Paramyxoviridae - RP+PPR - Distemper - Hunta - Avian Metapneumo - NDV Flashcards
Paramyxoviruses are bad immunogens
F-good immunity low resistance
Paramyxoviruses can survive just a few days in the environment
T
Paramyxoviruses cannot cause strong cytopathogenic effect in cell cultures
F-intracytoplasmic inclusion bodies + syncytia formation
Paramyxoviruses are good immunogens
T
Parainfluenza viruses generally cause infection in the respiratory tract
T
Parainfluenza viruses are highly host specific
F
There are no vaccines on the market against canine parainfluenza 2 virus
F
Canine parainfluenza virus 2 frequently causes encephalitis in old dogs
F- distemper old dog encephalitis
Feline morbillivirus infection may be associated with tubulo-interstitial nephritis in cats
T
Parainfluenza virus 2 infection is frequent in the aetiology of kennel cough
F
Rinderpest virus can infect pigs
T
Rinderpest virus can infect cattle
T
The morbidity of rinderpest can reach 100%
T
Rinderpest virus replicated only in the lungs
F
Rinderpest virus is resistant; it can survive in the environment for several weeks
F
Rinderpest virus causes viraemia
T
Extended interstitial pneumonia is a frequent post mortem lesion of rinderpest
F
Vesicle formation on the mucous membranes is typical in the case of rinderpest
F
Diarrhoea with blood is a typical sign of rinderpest
T
Enteral clinical signs are not typical in Rinderpest
F
Attenuated viruses are widely used for the prevention of Rinderpest in Africa
F
The clinical signs of rinderpest and malignant catarrhal fever are similar
T
Erosions in the oral and nasal cavity are clinical signs of rinderpest
T
Rinderpest occurs in large number in Africa
F
Earth is free from Rinderpest
T
Wild mammals are asymptomatic carriers of Rinderpest
F
It is mandatory to vaccinate cattle against Rinderpest
F
Nowadays Rinderpest virus is used as heterologous vaccine against the PPR virus
F
Rinderpest virus survives for years in nature
F
Only cattle are susceptible to Rinderpest infections
F
Rinderpest is carried by animals for a long time
F
Rinderpest commonly occurs in Africa and in Latin America
F
Rinderpest virus is carried by animals for several years
F
Cattle are infected with rinderpest virus mainly per os
T
Rinderpest virus can survive in the environment for several months
F
Peste des pest ruminants virus is resistant, it can survive in the environment for several months
F
Attenuated vaccines can be used for the prevention of peste des petit ruminants
T
Peste des petits ruminants is a widespread disease in Europe
F
Generally direct contact is needed to the transmission of peste des petits ruminants virus
T
Peste des petits ruminants virus replicates in the epithelium of the mucous membranes
T
Peste des petit ruminants is a frequently diagnosed disease in America
F
Necrosis of the oral epithelium is a typical sign of peste des petits ruminants
T
Peste de petits ruminants is a zoonotic disease
F
Nasal discharge is a typical clinical sign of peste des petit ruminants
T
Erosive lesions in the oral cavity are frequent signs of Peste des petits ruminants
T
The Peste des petits ruminants are endemic in North- and South America
F
Peste des petites ruminants virus can cause haemorrhagic pneumonia
T
Peste des petites ruminants virus can cause haemorrhagic or necrotic enteritis
T
Over 50% of the animals may die during a Peste des petits ruminants outbreak
T
The world is free of Peste des petites ruminants
F
Canine distemper virus can produce a generalised infection
T
The pathogenesis of distemper is influenced by the immune response of the host
T
Distemper can be prevented only with the attenuated but not inactivated vaccines
F
Distemper is zoonosis
F
Distemper virus is shed in respiratory discharge and urine
T
Canine distemper has six serotypes
F
Neurological signs are not typical signs of canine distemper
F
Clinical signs of the nervous system generally do not appear always in the case of canine distemper
F
Canine distemper virus has one serotype with virulence variants
T
Salivation and chewing movements cannot be clinical signs of canine distemper
F
Distemper is a highly contagious disease of dogs and some other carnivores
T
Canine distemper virus causes immunosuppression
