Pathogen test  The RT-cPCR test detects the genome (RNA) of Hendra virus. Sample 5 mL - blood - K3 EDTA tube and/or 5mL - liquor (CSF) - sterile tube Turnaround time 2 to 5 working days   What is Hendra virus? Hendra virus (HeV) infection is a rare emerging zoonosis that causes severe and often fatal disease in both infected horses and humans. The natural host of the virus has been identified as being fruit bats of the Pteropodidae Family, Pteropus genus. Clinical signs The clinical signs in horses can include:  frothy nasal mucus high temperature rapid heart rate sweating muscle spasms and twitching muscle weakness balance difficulties rapid deterioration. Transmission Hendra virus can be transmitted from flying fox to horse, horse to horse and horse to human. The exact route of transmission is not known, but it is thought that horses become infected via contact or droplet transmission of the virus.This may occur by ingesting material contaminated by infected flying fox body fluids and excretions. While Hendra virus is present in flying fox populations periodically, the likelihood of horses becoming infected is low. Hendra virus can spread from horse to horse through direct contact with infectious body fluids, or through indirect contact via equipment contaminated with infectious body fluids. The few cases of Hendra virus infection in people occurred following high-level exposure to respiratory secretions (e.g. mucus) and/or blood and other body fluids from an infected horse. Other people have reported having some contact with infected horses but have remained well, and their blood tests have shown no evidence of Hendra virus infection. There is no evidence of Hendra virus spreading from person to person or from flying foxes to humans. The scientific information available on the disease is not complete. Research continues so that we can learn more about Hendra virus—particularly about how it is transmitted from flying foxes to horses. Prevention How to reduce the risk of horses becoming infected: A Hendra virus vaccine is available for horses. Vaccination is the single most effective way of reducing the risk of Hendra virus infection in horses. Discuss the option of vaccination with your veterinarian. See Vaccination in this brochure for more information. Remove horse feed and water containers from under trees. If possible, place feed and water containers under a shelter. Remove your horses from paddocks where flowering/fruiting trees may be attracting flying foxes. Return the horses only after the trees have stopped flowering/fruiting and the flying foxes have gone. If the horses cannot be removed from the paddock, consider fencing (temporary or permanent) to restrict access to flowering/fruiting trees. Clean up any fruit debris underneath the trees before returning the horses. If it is not possible to remove your horses from paddocks for long periods, try to temporarily remove your horses during times of peak flying fox activity (usually at dusk and during the night). Clean and disinfect gear exposed to any body fluids from horses before using it on another horse. This includes items like halters, lead ropes and twitches. Talk to your veterinarian about which cleaning agents and disinfectants to use. When cleaning contaminated equipment, wear gloves, cover any cuts or grazes and wash your hands thoroughly afterwards. If your horse becomes sick, isolate it from other horses, other animals and people until a veterinarian’s opinion is obtained.  

Read more less

Pathogen test  The qPCR test detects the genome (DNA) of Rabies virus. Sample 1 swab - saliva - dry swab 5mL - blood - K3 EDTA tube 5mL - liquor (CSF) - sterile tube Turnaround time 2 to 5 working days   What is Rabies?  Rabies is a virus that causes a neurological disease that can affect all mammals. When an animal is bitten, the virus migrates to the brain where it causes inflammation, known as encephalitis. It is rapidly progressive and invariably fatal. The incubation period – the time between the virus’ entry into the body and the onset of clinical signs – averages 2 to 9 weeks, but may be as long as 15 months. Clinical signs Clinical signs can be subtle and could include: Sudden change in behaviour (depression to manic); Lameness or being unable to rise; Head-pressing and circling; Pain or difficulty urinating; Muscle tremors or convulsions; Persistent and painful erection in absence of sexual interest; Loss of appetite; Appearance of choke; Neurologic signs such as incoordination and paralysis; and Sudden death can also be seen on occasion. Transmission We see an increased incidence of rabies infections in horses and other livestock in the late summer and fall when wildlife populations peak. Horses contract rabies through the bite of an infected (rabid) animal, such as a raccoon, fox, skunk or bat. A horse’s curiosity can get the best of him, with bites typically occurring on the horse’s face and muzzle or lower limbs. Most exposures aren’t noticed and most bite wounds aren’t found. Since wildlife may enter barns (especially at night), both horses in stalls and those on pasture are at risk of exposure. Due to the serious threat for human exposure when handling a horse with rabies, any suspected case of equine rabies should be handled as if it were positive until proven otherwise. You may become infected with the rabies virus through contact with saliva or brain/nervous system tissue from a rabid animal. Individuals who have been in contact with a horse since the onset of clinical signs should immediately consult with their physician regarding medical treatment. Prevention Horse owners can take advantage of some basic husbandry practices and good common sense to help reduce the risk factors that can contribute to disease incidence. One thing that all of us can do is to keep our feed storage areas neat and clean. Untidy areas with spilled feed invites unwanted guests such as opossums.  Keep your feed in sealed or closed containers. Cover your hay storage area if possible. Keep rodents under control on your property. Discourage visits by opossums. Check with local authorities with respect to trapping and relocating opossums or eliminating them. Properly dispose of any animal carcasses that you may see on or near your property. Clean your equine water sources on a regular basis. Do not feed on the ground. When transporting horses, make them as comfortable as possible.   

