Many people in rural areas keep dogs both as pets and for security. Because most rural people are not aware of the hazards of the disease, they have not had their dogs vaccinated. As a result lives are put at risk for the lack of simple information and a few shillings.
Furious stage of Rabies in cattle: Salivation, dropped lower jaw and squinting can be seen on this highly exited rabid cow. Whilst pressing its head onto the fence it was producing a highly abnormal bellowing sound
Mode of spread
Rabies is transmitted via the saliva of an infected animal, usually through its bite. Once clinical signs appear it is almost invariably fatal.
Rabid animals usually excrete the virus in their saliva 2 days before they show clinical signs and then throughout the course of the disease which is normally less than 10 days. On rare occasions dogs in Africa have been known to survive Rabies and to excrete the virus in their saliva for months.
Transmission usually occurs when infected saliva is deposited in a bite wound. Less common routes of transmission include inhalation of infected droplets in bat infested caves and by the ingestion of an infected carrier.
The rabies virus spreads when it is deposited in a bite wound and penetrates muscle cells where it either multiplies or becomes confined as a subviral particle. Within a few hours newly formed viral particles enter the peripheral nervous system and travel along the nerve trunks to the spinal cord and brain. From the brain the virus travels along peripheral nerves to the salivary glands.
In Kenya the dog is the main transmitter of Rabies though cats and wild animals, such as jackals, can also play a part in transmission. Ruminants such as cattle, sheep and goats play little part in direct transmission but their role as indirest transmitters can be important. The disease is of serious concern as the majority of dogs in the country are unvaccinated.
The incubation period is both prolonged and variable. Bites close to the head result in symptoms appearing sooner than in an animal bitten, for example, on a lower hind limb. Sequestration of the virus in the area of the bite is believed to explain the occasional very long incubation periods recorded. Bites in areas with a rich blood supply are especially dangerous. In most clinical cases of Rabies the incubation period is of the order of 3 to 12 weeks, with occasional cases of periods of up to a year.
Signs of Rabies
The course of the clinical disease ranges from 2 to 10 days.
There are three clinical phases: pre-symptomatic, excitative and paralytic.
1. Before symptoms occur (pre-symptomatic phase) there is a change in behaviour; friendly dogs become aggressive, fierce dogs become friendly. Affected cattle stray away from the herd. In dogs this phase may last for 2-3 days; in cattle a few hours.
2. The excitative phase is refered to as "Furious" Rabies. In the excitative phase:
- Animals appear to be hypersensitive, restless, and agressive and may bite or attack without warning
- Voice changes occur. Depending on the species of the infected animal, the voice changes may include howling, roaring and bleating. Infected people may bark like dogs
- Dogs often have a peculiar staring expression and often drool saliva
- The conjunctiva often is red and inflamed
- They may attack any moving object and break their teeth and eat stones and sticks
- Cattle may stare intently at people before charging them. They may break their way through fences.
- Donkeys may mutilate themselves biting and chewing their bodies to such an extent they occasionally even disembowel themselves
- Cats become very aggressive, attacking without provocation.
3. The paralytic phase is refered to as "Dumb" Rabies. In the paralytic phase:
- Cattle may walk unsteadily and strain unproductively as though trying to pass dung, due to decreased sensation of the hindquarters
- They bellow hoarsely, continuously, sometimes for hours on end
- They drool saliva
- They are unable to eat or drink
- Dogs often have paralysis of the lower jaw, with a dry, darkened tongue
- Finally the animal becomes progressively paralysed,cannot eat or drink and dies.
The period from the onset of symptoms to death is generally short, usually 3 to 4 days. Occasionally a rabid animal may show no obvious clinical symptoms and may die after a short undramatic illness.
Diagnosis of Rabies
- Any animal behaving strangely should be suspected of having Rabies. The absence of a bite wound is immaterial as bites, if they had been present, will have have healed long before the advent of symptoms.
- Animals acting oddly should not be approached closely. Do NOT put hands into any animal?s mouth searching for suspected non-existent foreign bodies. If saliva gets onto the hands they should be immediately washed vigorously with soap and disinfectant.
