Flavi

Question 1

Serological cross reactions frequently occur between related flaviviruses

Answer 1

T

Question 2

Many of the flaviviruses are zoonotic agents

Answer 2

T

Question 3

Viruses of the Pestivirus genus are more resistant in the environment than the members of the Flavivirus genus

Answer 3

T

Question 4

Viruses of the Pestivirus genus are more resistant in the environment than the other members of the Flavivirus genus

Answer 4

T

Question 5

Yellow fever virus and Dengue virus are human pathogens

Answer 5

T

Question 6

Louping ill is most frequently seen in sheep

Answer 6

T

Question 7

Differential diagnoses of Louping-Ill: Listeria, Rabies, Scrapie

Answer 7

T

Question 8

The tick borne encephalitis is endemic in central Europe

Answer 8

T

Question 9

The tick borne encephalitis virus can be transmitted via consumption of raw milk

Answer 9

T

Question 10

The consumption of raw goat milk is a possible source of human tick borne encephalitis

Answer 10

T

Question 11

Biphasic fever is a characteristic of TBE

Answer 11

T

Question 12

Consumption of contaminated, raw goat milk is a possible source of human tick-borne encephalitis virus infection

Answer 12

T

Question 13

Inactivated vaccines are used for the prevention of humans from tick-borne encephalitis

Answer 13

T

Question 14

Inactivated vaccines are available against tick-borne encephalitis for humans

Answer 14

T

Question 15

Tick-borne encephalomyelitis mainly occurs clinically in humans

Answer 15

T

Question 16

Tick-borne encephalomyelitis occurs throughout Europe and Asia

Answer 16

T

Question 17

Tick-borne encephalomyelitis exists as natural foci infections

Answer 17

T

Question 18

Occasionally tick-borne encephalomyelitis virus can be transmitted to humans via consuming raw milk

Answer 18

T

Question 19

Tick-borne encephalomyelitis occurs seasonally

Answer 19

T

Question 20

For humans inactivated tick-borne encephalomyelitis virus vaccines are also available

Answer 20

T

Question 21

Migratory birds play a role in the transmission of West Nile virus

Answer 21

T

Question 22

Mammals are mostly accidental hosts of West Nile Fever virus

Answer 22

T

Question 23

West Nile Fever is a notifiable disease

Answer 23

T

Question 24

In West Nile epidemics wild bird mortality is usually observed before horse and human cases can be detected

Answer 24

T

Question 25

To prevent West Nile Fever, vaccine is available for horses

Answer 25

T

Question 26

The West Nile virus may cause encephalitis in humans and in horses

Answer 26

T

Question 27

Horses and humans do not play a significant role in the transmission of West Nile virus

Answer 27

T

Question 28

The West Nile fever epidemics occur usually at the end of summer and during Autumn

Answer 28

T

Question 29

Wild birds are the natural hosts of West Nile virus

Answer 29

T

Question 30

Vaccines are available for the prevention of horses from WNV infections

Answer 30

T

Question 31

Different genetic lineages of West Nile virus are circulating in Europe

Answer 31

T

Question 32

Various strains of WNV, belonging to different genetic lineages are circulating in Europe

Answer 32

T

Question 33

There is no vaccine available for humans against WNV infection yet

Answer 33

T

Question 34

Mosquitoes are the principle vectors of the WNV

Answer 34

T

Question 35

The sero-diagnostics of WNV is complicated by cross-reactions with related flaviviruses

Answer 35

T

Question 36

Certain predatory bird species are particularly sensitive to WNV infections

Answer 36

T

Question 37

The use of repellents may reduce the risk of infection with WNV

Answer 37

T

Question 38

The weather influences the emergence of West Nile Virus outbreaks, through its effect on mosquito propagation dynamics

Answer 38

T

Question 39

Laboratory diagnosis should confirm the aetiology of West Nile encephalitis

Answer 39

T

Question 40

The most important maintaining hosts of West Nile fever virus are water birds

Answer 40

T

Question 41

Clinical signs of West Nile fever are most frequently seen in birds, horses and humans

Answer 41

T

Question 42

Neurological signs develop only in a small percentage of the diseased animals

Answer 42

T

Question 43

West Nile fever occurs worldwide

Answer 43

T

Question 44

Vectors of West Nile fever virus are different mosquito species

Answer 44

T

Question 45

The host range of West Nile virus is very wide

Answer 45

T

Question 46

The sero-diagnostics of West Nile virus is complicated by cross-reactions with related flaviviruses