Read more less

Pathogen test  The RT-qPCR test detects the genome (RNA) of Japanese Encephalitis virus (JEV). Sample 5 mL - blood - K3 EDTA tube 5mL - liquor (CSF) - sterile tube Turnaround time 2 to 5 working days   What is Japanese Encephalitis Virus? Japanese encephalitis occurs throughout most of Asia, including India, China and Japan. In temperate areas, infection usually occurs in late summer and autumn, when mosquitoes are more active. Infection builds up in water birds and then spreads by mosquitoes to pigs during late spring and early summer and finally to humans and horses. Cases in humans and horses tend to be sporadic or occur in small clusters, but serious outbreaks could occur in a large, susceptible population exposed to infected mosquitoes. Infected horses are dead-end hosts as there is not enough of the virus in their blood to infect mosquitoes. Clinical signs These include: vary from a passing fever through to violent neurological signs and death mild cases: off feed, sluggish and reddened or jaundiced (yellow) mucous membranes (gums) more serious cases: lethargic with a fluctuating fever, difficulty swallowing, jaundice (yellow), pinpoint haemorrhages in mucous membranes (gums) nervous signs such as lack of coordination, staggering, falling, aimless wandering and unpredictable behaviour may occur in serious cases severe cases: blindness with profuse sweating and muscle trembling before collapsing and dying. Transmission Japanese encephalitis is caused by a virus related to West Nile virus and Murray Valley encephalitis virus. The virus cycles naturally between water birds (herons and egrets) and mosquitoes. Pigs can also be infected and spread disease causing abortions in pregnant sows and neurological signs in piglets. Humans and horses may suffer severe disease from the virus, but they do not spread the disease. Infections without recognisable signs occur in other livestock and animals. The disease has an incubation period of 8–10 days. Prevention Sanitary prophylaxis Housing animals in-doors in screened stabling can provide protection from mosquitoes o Especially during active JE outbreaks and during peak vector activity (usually dawn to dusk) o Insecticides, repellents and fans also provide protection. Vector control reduces transmission. Vaccine is available for horses .  Vaccine protects horses from clinical disease and possible sequelae.

Read more less

 Pathogen test  The RT-qPCR test detects the genome (RNA) of Western Equine Encephalitis (WEE) virus. Sample 5 mL - blood - K3 EDTA tube 5mL - liquor (CSF) - sterile tube Turnaround time 2 to 5 working days   What is Western Equine Encephalitis? Western equine encephalitis (WEE) is a viral disease carried by mosquitoes. WEE occurs in the western parts of the United States, including Iowa and Canada. WEE causes “sleeping sickness” in horses. Clinical signs WEE viruses affect the nervous system, so affected animals will have fever, depression and changes in behaviour. Signs of infection may also include impaired vision, muscle twitches, circling or head pressing behaviours, the inability to swallow, paralysis and convulsions. Survival rates of horses infected with WEE is 70-80%.  Transmission The virus is transmitted to people and horses by bites from infected mosquitoes and birds during wet, summer months Prevention Vaccines for WEE are available for horses. Measures to control mosquito populations and minimize mosquito exposure will decrease chances of infection.