- Medical advice should be sought if there is ANY suspicion that an animal might have Rabies and a veterinary surgeon sought to examine the affected animal.
- Animals suspected of having Rabies should be isolated, confined and otherwise kept enclosed and out of touch of people and other animals, until such time as the animal is either dead or alive at the end of 10 days. If the animal is still alive after10 days one can confidently assume that it did not have Rabies.
- In the case of dogs and cats the head will be examined at Kabete Central Veterinary Laboratories, brain tissue being tested using the Direct Immunofluorescent Test. The result should be available after a day. With cattle the size of the head and the difficulties of transporting such a cumbersome mass to Kabete laboratory makes this a matter harder to resolve.
- Do NOT attempt to remove the head yourself. This is a job for a trained veterinarian only!
- A laboratory diagnosis is important but in the absence of this if the symptoms suggest Rabies it is better to assume that that is what it is, rather than to do nothing and wait for the next case.
Prevention - Treatment - Control
There is no treatment for rabies and it is not advisable to try to treat an animal infected with rabies because of the dangers in handling such an animal.
Recommended prevention and control
- All owned dogs must be vaccinated. It is advisable to conduct a mandatory vaccination of all domestic dogs. Since rabies is regarded as notifiable disease, the campaign should be enforced by relevant veterinary act and a breach of the act should be punished by the law.
- Regular baiting of stray dogs in the urban and rural areas: After every vaccination campaign against rabies, all stray dogs and other dogs that have not been vaccinated should be baited in accordance with an enforcing act.
- Joint collaboration: Effective control of rabies requires a joint collaboration between various stake holders such as: veterinary department, public health, provincial administration and ministry of education and the public.
- Avoid contact with any dogs and cats which do not have owners
- Keep stray dogs and jackals away from livestock
Warning!!!
- Remember always that there is NO treatment for Rabies! Do NOT try to treat an animal with Rabies! It is going to die and so might you, if you get bitten.
- Anyone bitten by a rabid animal or who has had close contact with one, whether dog, cow, donkey, sheep or cat MUST receive a course of post-exposure anti-rabies vaccinations. As soon as possible.
- The cost of anti rabies vaccine for human immunization is expensive. In Kenya the cheapest anti rabies vaccination course for a human would cost about Kshs.10,000 in a public hospital or more in a private hospital. Therefore it is cheaper to vaccinate a dog at a cost of Kshs.50. This should be repeated yearly. This would protect your dog from getting or transmitting Rabies.
- Remember also that the Kenyan law requires that all dogs must be vaccinated against Rabies
- Rabies is a notifiable disease and therefore any suspected case of rabies should be
Rift Valley Fever
Rift Valley Fever (RVF) is a mosquito-borne viral disease affecting domestic ruminants (cattle, sheep, goats, camels, domestic buffaloes) and humans. It occurs mainly in East and Southern Africa and in year 2000 in Saudi Arabia and Yemen. During epidemics the occurrence of numerous abortions, deaths in young animals and influenza like diseases in humans tends to be characteristic. During recent epidemics in Kenya several deaths of humans were reported.
Formerly, apart from abortion, most cases in adult animals were subacute, but in recent times a haemorrhagic form of the disease has emerged with rapid death in mature animals, including cattle.
There is a remarkable age-related innate resistance to RVF virus; mortality rate in lambs less than 1 week old exceeds 90% whereas the rate in lambs over 1 week drops to 20%.
The virus is widely distributed in Africa, but major epidemic episodes in animals and humans are relatively rare, occurring in 5 to 20 year cycles. Between epidemics, the virus survives in mosquito eggs laid on vegetation in dambos-which are shallow depressions in forest edges. Only when these are flooded do the eggs hatch. This only occurs when the water table rises following prolonged heavy rain. The eggs then hatch and a new population of infected mosquitoes emerges.
Heavy rains and flooding cause mosquito eggs to hatch and Rift valley fever to become epidemic.
Vaccination of all domestic animals at the onset of heavy rains is a good precaution which will also protect humans from catching this serious disease.