Answer 46

T

Question 47

The Japanese encephalitis virus causes abortion in swine

Answer 47

T

Question 48

The yellow fever virus causes liver damages

Answer 48

T

Question 49

The zika virus causes fever, rash and conjunctivitis in humans

Answer 49

T

Question 50

BVDV can be frequently detected in the background of respiratory diseases

Answer 50

T

Question 51

In utero infection with non-cytopathic BVDV can cause seropositivity of the newborn calf

Answer 51

T

Question 52

In utero infection with non cytopathic BVDV can cause immunotolerance

Answer 52

T

Question 53

Two serotypes of the BVD virus are known so far, serotype 2 is more virulent

Answer 53

T

Question 54

Pigs infected with BVDV turn seropositive to classical swine fever

Answer 54

T

Question 55

Persistently infected cattle can maintain BVDV in a farm

Answer 55

T

Question 56

Non-cytopathic BVD virus strain can mutate and become cytopathic

Answer 56

T

Question 57

The BVD virus can infect pigs also

Answer 57

T

Question 58

Cytopathic strains of the Bovine Viral Diarrhoea virus (BVDV) can cause abortion

Answer 58

T

Question 59

Cattle which are immune tolerant to BVD virus may develop mucosal disease

Answer 59

T

Question 60

In sheep BVDV causes symptoms similar to border disease

Answer 60

T

Question 61

Mucosal disease can develop in cattle persistently infected with BVDV

Answer 61

T

Question 62

Non cytopathic strains of Bovine viral diarrhoea virus (BVDV) can cause immunosuppression

Answer 62

T

Question 63

Non cytopathic strains of Bovine viral diarrhoea virus (BVDV) can cause immunosuppression

Answer 63

T

Question 64

BVDV can be transmitted by semen

Answer 64

T

Question 65

In mucosal disease sharp edged, usually round or oval ulcers can be observed on the oral mucosa

Answer 65

T

Question 66

In mucosal disease haemorrhages can be observed under the serosal surfaces and in the kidney cortex

Answer 66

T

Question 67

Bloody diarrhoea is a clinical sign of the mucosal disease

Answer 67

T

Question 68

BVD and mucosal disease are caused by the same viral species

Answer 68

T

Question 69

Eradication programmes against the bovine viral diarrhoea virus are usually based on the selection of immunotolerant animals

Answer 69

T

Question 70

Eradication of BVD virus is based on the removal of immunotolerant animals

Answer 70

T

Question 71

Two genotypes of the BVDV are known

Answer 71

T

Question 72

BVDV forms one serotype, but there are significant antigenic differences between the strains

Answer 72

T

Question 73

Persistently infected animals play the major role in the maintenance and spread of BVDV

Answer 73

T

Question 74

BVDV infection may cause immunosuppression

Answer 74

T

Question 75

The BVD virus typically damages endothelial-, epithelial- and lymphatic tissues

Answer 75

T

Question 76

BVD clinically is mostly seen in cattle from 6 to 24 months of age

Answer 76

T

Question 77

BVD virus can cause severe damage to fetuses in pregnant cows

Answer 77

T

Question 78

BVD infection of pregnant cows can result in delivery of immunotolerant persistently infected calves

Answer 78

T

Question 79

Bulls can shed BVD virus for long time in semen, without showing any clinical sign

Answer 79

T

Question 80

Both attenuated live and inactivated vaccines are used in eradication of BVD

Answer 80

T

Question 81

BVDV is practically sensitive to disinfectants

Answer 81

T

Question 82

Cytopathic BVDV strains cause mucosal disease in immune-tolerant calves

Answer 82

T

Question 83

Goats can be infected with border disease

Answer 83

T

Question 84

In utero border disease virus infection may cause immunotolerance

Answer 84

T

Question 85

Border disease of sheep is mainly characterized by foetal damages

Answer 85

T

Question 86

Border disease appears as foetal damage in pregnant ewes

Answer 86

T

Question 87

Border disease occurs in Hungary

Answer 87

T

Question 88

Border disease causes abortion in ewes

Answer 88

T

Question 89

Border disease of sheep can be controlled by screening for carriers

Answer 89

T

Question 90

Haemorrhagic enteritis is a characteristic pathological lesion of Classical swine fever T

Classical Swine Fever is frequently complicated with bacterial infections. T

Classical swine fever virus can be transmitted by raw pork products T

Classical swine fever virus can retain its infectivity for 6 months in frozen meat T

The CSFV may survive in frozen meat for months T

During necropsy enlarged bloody lymph nodes can be seen in Classical swine fever cases T