Read more less

Pathogen test  The ELISA test detects antibodies to the West Nile Virus (WNV). Sample 5 mL - blood - serum tube Turnaround time 2 to 5 working days   What is West Nile Virus? West Nile virus (WNV) is a zoonotic mosquito-transmitted viral disease that cause can cause encephalitis or meningitis, infection of the brain and the spinal cord or their protective covering. Most horses bitten by carrier mosquitoes do not develop disease. Of those that do, approximately one-third develop severe disease and die or are so affected that euthanasia is required. The time between the bite of an infected mosquito and when clinical signs appear, ranges from three to 14 days. Clinical signs In horses that do become clinically ill, the virus infects the central nervous system and causes symptoms of encephalitis.  Clinical signs of encephalitis in horses include loss of appetite and depression, in addition to any combination of the following signs: fever, weakness or paralysis of hind limbs, muscle fasciculations or muzzle twitching, impaired vision, ataxia (incoordination), head pressing, aimless wandering, convulsions, inability to swallow, circling, hyper-excitability, or coma. It is important to note that not all horses with clinical signs of encephalitis have West Nile encephalitis. Other diseases, including rabies, botulism, equine protozoal myeloencephalitis (EPM), and other mosquito-borne viral encephalitic diseases of horses caused by Eastern,Western, and Venezuelan encephalitis viruses, can cause a horse to have symptoms similar to WNV. Only laboratory tests can confirm the diagnosis of West Nile encephalitis. Transmission WNV is spread by the bite of an infected mosquito. Mosquitoes become infected when they feed on infected birds. Horses cannot spread the disease to humans, but humans are susceptible to the disease if bitten by a carrier mosquito. There is no evidence that horses can transmit WNV to other horses, birds, or people. WNV may cross the placenta from mother to gestating foal. No transfusion related horse illnesses have been reported. However, human to human transmission via blood transfusions have been confirmed, so this method of transmission is possible in horses. Prevention There is no specific treatment for West Nile encephalitis in horses, supportive veterinary care is recommended. Currently, there are some vaccines available against West Nile Virus. It is imperative that horses are vaccinated according to the label on the vaccine. Horses vaccinated against Eastern, Western, and Venezuelan equine encephalitis are not protected against West Nile Virus. There are some easy steps you can take to prevent mosquitoes from affecting your horses: House horses indoors during peak periods of mosquito activity (dusk and dawn). Avoid turning on lights inside the stable during the evening and overnight (mosquitoes are attracted to lights). Place incandescent bulbs around the perimeter of the stable to attract mosquitoes away from the horses. Remove all birds, including chickens, that are in or close to the stable. Look around the property periodically for dead birds, such as crows. Any dead birds should be reported to the local health department. Use rubber gloves to handle dead birds or use an implement, such as a shovel. Eliminate areas of standing water on your property. Shallow standing water, used tires, manure storage pits, and drainage areas with stagnant water are ideal mosquito breeding places. Topical preparations containing mosquito repellents are available for horses. Read the product label before using and follow all instructions. Use fans on the horses while in the stable to help deter mosquitoes. Fog stable premises with a pesticide in the evening to reduce mosquitoes. Read directions carefully before using.