Ringworm
Ringworm is a fungal skin infection - not a worm at all. Children are often observed with ringworm infestation. They can get ringworm infections from any domestic animal or from other children. Ringworm in children can be cured by using special medicated soaps.
In animals use of iodine or chlorhexidine (Savlon) can be effective cures along with cleaning out their pens and living areas.
Sings of Ringworm
- Animals and humans develop symptoms of ringworm 7 - 28 days after infection.
- Animals have a circular scab on the skin about 3 cm across. Scabs usually appear first around the nose, above and around the eyes, on the ears or under the tail. The skin under the dry scab is wet. Scabs soon join together and become thicker.
- In children ringworms are often seen on the scalp, arms and any part of the body not often exposed to sunlight
- After several days the scabs fall off. The skin underneath becomes dry with a heavy, gray-white crust raised above the skin.
- Animals do not scratch when they have ringworm. But they sometimes scratch if bacteria infect the scabs.
- The scabs fall off after a few weeks and leave patches with no hair.
Animals slowly recover even without treatment. The hair grows back in about three months
Salmonellosis (under construction)
Taeniasis or Tape worms
This is a tapeworm of humans, in which it can cause abdominal discomfort. It is a very long tapeworm, growing up to 15 metres long. It can cause loss of weight and general weakness in humans
Adult Taenia saginata tapeworm. Humans become infected by eating raw or undercooked infected meat. In the human intestine the cysts (larval stage) develop over 2 months into adult tapeworms which can survive for years. They attach to and feed from the small intestine.
Tetanus
Introduction
Tetanus is a poisoning, caused by the neurotoxin of the spore-forming bacterial organism, Clostridium tetani, characterized by muscular spasms.
The disease occurs worldwide, but is more common on well-manured land, in closely settled areas under intensive cultivation, or associated with surgical procedures. Cases are usually sporadic, although occasionally outbreaks involving several animals may occur, as in lambs or colts as a result of infection through operation wounds or via the naval cord.
Almost all mammals are susceptible to Tetanus, including humans, who are very susceptible. Among mammals horses are the most susceptible, followed by sheep and goats. Cattle are fairly resistant, as are dogs. Cats seem to the most resistant of all domestic animals.
Mode of spread:
Clostridium tetani is an anaerobe - it lives without oxygen. It is found in soil and in intestinal tracts and in faeces. The spores may persist in the ground for many years, and are very resistant to heat and to standard disinfectants. In most cases they are introduced into the tissues through wounds, particularly deep puncture wounds, which provide a suitable anaerobic environment. Horses' hooves are particularly susceptible. Cows after calving may also contract tetanus. In lambs, however, it often follows docking or castration. Sometimes the point of entry cannot be found because the wound itself may be minor or have healed.
The spores of C. tetani are unable to grow in normal tissue or even in wounds if the tissue remains at the oxidation-reduction potential of the circulating blood that is surface wounds. Suitable conditions for multiplication occur when a small amount of soil or a foreign object causes tissue damage and cell death such as deep puncture wounds. When this happens the bacteria remain localised in the destroyed tissue at the original site of infection and multiply. Sometimes the spores may lie dormant in the tissues for some time and only produce clinical illness when tissue conditions involving a drop in the oxygen level favours their proliferation.
As the bacterial cells themselves disintegrate the potent neurotoxin is released, being absorbed by the motor nerves in the area and passed up the nerve tracts to the spinal cord. The toxin causes spasmodic, tonic contractions of muscles by interfering with the release of neurotransmitters from the nerve endings. Even minor stimulation of the affected animal may trigger the characteristic muscular spasms, which may be so severe as to cause bone fractures. Respiratory failure may occur due to spasm of the larynx, diaphragm and muscles of the chest.
Symptoms
The incubation period varies from one to several weeks, but usually averages 10 - 14 days.
- The initial signs are often no more than a little stiffness, anxiety and an exaggerated reaction to handling or to noise. Soon, however, after about a day or so, the stiffness becomes more general. The muscles of mastication, the neck, the hind legs and the area of the infected wound are most affected. Spasms and greater reaction to stimuli become evident.
- Cattle may show signs of bloat.