Because of endothelial damage Classical swine fever results in haemorrhages T

In acute Classical swine fever, at the beginning obstipation, later diarrhoea can be observed T

Classical swine fever targets the bone marrow stem cells T

Erysipelas and Porcine circovirus 2 infections may cause clinical signs and pathology lesions similar to CSF T

Weakness of the hind legs and ataxia are clinical signs of Classical Swine Fever T

Ischaemic infarcts at the edges of the spleen are postmortem lesions of subacute Classical Swine Fever T

The boutons in the intestines are characteristic lesions in subacute Classical Swine Fever T

Kidney haemorrhage is a characteristic lesion of Classical Swine Fever T

Hemorrhages are the most typical lesions of acute CSF T

During necropsy of acute Classical swine fever cases, haemorrhages can be seen in the gastric mucosa T

Among Classical Swine Fever clinical signs CNS and eye problems can be observed

Answer 90

T

Question 91

Classical swine fever infection during the first half of pregnancy results in the birth of immunotolerant piglets

Answer 91

T

Question 92

CSF infection during the first of half of pregnancy can lead to abortion

Answer 92

T

Question 93

The shedding of CSFV begins 1-2 days after the appearance of clinical signs T

The domestic swine population of most European countries are free from CSF T

Classical swine fever causes oronasal infection T

Classical swine fever can be transmitted by mating T

CSF can cause transplacental infections T

CSFV may case reproductive disorders T

Classical swine fever targets lymphatic tissues T

CSF infections result in thrombocytopenia T

Clinical signs of Classical Swine fever are mainly seen in 6-12 week old piglets in vaccinated herds T

Classical swine fever infection during the first half of pregnancy can lead to abortion T

Wild boars play the main role in the maintenance of CSF virus in endemic areas T

Wild boar may play a role in the maintenance and spread of CSFV

Answer 93

T

Question 94

In acute Classical swine fever skin haemorrhages and bloody nasal discharge can be observed

Answer 94

T

Question 95

Normal sized spleen can be observed in uncomplicated cases of subacute Classical swine fever

Answer 95

T

Question 96

Classical swine fever infection results in immunosuppression

Answer 96

T

Question 97

Central nervous signs might be seen in classical swine fever

Answer 97

T

Question 98

Porcine circovirus 2 may cause lesions similar to Classical Swine Fever

Answer 98

T

Question 99

Low virulence strains of CSFV may cause reproductive problems

Answer 99

T

Question 100

CSFV may damage the lymphatic tissues and blood vessel endothelial cells

Answer 100

T

Question 101

Swine can shed CSFV in the incubation period

Answer 101

T

Question 102

Skin suffusions and haemorrhages are signs of Classical Swine Fever

Answer 102

T

Question 103

Contaminated pork meat can play a role in the transmission of CSFV

Answer 103

T

Question 104

Attenuated vaccines are developed for immunization of swine against CSFV

Answer 104

T

Question 105

The Classical Swine Fever may appear in a milder form in wild boar than in domestic swine

Answer 105

T

Question 106

Acute classical swine fever can cause haemorrhagic pneumonia

Answer 106

T

Question 107

Classical swine fever virus can cause immunotolerance in swine

Answer 107

T

Question 108

Classical swine fever virus causes lympho-histiocytic encephalitis in pigs

Answer 108

T

Question 109

Low virulence strains of CSFV may lead to asymptomatic infection

Answer 109

T

Question 110

CSF is spread via infected pigs

Answer 110

T

Question 111

Sows infected by CSF will have immunotolerant piglets

Answer 111

T

Question 112

CSF can hardly be distinguished from African swine fever

Answer 112

T

Question 113

Incubation of CSF is 8-22 days

Answer 113

T

Question 114

CSF was first written about in USA

Answer 114

T

Question 115

CSF virus has good resistance

Answer 115

T

Question 116

CSF is frequently complicated with bacterial infections

Answer 116

T

Question 117

The clinical signs of CSF and ASF are similar

Answer 117

T

Question 118

Serological cross reactions my occur between BVD virus and CSFV

Answer 118

T

Question 119

Only domestic swine and wild boars are susceptible

Answer 119

T

Question 120

Fever, anorexia haemorrhages in the skin and weakness of the hind legs are the most important sign

Answer 120

T

Question 121

The CSFV typically damages endothelial- and lymphatic tissue

Answer 121

T

Question 122

Classical swine fever is a notifiable disease in Europe

Answer 122

T

Question 123

In subacute CSF we can observe signs of pneumonia during necropsies

Answer 123

T