Read more less

 Pathogen test  The RT-qPCR test detects the genome (RNA) of West Nile Virus (WNV). Sample 5 mL - blood - K3 EDTA tube 5mL - liquor (CSF) - sterile tube Turnaround time 2 to 5 working days   What is West Nile Virus? West Nile virus (WNV) is a zoonotic mosquito-transmitted viral disease that cause can cause encephalitis or meningitis, infection of the brain and the spinal cord or their protective covering. Most horses bitten by carrier mosquitoes do not develop disease. Of those that do, approximately one-third develop severe disease and die or are so affected that euthanasia is required. The time between the bite of an infected mosquito and when clinical signs appear, ranges from three to 14 days. Clinical signs In horses that do become clinically ill, the virus infects the central nervous system and causes symptoms of encephalitis.  Clinical signs of encephalitis in horses include loss of appetite and depression, in addition to any combination of the following signs: fever, weakness or paralysis of hind limbs, muscle fasciculations or muzzle twitching, impaired vision, ataxia (incoordination), head pressing, aimless wandering, convulsions, inability to swallow, circling, hyper-excitability, or coma. It is important to note that not all horses with clinical signs of encephalitis have West Nile encephalitis. Other diseases, including rabies, botulism, equine protozoal myeloencephalitis (EPM), and other mosquito-borne viral encephalitic diseases of horses caused by Eastern,Western, and Venezuelan encephalitis viruses, can cause a horse to have symptoms similar to WNV. Only laboratory tests can confirm the diagnosis of West Nile encephalitis. Transmission WNV is spread by the bite of an infected mosquito. Mosquitoes become infected when they feed on infected birds. Horses cannot spread the disease to humans, but humans are susceptible to the disease if bitten by a carrier mosquito. There is no evidence that horses can transmit WNV to other horses, birds, or people. WNV may cross the placenta from mother to gestating foal. No transfusion related horse illnesses have been reported. However, human to human transmission via blood transfusions have been confirmed, so this method of transmission is possible in horses. Prevention There is no specific treatment for West Nile encephalitis in horses, supportive veterinary care is recommended. Currently, there are some vaccines available against West Nile Virus. It is imperative that horses are vaccinated according to the label on the vaccine. Horses vaccinated against Eastern, Western, and Venezuelan equine encephalitis are not protected against West Nile Virus. There are some easy steps you can take to prevent mosquitoes from affecting your horses: House horses indoors during peak periods of mosquito activity (dusk and dawn). Avoid turning on lights inside the stable during the evening and overnight (mosquitoes are attracted to lights). Place incandescent bulbs around the perimeter of the stable to attract mosquitoes away from the horses. Remove all birds, including chickens, that are in or close to the stable. Look around the property periodically for dead birds, such as crows. Any dead birds should be reported to the local health department. Use rubber gloves to handle dead birds or use an implement, such as a shovel. Eliminate areas of standing water on your property. Shallow standing water, used tires, manure storage pits, and drainage areas with stagnant water are ideal mosquito breeding places. Topical preparations containing mosquito repellents are available for horses. Read the product label before using and follow all instructions. Use fans on the horses while in the stable to help deter mosquitoes. Fog stable premises with a pesticide in the evening to reduce mosquitoes. Read directions carefully before using.

Read more less

 Pathogen test  The RT-qPCR test detects the genome (RNA) of Venezuelan Equine Encephalitis (VEE) virus. Sample 5 mL - blood - K3 EDTA tube 5mL - liquor (CSF) - sterile tube Turnaround time 2 to 5 working days   What is Venezuelan Equine Encephalitis? Venezuelan equine encephalitis virus is a mosquito borne viral pathogen that causes Venezuelan equine encephalitis or encephalomyelitis (VEE). VEE can affect all equine species, such as horses, donkeys and zebras.  After infection, equines may suddenly die or show progressive central nervous system disorders. Humans also can contract this disease.  Clinical signs WEE viruses affect the nervous system, so affected animals will have fever, depression and changes in behaviour. Signs of infection may also include impaired vision, muscle twitches, circling or head pressing behaviours, the inability to swallow, paralysis and convulsions. For VEE, death rates are variable but can be as high as 90%. Transmission The virus is transmitted to people and horses by bites from infected mosquitoes and birds during wet, summer months. Prevention Vaccines for EEE are available for horses. Measures to control mosquito populations and minimize mosquito exposure will decrease chances of infection.