- Animals may be constipated and urine may be retained because of difficulty in attaining the normal posture for urination.
- The reflexes increase in intensity, and the affected animal is easily excited into more violent, general spasms by sudden movement or noise. The third eyelid, is often partially prolapsed across the surface of the eye, producing a snapping noise as it does so. The ears are usually stiff and erect and immobile. Any movements are slow and accomplished with great difficulty. The legs cannot be flexed. The jaw cannot be opened due to spasm of the muscle of mastication ? lock jaw. The nostrils are dilated and the face has a peculiar staring, anxious expression. The tail is rigid and often held sideways. The affected muscles feel hard, tense, and board-like, sometimes showing twitchings and tremblings.
- Respiration becomes more and more difficult as the muscles of respiration are affected. Finally the animal falls to the ground with the head often bent backwards. The affected animal remains fully conscious throughout.
- Death usually occurs from 8 - 10 days after the appearance of the first symptoms. Mortality averages about 80% and death is from suffocation and respiratory arrest.
Diagnosis
This is usually made from the characteristic clinical signs and history of a recent wound. It may be possible to demonstrate the organisms in smears taken from a wound or by culture, but this is rarely done.
Strychnine poisoning may be confused with Tetanus, but in poisoning the onset of symptoms is much more rapid, the muscular cramps are intermittent and not constant and death occurs in a much shorter period of time.
Treatment
In humans is normally standard practice to administer tetanus vaccine immediately as part of treatment of any deep puncture wounds. Please ask your doctor for advice.
In animals proper treatment of all wounds is of primary importance. The persistence of pus, dead tissue, dirt or foreign bodies within the wound must be avoided and the proliferation of bacteria avoided. Careful drainage must be provided to prevent the accumulation of blood serum and excretions. Foreign bodies must be removed and the wound thoroughly opened to ensure careful cleaning. After any surgical procedure, such as docking or castration, animals must be turned out onto clean ground, preferably grass pastures. Remember that only oxidizing disinfectants, such as iodine or chlorine dependably kill the spores.
If symptoms have set in, place the animal in a quiet, comfortable place and do not disturb it in any way. It should receive soft, easily digestible food and, when eating becomes more difficult, gruels or milk. Plenty of fresh water should be placed within easy reach, but the administration of medicine by mouth is not advised.
Any wounds should be drained and cleaned to prevent further production of toxin, and antibiotic in the form of large doses of penicillin administered.
Tetanus anti-toxin (if available) may be administered but is of little use once symptoms have appeared. Valuable animals may be given tranquilizer or sedative drugs, such as Acetylpromazine or Chlorpromazine to act as muscle relaxants.
The outlook in any case of Tetanus is always poor, but with careful nursing and aggressive use of antibiotics and with particular attention to the cleansing of wounds, some animals may recover. But recovery is always slow and protracted and may take several weeks.
Control and Prevention
All surgical interventions such as docking lambs' tails, castrations, sheep shearing etc, should be carried in clean surroundings, paying especial care to the disinfection of skin and of any instruments used. Temporary pens for holding animals are preferable to permanent ones which are more likely to be contaminated and dirty.
Tetanus vaccine can be used to confer immunity in situations where animals may be at risk. One injection gives immunity in 10-14 days lasting for a year and revaccination in 12 months gives solid immunity for life. In areas where the disease is very common all animals should be vaccinated annually as a routine measure.
Prevention of tetanus in new-born lambs is best effected by vaccination of the ewe in the last 2-3 weeks of pregnancy, preferably by using a combined clostridial vaccine which will also confer immunity against other diseases such as Lamb Dysentery, and Pulpy Kidney Disease.
Toxoplasmosis (under construction)
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Introduction
Toxoplasma gondii is an important zoonotic agent. In some parts of the world up to 60% of the population have serological evidence of persistent infection. Toxoplasmosis is of major concern for people who are immuno-compromised e.g. those infected with HIV. In these individuals toxoplasmosis usually presents as meningoencephalitis and results from the emergence of T.gondii from tissue cysts located in the brain as immunity wanes, rather than from primary infection.