T
The dog is the only species which is susceptible to canine distemper virus
F
Three to six month old dogs are most susceptible to canine distemper virus
T
Enamel hypoplasia can be a sign of distemper
T
Hyperkeratosis of the nose and footpads are clinical signs of canine distemper
T
Ataxia and paralysis are the main clinical signs of distemper in cats
F
Distemper virus infects only dogs
F
Distemper can cause abortion
T
Dogs infected with Canine distemper virus usually become life-long carriers and shedders
F
Clinical manifestation of the Canine distemper is mainly seen in 3-4 months-old dogs
T
The outcome of Canine distemper virus infection is very much influenced by the immune response of the dog in utero
T
Distemper virus infects only species belonging to Canidae
F
Distemper virus spreads mainly by droplet infection
T
Distemper virus can cause fetopathy
T
Distemper virus can infect species belonging to the Felidae
T
Distemper virus spreads mainly by arthropod vectors
F
Distemper is a notifiable disease
F
The dominant clinical sign of Canine distemper is diarrhoea
F
Distemper occurs in lions and dolphins
T
Distemper can cause encephalitis in dogs
T
Surviving distemper does not result in protection
F
Distemper can predispose dogs to secondary bacterial infections
T
Vaccinations against distemper at half years of age
F
Distemper causes de-myelinization
T
Distemper through conjunctival smear can be diagnosed by immunofluorescence technique
T
Canine distemper virus often causes cytoplasmic inclusion bodies in the urinary bladder epithelial cells
T
Hendra and Nipah viruses cause zoonotic disease
T
Hendra virus can infect mainly swine and human
F
Hendra virus can cause respiratory and neurological signs
T
Horse is susceptible to Hendra virus infection
T
Hendra virus can cause enteritis in the small intestine
F
Natural reservoir of Hendra virus is flying fox (bat)
T
Hendra-viruses can cause encephalitis in horses and in humans
T
Hendra virus is found only in Australia
T
Diseases caused by Nipah virus occur worldwide
F
Nipah virus can cause ataxia, spasms, and paralysis in pigs
T
Natural reservoir of Nipah virus is fruit bats
T
Wild birds may be reservoir hosts of the Nipah-viruses
F
Nipah virus is transmitted mainly by arthropod vectors
F
Bovine RS virus can cause severe pneumonia in 6 months to 2 years old calves
T
Bovine respiratory syncytial virus replicates in the alveolar epithelium
T
Worldwide occurrence is characteristic for Bovine respiratory syncytial virus infection
T
Bovine respiratory syncytial virus causes viraemia
F
Bovine respiratory syncytial virus can predispose to secondary bacterial infections
T
Subcutaneous emphysema is a common clinical sign of the disease caused by bovine respiratory syncytial virus
T
Disease caused by bovine respiratory syncytial virus cannot be prevented with vaccination
F
Bovine respiratory syncytial virus is spreading fast within a herd
T
Bovine respiratory syncytial virus can cause life threatening disease in calves
T
Bovine respiratory syncytial virus causes low morbidity and high mortality
F
Bovine respiratory syntitial virus is caused by pneumovirus and we use inactivated vaccines for prevention
T
Bovine parainfluenza virus causes central nervous clinical signs in calves
F
Bovine parainfluenza-3 virus can result formation of hyalin membrane in the alveoli
T
Disease caused by bovine parainfluenza-3 virus is very rare
F
Bovine parainfluenza-3 virus can cause interstitial pneumonia in calves
T
Bovine parainfluenza-3 virus infection is usually endemic in cattle farms
T
Bovine parainffuenza-3 virus generally causes aerosol infection
T
Fever, coughing, nasal discharge are common clinical signs of bovine PI-3 infection
T
Disease caused by bovine parainfluenza 3 virus can be diagnosed using paired sera
T
Bovine parainfluenza virus 3 is frequently endemic in cattle farms
T
Parainfluenza 3 virus of cattle spreads mainly by arthropod vectors
F
Symptoms of parainfluenza 3 virus infection of cattle are similar to RS virus infection
T
Parainfluenza-3 virus of cattle can cause thromboembolic meningoencephalitis
F
Parainfluenza-3 virus infection of calves is frequently followed by secondary bacterial infection.