Read more less

Pathogen test  The PCR test detects the genome (DNA) of the Rhodococcus equi, the pathogen responsible for Pneumonia. Sample 1 nasopharyngeal swab - dry swab  Turnaround time 2 to 5 working days   What is Pneumonia? Rhodococcus equi, a Gram‐positive facultative intracellular pathogen, is one of the most common causes of pneumonia in foals. Rhodococcus equi is a very well recognized pathogen in horses – it is a common cause of pneumonia in foalsbetween the ages of 1-6 months, and infection is also sometimes associated with other problems such as diarrheas, swollen joints and abscesses in other parts of the body. The infection can be very difficult to treat because the bacteria are able to live inside white blood cells, which helps protect them from the body’s immune system, and because they often cause abscesses to form, which are difficult for antibiotics to penetrate. Rhodococcus equi infection in foals has been studied extensively, but there’s still a lot we don’t know how the body defends itself against this organism.  Clinical signs The most common clinical manifestation of R. equi infections in foals is bronchopneumonia. Early clinical signs may only include a slight increase in respiratory rate and a mild fever. These subtle clinical signs are often either missed or ignored, allowing the condition to progress. As the disease progresses, clinical signs might include: • Decreased appetite • Lethargy • Fever • Tachypnea • Increased effort of breathing characterised by nostril flaring and increased abdominal effort Cough and bilateral nasal discharge are inconsistent finding. Because ultrasonographic screening for early detection has become routine practice at some farms endemic for pneumonia caused by R. equi (see below), the most frequently recognised form of R. equi infection at those farms is a subclinical form in which foals develop sonographic evidence of peripheral pulmonary consolidation or abscessation without necessarily manifesting clinical signs. Extrapulmonary manifestations of rhodococcal infections are common. Extrapulmonary disorders might occur concurrent with or independent of pneumonia. Abdominal lesions (see necropsy below) are present in approximately 50% of foals that die from infections caused by R. equi. However, the majority of foals with abdominal lesions do not show clinical signs of abdominal disease. Polysynovitis is present in approximately 25–30% of cases with clinical R. equi infections. In some foals, lameness might be the result of septic arthritis or, more commonly, osteomyelitis caused by R. equi. Uveitis is not uncommon and might result in blepharospasm, ocular discharge, and blindness in severely affected foals. Occasionally, R. equi can cause infections of a variety of other extrapulmonary tissues or organs. Although rare, clinical signs resulting from abdominal infection with R. equi might include fever, diarrhoea, weight loss or failure to thrive, and colic. Transmission Inhalation of virulent R. equi is the major route of pulmonary infection in foals. Ingestion of the organism is an important route of exposure, and likely of immunisation, but rarely leads to hematogenously acquired pneumonia unless a foal has multiple exposures to extremely large numbers of bacteria. Prevention In the absence of an effective vaccine, control and prevention of the disease at farms endemic for infections caused by R. equi have relied on passive immunisation and screening to promote earlier recognition of the disease. There are no isolation requirements for foals with this disease. Foals with pneumonia caused by R. equi shed higher numbers of R. equi in their feces than healthy foals or foals with subclinical lesions. Therefore, pneumonic foals might be an important source of contamination of the environment with virulent R. equi but there is no evidence that R. equi infection is contagious among foals and exposure to virulent R. equi is widespread in the environment of foals. Thus, currently no environmental management practice or biosecurity measure has sufficient evidence on which to base recommendations for controlling and preventing R. equi pneumonia. Zoonotic Potential R. equi can occasionally cause severe pulmonary or systemic infections in immunosuppressed people. Infections with R. equi are extremely rare and typically less severe in immunocompetent individuals.