Toxoplasmosis is also of major concern for the pregnant woman as tachyzoites can migrate across the placenta and cause birth defects in the foetus. Infection may occur after ingestion of undercooked meat or accidental ingestion of oocysts from cat faeces.
Definition
Toxoplasmosis is caused by a protozoal parasite, called Toxoplasma gondii, which infects humans and other warm-blooded animals, including birds, and occurs worldwide. It belongs to the same group of organisms which cause Coccidiosis.
It is an important zoonosis which means people can get it as well as animals.
Toxoplasmosis occurs worldwide.
Infection may be very common, but clinical Toxoplasmosis is relatively rare and its main importance is as a human disease and as a cause of abortion in sheep. In other species it can cause encephalitis, pneumonia and neonatal mortality.
Cause
The causative organism is a specific parasite of the definitive host, which is the Cat.
There is a wide range of intermediate hosts, including rodents and wild birds, in which there is thus a reservoir of infection.
Mice are very important intermediate hosts in that vertical transmission from generation to generation without significant illness provides a long-lasting reservoir of infection for susceptible cats.
Young cats begin to catch and eat infected mice and thus acquire infection. Infected mice are more easily caught as they are less responsive to novel stimuli. Cats acquire infection by eating meat containing infective eggs od the parasite. They can also be infected by eating contaminated food.
In the small intestine of the cat the parasites go through a typical coccidian life cycle resulting in the shedding of unsporulated oocysts (eggs) in the faeces. Huge numbers of eggs may be excreted. 50 g of cat faeces may contain 10 million eggs while the dose needed to infect a sheep is less than 40 eggs. Therefore concentrate feed or hay contaminated with cat faeces may contain many infective doses. After several days the eggs hatch and are then infective, often in large numbers and may remain infective in the environment for long periods, exceeding a year. When eaten by the intermediate host the eggs invade tissues, multiply rapidly in a wide variety of tissues and then, a few weeks later, localize in certain tissues and become tissue cysts. This invasion can include the foetus in a pregnant female, the brain, the heart, the lung and the placenta.
Young cats pose the greatest threat. Generally cats once infected when young only pass oocysts once in their lifetime although older immunosuppressed cats may exhibit a recrudescence of infection.
Human infections appear to be associated with the presence of cats, and the consumption of inadequately cooked meat.
The organism is readily destroyed by heating, drying and freezing and thawing and dies quickly in the carcases of infected animals. The tissue cysts formed in the tissues of chronically infected animals form the most effective means of perpetuating the disease.
Approximately 200 species of mammals and birds have been identified as being intermediate hosts of Toxoplasma gondii, including all domestic animals and man. But cats are the only known final host.
Approximately 200 species of mammals and birds have been identified as being intermediate hosts of Toxoplasma gondii, including all domestic animals and man. But cats are the only known final host.
Transmission
Cats, being the final host, shed oocysts in their faeces, which sporulate within 2-3 days to become infectious to other cats and all intermediate hosts. Eating of sporulated oocysts by cats results in a typical direct coccidial life-cycle in the intestine, resulting in further excretion of large numbers of oocyts
.
In the cat there is a sexual cycle. In other species the cycle is asexual. Oocysts shed by the cat develop into rapidly developing tachyzoites which in turn develop into tissue cyst bradyzoites which when ingested by the cat complete the cycle. (see life cycle above)
The common method of spread in ruminants is by eating feed contaminated by cat faeces which contain infective oocysts. Carnivores get infected by eating uncooked meat containing tissue cysts.
Young and immuno-compromised animals may succumb to generalized toxoplasmosis. Older animals mount a powerful cell-mediated response and control infections, driving the tachyzoites or rapidly multiplying forms into the bradyzoite or tissue cyst forms. Individual cysts may enclose hundreds of bradyzoites in a thin, resilient cyst wall. These cysts in the host remain infective for many years, and possibly for the life of the host. These cysts are the main source of ongoing infections. They are commonly found in muscle and brain tissue, in which they persist for life.
The organism has a preference for the central nervous system, and, in sheep and goats, for the placenta, with abortion as the result.