T
Parainfluenza-3 viruses causes disease primarily in young calves
T
A common route of infection with parainfluenza-3 is through inhalation
T
Parainfluenza-3 virus can predispose cattle to pneumonia caused by bacteria
T
The main clinical sign of a parainfluenza-3 infection is diarrhoea
F
Parainfluenza-3 virus aids in secondary bacterial contaminations
T
Velogenic strains of Newcastle disease virus (NDV) cause an acute form of the disease
T
Velogenic strains of Newcastle disease virus (NDV) cause an acute septicemia
F
Live mesogenic strains of NDV are used for vaccinations in Europe
t (not sure though)
Day-old chicken can be vaccinated with apathogenic strains to prevent ND
T
Hen flocks are vaccinated with lentogenic/apathogenic strains to induce maternal immunity
T
Mesogenic strains of NDV are used for vaccination in some countries
T
Apathogenic trains of NDV are used for vaccination
T
Velogenic-viscerotropic NDV strains can cause disease with high mortality
T
ND is caused by virulent strains of the APMV-1 serogroup
T
Members of every APMV serogroup can cause Newcastle disease
F
It is possible to determine the virulence of AMPV-1 strains by sequencing
T
A usual 1st symptom of neurotropic-vNDV infection is diarrhea
F
An acute, nervous form of Newcastle disease can frequently be seen in ducks
F
An acute, nervous form of Newcastle disease can frequently be seen in dogs
F
Newcastle disease is caused by virulent strains of serogroup APMV-1
T
An intracerebral pathogenicity index higher than 0.7 is a criterion of ND
T
The sequence of Newcastle disease virus F0 splice is a significant factor in its virulence
T
Newcastle Disease ND viruses cause dwarfism in embryonated chicken eggs
F
There are no vaccines for the prevention of Newcastle disease
F
Only faeces of the infected birds contains Newcastle disease virus
F
Diarrhoea is a clinical sign of Newcastle disease
T
Virulence of Newcastle disease virus can be characterised with the chicken embryo survival index
T
Newcastle disease is caused by avian paramyxovirus 1
T
Newcastle disease virus can infect only chicken
F
Worldwide distribution is common for Newcastle disease virus
T
Inhalation is an important way of transmission of Newcastle disease virus
T
Per os infection is an important way of transmission of Newcastle disease virus
T
Eurasia is free from Newcastle disease
F
Humans are resistant against Newcastle disease virus
F
Lentogenic Newcastle disease virus cause severe fatal infection
F
Lentogenic NDV may cause disease in young turkey
T (not sure though)
Germinative infection is an important way of transmission of Newcastle disease virus
F
Lentogenic Newcastle disease virus can cause high morbidity and mortality in poultry flocks
F
Lentogenic Newcastle disease virus is more virulent than velogenic
F
Newcastle disease virus causes viraemia
T
Newcastle disease virus damages blood vessels
T
The clinical signs of Newcastle disease and avian influenza are similar
T
Virulence of Newcastle disease virus can be characterised with the intracerebral pathogenicity index
T
There are different virulence variants of Newcastle disease virus
T
Only inactivated vaccines may be used for the prevention of Newcastle disease
F
Velogenic Newcastle disease virus is more virulent than mesogenic
T
Tremor, spasms and torcicollis are clinical signs of Newcastle disease
T
Newcastle disease, splice site significant
T
Vaccination against Newcastle disease is used all over world
T
The vaccine for NDV is a lentogenic strain
T
Lentogenic stain is used in vaccines for new castles disease
T
Newcastle disease virus velogen viscerotop and neurotrop causes neurological signs
T
Wild birds may be reservoir hosts of the Newcastle disease virus
T
The virulence of Newcastle disease strains can be determined by sequence analysis of certain genes
T
Newcastle disease virus cannot survive long in the environment
F
Newcastle disease virus is typically vectored by ticks
F
Velogenic strains of Newcastle disease virus always cause encephalitis
T
Lentogenic strains of Newcastle disease virus can be used for vaccine production
T
Velogenic viscerotrop strains of Newcastle disease virus can be used for vaccine production
F
Avian paramyxoviruses (APMV) belong into 9 serogroups
T
Lentogenic strains of Newcastle disease virus do not cause clinical signs
F
Wild boars may transmit Newcastle disease virus
F
Any member of the avian paramyxovirus serogroups may cause Newcastle disease
F
Avian paramyxovirus-1 usually causes central nervous disease in pigeons
T
Newcastle disease virus can be taken up by inhalation and per os
T
CNS clinical signs are frequently seen in chicken in the case of Newcastle disease
T
Newcastle disease could easily be differentiated from avian influenza
F
Using vaccines of velogenic strains of Newcastle disease virus good protection can be reached
F
Drop of egg production is a clinical sign of avian metapneumovirus infection
T
Avian metapneumovirus infection occurs only in America
F
Avian metapneumovirus infection spreads very fast within the flock
T
Disease caused by avian metapneumovirus is more severe in turkeys than hens
T
In avian metapneumovirus infection the egg production drops/decreases
T
Swollen head syndrome (SHS) caused by avian metapneumonia virus
T
Wild birds may be reservoir hosts of avian metapneumoviruses
T
Avian metapneumoviruses can cause respiratory signs and egg production problems
T
Turkey rhinotracheitis virus causes disease in turkeys and chickens
T
Turkey rhinotracheitis is most frequent at 4-9 weeks of age
F-(all ages are susceptible)