Read more less

Pathogen test  This ELISA test detects antibodies to Equine Herpesvirus Type 1 (EHV-1) and to Equine Hespesvirus type 4 (EHV-4), the 2 agents responsible for Rhinopneumonitis. ELISA test with ab tritation. Sample 5 mL - blood - serum tube Turnaround time 2 to 5 working days   What is Rhinopneumonitis? Equine Rhinopneumonitis (ER) is a collective term for any one of several highly contagious, clinical disease entities of equids that may occur as a result of infection by either of two closely related herpesviruses, equid herpesvirus-1 and -4 (EHV-1 and EHV-4). Infection by either EHV-1 or EHV-4 is characterised by a primary respiratory tract disease of varying severity that is related to the age and immunological status of the infected animal. Infections by EHV-1 in particular are capable of progression beyond the respiratory mucosa to cause the more serious disease manifestations of abortion, perinatal foal death, or neurological dysfunction. Clinical signs The incubation period (period of time from exposure to development of first clinical signs) ranges from 2 to 10 days. Respiratory signs for EHV-1 and EHV-4 include high temperature that lasts for 1-7 days, coughing, depression, inappetence (going off feed), and nasal discharge. Abortion usually occurs between months 7 and 11 of gestation, about 2-12 weeks after infection. There is no evidence that the mare’s reproductive tract is damaged, and it does not affect her ability to conceive in later pregnancies. Signs of neurologic disease for EHV-1 and EHV-4 include mild incoordination, hindlimb paralysis, recumbency (lying down and being unable to get up), loss of bladder and tail function, and loss of sensation to the skin around the tail and hindlimb areas. Transmission Transmission occurs when infected and uninfected horses come in either direct (nose to nose contact) or indirect (through buckets, clothing, blankets that are contaminated) contact with nasal discharges of infected horses. The virus can travel via aerosol (in the air) for short distances. The virus may also be transmitted by contact with aborted foetuses, placental fluids, or placentas from infected horses. Also, following infection, horses may become latent carriers of EHV; virus may be reactivated after stress or high doses of corticosteroids. Upon detection of clinical signs suggestive of EHV, the veterinarian may choose to take a nasopharyngeal (nose and throat) swab of the horse, blood sample, or tissue from the aborted foetus for detection of virus in the tissues.  Paired blood samples for detection of antibody trites (levels) may also be taken. Treatment involves supportive care and treatment of the symptoms.  Non-steroidal anti-inflamatory drugs are commonly used to reduce fever, pain and inflammation. In uncomplicated cases, complete recovery will occur in a few weeks. Horses with neurological disease have variable recovery rates depending on severity of the clinical signs.  The prognosis is poor if the horse is recumbent (unable to stand) for an extended period of time. The horse should be rested until fully recovered and gradually returned to work. Prevention Transmission occurs when infected and uninfected horses come in either direct (nose to nose contact) or indirect (through buckets, clothing, blankets that are contaminated) contact with nasal discharges of infected horses. The virus can travel via aerosol (in the air) for short distances. The virus may also be transmitted by contact with aborted foetuses, placental fluids, or placentas from infected horses. Also, following infection, horses may become latent carriers of EHV; virus may be reactivated after stress or high doses of corticosteroids. Upon detection of clinical signs suggestive of EHV, the veterinarian may choose to take a nasopharyngeal (nose and throat) swab of the horse, blood sample, or tissue from the aborted foetus for detection of virus in the tissues.  Paired blood samples for detection of antibody triers (levels) may also be taken. Treatment involves supportive care and treatment of the symptoms.  Non-steroidal anti-inflamatory drugs are commonly used to reduce fever, pain and inflammation. In uncomplicated cases, complete recovery will occur in a few weeks. Horses with neurological disease have variable recovery rates depending on severity of the clinical signs.  The prognosis is poor if the horse is recumbent (unable to stand) for an extended period of time. The horse should be rested until fully recovered and gradually returned to work.

Read more less

Pathogen test  The PCR test detects the genome (DNA) of  Trypanosoma evansis, the pathogen responsible for Surra. Sample 5 mL - blood - K3 EDTA tube Turnaround time 2 to 5 working days   What is Surra? Trypanosoma evansi causes a trypanosomosis known as ‘surra’.This parasite, which has been reported in domestic and wild mammals, can cause considerable economic losses. The trypanosomes reproduce in the blood of the vertebrate host, and the trypomastigote forms are transmitted mechanically by bloodsucking insects from infected to uninfected animals. Surra is the most commonly reported disease in some continents due to the favorable environment for insects. In recent years, several outbreaks or isolated cases have been reported in certain European countries, an atypical region for the disease. Clinical signs The general clinical signs of evansi infections: pyrexia directly associated with parasitaemia together with a progressive anaemia, loss of condition and lassitude are not sufficiently pathognomonic for diagnosis. Recurrent episodes of fever and parasitaemia occur during the course of the disease. Oedema, particularly of the lower parts of the body, urticarial plaques and petechial haemorrhages of the serous membranes are sometimes observed in horses. Abortions have been reported in buffalos and camels. Nervous signs are common in horses. The disease causes immunodeficiencies that may be of high impact when interfering with other diseases or vaccination campaigns. Trypanosomiasis caused by evansi can be clinically confused with other diseases, including equine protozoal myeloencephalitis in the chronic stages. Where surra is suspected, it is important to rule out other causes of equine neurologic disease. Transmission Surra is a non-contagious disease, transmitted only mechanically by several different genera of haematophagous flies. The efficiency of vector transmission is dependent on high intensity of fly challenge, the presence of high numbers of the parasite in the blood of horses, and the close herding of animals that maintains short intervals between successive feeds. The infectivity of a fly is highest within minutes of feeding and drops quickly thereafter, with the loss of ability to reinfect when feeding intervals exceed 8 hours. Wild carnivores and dogs can be infected by ingestion of meat from parasitaemic animals. In Central and South America, The vampire bat can also act as a vector. The disease can be reproduced experimentally by blood inoculation. Prevention There is no vaccine against trypanosomiasis. Therefore, conventional disease control measures are based on the use of curative and preventive drugs to combat the parasite and interventions to control fly populations. Control and eradication of surra from an area is usually depends upon the detection and treatment of infected animals. Protection of susceptible animals from biting flies by smoking and using flies repellants.  

