Avian polyoma virus

Herpesviruses

Pacheco disease, caused by Psittacid herpesvirus 1 (PDV), is an acute fulminating hepatitis resulting in up to 100% mortality in new world parrots. Survivors may eventually develop cloacal papillomas or hepatomas. Several oil-adjuvanted, inactivated vaccines have been developed against this disease. However, none appear to be commercially available at present. The oil emulsion adjuvanted vaccines may cause injection site reactions including swelling, muscle necrosis, or granuloma formation. Cockatoos appear to be especially sensitive to these types of reactions.

West nile virus (WNV)

Since its introduction to North America in 1999, West Nile Virus (WNV) has spread across both American continents causing neurological disease in humans, horses, and many species of birds. WNV is maintained in the wild in a transmission cycle between birds and mosquitoes. Corvids are highly susceptible to WNV infection. Other susceptible North American birds include some endangered or threatened species. As in humans, juvenile and aged birds may be more susceptible to disease. Although a clear threat, no avian-specific WNV vaccine is available. Therefore valuable susceptible species, especially captive cranes, raptors, penguins, flamingos, and corvids may be vaccinated using equine vaccines.

The formalin inactivated, adjuvanted whole virus vaccine, West Nile Innovator, has been used extensively in birds, especially in emergency situations where it is considered essential to protect large valuable populations. For example, this vaccine has been tested in Sandhill cranes (Antigone canadensis). Other species that have received this vaccine include penguins, flamingos, and prairie chickens. All were vaccinated intramuscularly at least twice and no adverse effects were reported. WNV vaccination has also been undertaken in California condors (Gymnogyps californianus), both in captivity and in the wild.

Avian influenza

Influenza vaccines have been used in species other than poultry. For example, birds have been vaccinated against avian influenza virus using an inactivated H5N9 vaccine. Significant species variation in response was noted. Vaccination may provide protection from highly pathogenic avian influenza outbreaks in zoos and should be regarded as an important adjunct procedure in addition to increased biosecurity and monitoring.

Newcastle disease

Newcastle disease virus (NDV) vaccines are used in commercial ostrich flocks. Ostriches respond to vaccination with LaSota strain NDV vaccines. NDV causes neurologic disease and diarrhea in pigeons. As a result, racing pigeons are commonly vaccinated using the LaSota strain of NDV. Adult birds are given the chicken vaccine by eye drop seven weeks before breeding. Annual revaccination is recommended. Vaccination may be mandatory for racing pigeons in many countries. A single vaccination gave protection lasting one year.

Poxviruses

Avipoxvirus infections occur in many domestic, pet, and wild bird species. These viruses are spread either by mosquito bites or via aerosol. Many different vaccines are available to control fowlpox infections in poultry. A chicken fowlpox vaccine has been reported to protect zebra finches. A live pigeon pox vaccine has been tested in falcons. There is a commercially available live attenuated canarypox vaccine (Poximune C, Ceva Biomune) available for use in canaries. It is administered through the wing web and an obvious reaction occurs at the site 7 to 10 days later. Birds should be revaccinated at 6 to 12 month intervals. Birds should also be revaccinated four weeks before laying or the beginning of the mosquito season.

Mink vaccines

Mink are intensively farmed for their fur. As a result of high stocking density, infectious diseases are a constant threat. It is important to remember that the pelt is the most valuable product from these animals. Injection site lesions thus present a special problem. Vaccine site infections with Arcanobacterium phocae are also an emerging issue. This bacterium causes a severe necropurulent dermatitis at the injection site in the hind leg and is believed to be the cause of a skin disease, fur animal epidemic necrotic pyoderma, in mink, foxes, and raccoons.

Botulism

The use of cheap, low-quality food has resulted in serious food poisoning episodes, especially botulism from rotting meat among mink. Cl. botulinum type C grows and produces its toxin when contaminated meat is stored at temperatures over 15°C and anaerobic growth can occur. When this meat is consumed, mink die within 24 to 72 hours with paralysis and dyspnea. Losses may reach 100%. Cl. botulinum type C toxoid is available for use in mink. It may be given to kits as early as six to seven weeks of age. Protection develops in three weeks. Annual revaccination is encouraged.