Clinical Findings
The only clinical syndrome recognized with any regularity is abortion and neonatal mortality in sheep, but goats are also susceptible with a similar scenario to that seen in sheep, with death of foetus and also probable transmission from dam to offspring.
Infection in most species appears to be common and widespread, but most cases are symptomless or mild. Clinical signs depend on the tissues infected and the stage of the parasite e.g. acute disease results from rapid multiplication of tachyzoites. Symptoms are very varied and may include pneumonia, endocarditis and neonatal mortality.
Toxoplasmosis is an important cause of abortion in sheep. The pattern of abortion depends on the stage of pregnancy when animals are infected. Infection early in pregnancy results in foetal death or abortion of a mummified foetus. Infection later in pregnancy causes inflammation of the placenta and abortion of a relatively fresh, well-developed foetus. Some lambs congenitally infected may be born alive but are weak and die within a few days. Infection outside of pregnancy is asymptomatic but results in immunity.
There is no sheep to sheep transmission. Sheep, once infected, remain so for life, but develop a solid immunity which is probably lifelong. There may be vertical transmission in sheep with lambs infected when they are born.
Diagnosis
Diagnosis cannot, with confidence, be based on clinical findings alone.
Post mortem examination of aborted placenta reveals dark cotyledons with white speckles of necrosis visible to the naked eye, with normal intervening tissue.
Post mortem examination of aborted placenta reveals dark cotyledons with white speckles of necrosis visible to the naked eye, with normal intervening tissue.
Various serological and biological tests are in use in countries where the disease is recognized as being a potential threat to animal and human health. The Indirect Fluorescent Antibody Test is one. None is currently available in Kenya . Post mortem tachyzoites may be seen in tissue impression smears and microscopic examination of tissue sections may reveal the presence of tachyzoites and bradyzoites.
Prevention - Control - Treatment
Treatment
This is rarely applicable in animals. In humans drugs such as sulphadiazine and pyrimethamine are widely used, especially in the acute stage. Clindamycin is the treatment of choice in dogs and cats.
Prevention and Zoonontic Risk
There is an effective tachyzoite vaccine (Toxovax) for use in sheep, which has lost the ability to form bradyzoites in tissue cysts. Duration of immunity is reported to be at least 18 months, although with natural infection boosting immunity in field conditions it is likely to be lifelong. It should be given to non-pregnant ewes at least 3 weeks before mating. It is not currently available in Kenya.
Animals may be immunized by exposure to controlled infection, such as having susceptible female sheep on known infected farms exposed to infection to Toxoplasma-contaminated areas several months before breeding in order to infect and immunize them before pregnancy.
Monensin at 15 mg per ewe appears to prevent or lessen infection, as does Deccox given during the last two thirds of pregnancy.
Cats should not be allowed to mingle with farm animals and contamination of the food of farm animals with cat faeces must be prevented. Farm cats should be neutered to prevent straying and contracting and spreading infection. Cats should be kept healthy. Sick and immunosupressed cats may have a recurrence of infection.
Vermin such as mice and rodents should be controlled.
Cats themselves do not pose a threat in that handling is not a risk as oocysts are not infective until they have sporulated after being excreted by the cat. This takes one to five days. It is the environmental soil and water which poses the risk.
To prevent infection people handling meat should wash their hands thoroughly with soap and water after contact. This also applies to cutting boards, sink tops, knives and other materials. T. gondii is killed by exposure to extreme cold or heat. Tissue cysts in meat are killed by heating the meat throughout to 67 C or by cooling to -13 C. The meat of any animal should be cooked to 67 C before consumption. Tasting meat while cooking should be avoided.
Water should be boiled or filtered.
Pregnant women should avoid contact with cat litter, soil and raw meat. Pregnant women should also not assist at lambing time.
Pet cats should only be fed dry, canned or cooked food. The cat litter box should be emptied daily, preferably not by a pregnant woman. Gloves should be worn when gardening. Vegetables should be thoroughly washed before eating as they may have been contaminated with cat faeces.
There is no human toxoplasma vaccine.