Read more less

Pathogen test  The PCR test detects the genome (DNA) of Leptospira interrogans, the pathogen responsible for Leptospirosis. Sample 5 mL - blood - K3 EDTA tube Turnaround time 2 to 5 working days   What is Leptospirosis? Leptospirosis is a bacterial infection that can result in abortion, chronic uveitis, and/or kidney failure in horses and can also infect humans,  pets, and other livestock. Clinical signs Some horses with leptospirosis appear completely normal. Others might show generalised flulike signs. More serious cases present as mid- to late-term abortions, chronic uveitis (an eye disease that’s the leading cause of blindness in horses), or renal (kidney) disease. Foals from infected dams born alive might suffer from malnutrition, jaundice, pulmonary haemorrhage, or severe respiratory distress—all of which can be fatal. If you can start treatment immediately—before the infection damages eyes or organs—horses with leptospirosis generally have good prognoses. And, you can protect the rest of your herd (and yourself and other animals) by isolating infected horses, treating your other horses with preventive antibiotics or, depending on the species involved, vaccinating. Transmission Leptospirosis is caused by spiral-shaped bacteria called spirochetes, specifically leptospires, that enter an animal’s body through mucous membranes in areas such as the nostrils, lips, eyes, trachea, stomach, genitals, or anus, or through broken skin. In addition to mammals (horses, humans, squirrels, voles, and scores more), amphibians (such as frogs) and reptiles (including snakes) can become infected with and pass on the disease-causing bacteria. In horses, foals can become infected in utero. Leptospires most commonly live and multiply in the renal tubules (where urine collects in the kidneys) of reservoir or carrier hosts such as rodents, wildlife, and domestic animals. In addition to spreading in urine, leptospires can be transmitted via infected blood or tissues or by infected urine splashing into eyes or the mouth. When an infected reservoir host urinates, the leptospires pass out of its body in the urine and contaminate the surrounding ground and/or water. In fact, exposure to standing water, such as ponds or floodwaters, is the biggest risk factor for leptospirosis infection. Occasionally, says Carter, animals (horses, livestock, etc.) inhale leptospires, ingest them with feed, or transmit them via wounds or bites. Prevention Humans who work with animals or have frequent exposure to them are at a higher risk of contracting leptospirosis. The leptospirosis is now classified as a re-emerging disease. Worldwide, the incidence is increasing, which may be due to increased episodes of flooding. According to the CDC, most human leptospirosis symptoms are flulike and include: high fever; headache; chills; muscle aches; vomiting; jaundice (yellow skin and eyes); red eyes; and abdominal pain. Treatment is fairly straightforward. The emphasis now is on rapid diagnostics so the disease can be diagnosed quickly and treatment started. Prevention is characterised differently for different risk groups. For occupational exposure (for example, veterinarians and animal caretakers that might be exposed to the disease), appropriate PPE (personal protective equipment, including protective gloves and glasses) is important. For recreational exposure, preventing contact of mucous membranes and broken skin with contaminated water is advised.

Read more less

Breeding stallion profile includes 3 accredited tests:  Coggins test for Equine Infectious Anemia (EIA), AGID (accredited test) Equine Viral Arteritis (EVA) test by RT-qPCR Taylorella equigenitalis (CEMO),test by qPCR Sample requirements Test Sample type Collection Volume (mL) Coggins test Serum/ Whole blood Serum tubes 1 EVA PCR EDTA blood K3 EDTA tube  1 CEMO PCR 3 genital swabs (foreskin, urethra, glans fossa) Synthetic swab without media N.A Turnaround time 2 to 5  working days

Read more less