Canine distemper

Mink are highly susceptible to canine distemper. Attenuated live CDV vaccines produce prolonged dependable immunity. Inactivated vaccines have given erratic results in mink. Historically, such vaccines were made by formalizing infected mink tissues. On occasion however, the formaldehyde failed to inactivate contaminating Aleutian disease parvovirus. As a result, outbreaks of Aleutian disease caused serious losses. Almost all young mink in North America receive a single dose of distemper vaccine during the summer after they reach 10 weeks of age and maternal antibodies have waned. Revaccination may not be necessary because of herd immunity and the fact that mink are generally pelted around three years of age. Mink distemper vaccine is commonly given as a 3- or 4-way vaccine with pseudomonas, enteritis, and botulism.

Mink virus enteritis

Hemorrhagic pneumonia

Pseudomonas aeruginosa causes hemorrhagic pneumonia in mink. It is associated with the stress of the warm days in the fall. The mink show lethargy and anorexia progressing to respiratory disease and death. Successful vaccination requires immunization with all the pathogenic serotypes. Pseudomonas bacterins should contain serotypes 5, 6, 7, and 9. Like the other vaccines, it should be administered after maternal antibodies have waned. Adult mink should be revaccinated annually.

Rabbit pasteurellosis

A killed bacterin against Pasteurella multocida for the prevention of rabbit “snuffles” is available in North America.

Rabbit hemorrhagic disease

Rabbit hemorrhagic disease is a highly contagious disease of European rabbits caused by small, single-stranded RNA caliciviruses. There are two such viruses: classical rabbit hemorrhagic disease virus-1 (RHDV-1) and a variant virus, (RHDV-2 or RHDVb). RHDVs cause a disease characterized by convulsions, paralysis, and respiratory signs, including depression and inappetence. Morbidity and mortality may reach up to 90% within 36 hours. In captivity, transmission is by the oral-fecal route. In the wild it is likely spread by mosquitos and fleas.

In countries where RHD is endemic, the disease is controlled by good biosecurity and variant-specific vaccination. If the virus type is unknown then vaccination should be directed against both variants because cross-protection between RHDV-1 and -2 vaccines is variable and unpredictable. Both monovalent and bivalent inactivated adjuvanted vaccines against RHDV are available. Most are directed against RHDV2 but a bivalent product is preferable.

The first injection is given subcutaneously between four weeks and two months depending upon the product. It is usual to vaccinate only breeding stock and they should be revaccinated at six months. Immunity develops in 7 to 10 days and persists for over a year. They do not protect rabbits against myxomatosis

Myxomatosis

This disease is caused by the myxoma virus (MYXV), a member of the Poxviridae family. Its natural hosts are found in South America and California. Myxomatosis is characterized by the development of large skin lesions accompanied by immunosuppression or respiratory disease. Mortality varies from 20% to 100% in European rabbits. Two types of modified live vaccine have been developed. One has been prepared from the Shope fibroma virus (SFV), an avirulent Leporipoxvirus. The others are prepared from attenuated strains of MYXV. Both may be administered subcutaneously or intradermally. The SFV vaccines are somewhat less immunogenic and are no longer used in the meat rabbit industry. The live attenuated MYXV vaccines are more immunogenic and protection lasts for four to six months. They should be followed by annual revaccination. However, these vaccines are immunosuppressive. A recombinant live MYXV vectored vaccine expressing the rabbit hemorrhagic disease virus capsid protein and thus protecting against both of these important diseases is available in Europe.

Rabies

Wild caught carnivores have a high risk of transmitting rabies and should not be kept as pets. Indeed, this is illegal in many areas. Do not assume that a baby animal is not infected. Foxes, raccoons, and skunks may acquire infection at an early age and may incubate the disease for more than a year. In the United States, wild mammals account for over 90% of human rabies exposures. If vaccination of pet wildlife is necessary then only killed vaccines should be used.

More importantly, wild animals must be vaccinated if rabies is to be controlled. This requires the oral administration of vaccines. It needs an economical and effective vaccine, a vaccine that is environmentally stable, and a vaccine that works extremely well by the oral route. Several different vaccines have been used in oral rabies vaccination programs. Most have used a live, attenuated rabies virus. More than 13 million doses of the attenuated rabies strain, ERA-BHK21 were distributed across Eastern Ontario to control the disease. In Europe, more than 650 million doses were distributed between 1978 and 2014 using attenuated SAD (Street-Alabama-Dufferin) Bern, its derivative strain SAD B19 or SAG2 (SAD Avirulent Gif). More recently, wildlife vaccinators have switched to recombinant vaccines using either vaccinia or adenovirus vectors.