Pathogen test  The RT-qPCR test detects the genome (RNA) of Eastern Equine Encephalitis (EEE) virus. Sample 5 mL - blood - K3 EDTA tube 5mL - liquor (CSF) - sterile tube Turnaround time 2 to 5 working days   What is Eastern Equine Encephalitis? Eastern equine encephalitis (EEE), also referred to as triple E, is a viral illness transmitted to humans and horses by the bite of an infected mosquito. The insects pick up the virus from biting an infected bird.  Clinical signs EEE 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. Horses infected with EEE often do not survive 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 RT-cPCR test detects the genome (RNA) of Borna virus. Sample 5 mL - blood - K3 EDTA tube and/or 5mL - liquor (CSF) - sterile tube Turnaround time 2 to 5 working days   What is Borna virus? Borna disease is caused by one of just a few bornaviruses that occur in a wide variety of warm-blooded animals. This virus attacks the nerve cells within the brain itself causing dangerous levels of inflammation. This virus is frequently lethal once symptoms begin presenting themselves, however, antibodies specific to the virus have frequently been found in the blood of animals who are clinically unaffected. This suggests that some horses and other animals may become infected and remain asymptomatic. Borna disease is a rare viral infection that causes swelling of the nerve cells in the brain, leading to unusual behaviours and seizures, and is frequently fatal. Clinical signs The clinical signs of Borna disease usually occur in horses two to three months after the initial exposure, although there have been reports of incubation periods exceeding six months.  Blindness Chewing motions  Colic symptoms Collapse Head-pressing Hypersensitivity Lack of coordination Leaning  Loss of appetite Muscular tremors Paralysis Rapid and involuntary eye movement Sawhorse stance Severe depression Weakness  Yawning Transmission The virus that causes Borna disease in horses is closely related to the bornavirus that affects birds and is believed to be the cause of  Proventricular Dilatation Disease (PDD) in birds. The transmission methods for these viruses are not well understood, but direct contact with either saliva or nasal secretions are believed to be a common vector. Borna disease emerges more frequently on farms with poor rodent control and hygiene, and instances seem to peak during the months between March to June. Prevention Experimental vaccines for immunopathology have had mixed results. In some cases, the immunopathology of the infection caused some vaccines to exacerbate the disease, but recent evidence suggests the possibility of effective inoculation. Although some preliminary research indicates success with protective vaccination of mice, at this writing, no pre-exposure vaccine has been developed for use with horses. Treatment The antiviral drug amantadine sulfate may be a potential treatment for Borna disease virus. It has been demonstrated in vitro to inhibit wild-type BDV replication and spread of infection. As with prevention of the disease, much research is needed to develop successful treatment strategies because, currently, the fatality rate ranges between 60 to 95 percent for horses, and animals that survive often remain neurologically impaired permanently.

Read more less

Pathogen test  The RT-qPCR test detects the genome (RNA) of Equine Encephalosis virus (EEV). Sample 5 mL - blood - K3 EDTA tube 5mL - liquor (CSF) - sterile tube Turnaround time 2 to 5 working days   What is Equine Encephalosis Virus? Equine Encephalosis (EE) is an arthropod borne febrile non contagious disease of equines. The causative virus, Equine encephalosis virus (EEV), has several serotypes (EEV1-EEV7) and the virus has been reported from southern Africa including Kenya, Botswana and South Africa. Clinical signs The name equine encephalosis is misleading as the disease is not primarily a neurological disorder. Although the majority of infections result only in mild clinical signs, in more severe cases clinical signs include a short period (typically two to five days) of fluctuating fever, accompanied by varying degrees of inappetence.  Elevated heart and respiratory rates are also common, and occasionally as a result of nasal congestion, a red-brown discolouration of the mucous membranes may be observed.   Although rare, more severe clinical signs may occur including facial swelling (lips and eyelids), respiratory distress, and petechial haemorrhages of the conjunctivae. Pregnant mares may also abort during their first 5 months of gestation. Neurological signs are atypical, but in certain cases hindquarter ataxia, convulsions, hyper-excitability, and depression have been reported. The mortality rate is normally low, accounting for only 5% of infected animals. Transmission EEV is transmitted by Culicoides spp. All Equidae may be infected, but only horses exhibit symptoms. Serological evidences in endemic countries indicate that zebras and donkeys might maintain EEV circulation; however, their true role in the transmission is still unknown Prevention In the vast majority of cases (c. 90%) the animal will recover without further complications, and a course of anti-inflammatories or appetite stimulants may be administered. Occasionally, antibiotics are prescribed in order to prevent the appearance of secondary infections. Some equids show no clinical signs at all but are biliary carriers. Although in this instance the animal is not in immediate danger, it must be treated in order to prevent the reemergence of the virus were the immune system to be challenged by another disease simultaneously. Due to the absence of an effective vaccine, vector control remains one of the primary methods of prevention. Control of the midges is usually only instigated for domesticated stabled horses, and includes precautionary measures such as the limited use of lights at night, as well as the use of fly repellents and fans.

Read more less