Tuberculosis
Tuberculosis is a bacterial infection that affects mainly cattle and human beings, as well as other domestic animals. Mycobacterium bovis is the usual cause of tuberculosis in cattle, while M.avium causes the disease in poultry and M. tuberculosis is responsible for the majority of cases in man. It occurs worldwide but prevalence is dependant on the type of husbandry and the efficacy of control measures. Its prevalence is low in cattle kept extensively and not housed at night.
WARNING: Consumption of raw milk by humans should be discouraged. People get tuberculosis from animals. Never drink unboiled milk. |
Humans are more susceptible to tuberculosis if the immune system has other challenges such as HIV/AIDS. It is therefore often encountered as secondary infection to this disease.
Review Process
1. William Ayako, KARI Naivasha. Aug - Dec 2009
2. Hugh Cran , Practicing Veterinarian Nakuru. Sept. 2011
3. Review workshop team. Nov 2 - 5, 2010
2. Hugh Cran , Practicing Veterinarian Nakuru. Sept. 2011
3. Review workshop team. Nov 2 - 5, 2010
- For Infonet: Anne, Dr Hugh Cran
- For KARI: Dr Mario Younan KARI/KASAL, William Ayako - Animal scientist, KARI Naivasha
- For DVS: Dr Josphat Muema - Dvo Isiolo, Dr Charity Nguyo - Kabete Extension Division, Mr Patrick Muthui - Senior Livestock Health Assistant Isiolo, Ms Emmah Njeri Njoroge - Senior Livestock Health Assistant Machakos
- Pastoralists: Dr Ezra Saitoti Kotonto - Private practitioner, Abdi Gollo H.O.D. Segera Ranch
- Farmers: Benson Chege Kuria and Francis Maina Gilgil and John Mutisya Machakos
- Language and format: Carol Gachiengo
Information Source Links
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- Blood, Radostits and Henderson: Veterinary Medicine A Textbook of the Diseases of Cattle, Sheep, Pigs, Goats and Horses 6th Edition ELSB & Bailliere Tindall 1983 ISBN 0-7020-0988- 1
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- CABI 2007 : Animal Health and Production Compendium 2007 edition: www.cabicompendium.org/ahpc
- David Buxton Toxoplasmosis in Sheep and other Farm Animals Volume 11 No 1 January 1989
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- Hunter, A. (1996). Animal health: Specific Diseases. Volume 2 (Tropical Agriculturalist) - Macmillan Education Press. ISBN:0-333-57360-9
- ITDG and IIRR (1996). Ethnoveterinary medicine in Kenya: A field manual of traditional animal health care practices. Intermediate Technology Development Group and International Institute of Rural Reconstruction, Nairobi, Kenya. ISBN 9966-9606-2-7.
- In Practice Journal of Veterinary Postgraduate Clinical Study
- Khan CM and Line S (2005): The Merck Veterinary Manual, 9th Edition, Merck & Co Inc Whitehouse Station NJ USA
- Mackenzie & Simpson 1967: The African Veterinary Handbook 4th Edition, Pitman
- Mackenzie & Simpson 1967: The African Veterinary Handbook 4th Edition, Pitman
- Martin WB 1983 Editor: Diseases of Sheep by Blackwell Scientific Publications ISBN 0-632-01008-8
- Mearns Rebecca January 2007: Abortion in Sheep: Investigation and Principal Pathogens Volume 29 No 1
- Merck Veterinary Manual 9th Edition
- Michael Lappin Feline Toxoplasmosis: Current Clinical and Zoonotic Issues Volume 21 No 10 November/December 1999
- Mike Taylor November/December 2000: Protozoal Disease in Cattle and Sheep Volume 22 ISBN NO 0263/841 X
- Mugera GM (editor) (1979): Diseases of Cattle in Tropical Africa. Kenya Literature Bureau PO Box 30022 Nairobi
- Sewell and Brocklesby (1990): Handbook on Animal Diseases in the Tropics 4th Edition Bailliere Tindall ISBN 0-7020- 1502-4
- The Organic Farmer magazine No. 50 July 2009
- The Organic Farmer magazine No. 51 August 2009