GENERAL PART

Question 1

Veterinarians can cause iatrogenic infections.

Answer 1

T

Question 2

Arthropod borne infections are direct infections

Answer 2

F

Question 3

Arthopod born infections are indirect infections

Answer 3

T

Question 4

Arthropods can be involved in indirect infections.

Answer 4

T

Question 5

Venereal infections is a direct infection

Answer 5

T

Question 6

In the case of iatrogenic infections the infective agents are transmitted by the
veterinarian

Answer 6

T

Question 7

Drinking water cannot transmit infective agents since it is hypoosmotic

Answer 7

F

Question 8

In case of direct infection tissues of the infected animal are contacted with tissues of the
host

Answer 8

T

Question 9

In the case of aerogenic infection the agents are transmitted with air.

Answer 9

T

Question 10

Aerogenic infection is a form of direct infection.

Answer 10

F

Question 11

In the case of aerogenic infection the agent is transmitted by the air

Answer 11

T

Question 12

Infective agents cannot survive in the soil, so soil cannot be a source of infection.

Answer 12

F

Question 13

In the case of iatrogenic infection the agent is transmitted by humans.

Answer 13

T

Question 14

Direct infection happens when infected animals pass the infection with water.

Answer 14

F

Question 15

If the arthropod is a true vector, if it brings the pathogen into a susceptible animal.

Answer 15

F

Question 16

The arthropod is a true vector, if the pathogen also replicates in the susceptible animal.

Answer 16

T

Question 17

The arthropod is a true vector, if it propagates the pathogen.

Answer 17

T

Question 18

The arthropod is a true vector, if it can take the pathogen to a further distance

Answer 18

F

Question 19

Infection cannot happen through water since bacteria and viruses are inactivated in
water.

Answer 19

F

Question 20

Meat is never involved in transmission of infections since fermentation of meat kills
agents.

Answer 20

F

Question 21

Some infective agents are transmitted with eggs.

Answer 21

T

Question 22

Germinative infection is more frequent in birds than in mammals.

Answer 22

T

Question 23

Germinative infection is very frequent in mammals

Answer 23

F

Question 24

Germinative infection is seen in mammals

Answer 24

T

Question 25

Mammals can infect their offspring through milk

Answer 25

T

Question 26

New-born animals cannot be infected from the milk thanks to the colostral antibodies.

Answer 26

F

Question 27

Intrauterine infection happens if the foetus is infected during pregnancy from the dam

Answer 27

T

Question 28

Vertical infection does not occur in mammals

Answer 28

F

Question 29

Horizontally infections happen only in birds

Answer 29

F

Question 30

Germinative infection is frequent in mammals, it will result in malformation of the
foetuses.

Answer 30

F

Question 31

Galactogen infection cannot happen when the animals receive colostrum, since the
antibodies in the colostrum prevent it.

Answer 31

F

Question 32

In the case of horizontal infection animals in the same group infect each other.

Answer 32

T

Question 33

Intra uterine infection can occur in pregnant animals.

Answer 33

T

Question 34

Germinative infection can happen in birds.

Answer 34

T

Question 35

Galactogen infection is a form of horizontal infections.

Answer 35

F

Question 36

If the dam infects newborn animals, we speak about horizontal infection.

Answer 36

F

Question 37

Germinative infection can occur mainly in mammals.

Answer 37

F

Question 38

In the case of galactogen infection the agent is transmitted by milk.

Answer 38

T

Question 39

In the case of horizontal infection the agent is spreading between animals of about the
same age.

Answer 39

T

Question 40

Horizontal infection does not occur in mammals

Answer 40

F

Question 41

Vertical infection does not occur in mammals.

Answer 41

F

Question 42

Germinative infection does not occur in mammals.

Answer 42

F

Question 43

Galactogen infection does not occur in mammals

Answer 43

F

Question 44

In germinative infection, the placenta is infected by the mother during pregnancy.

Answer 44

F

Question 45

Germinative infection is a rare form of horizontal infection.

Answer 45

F

Question 46

In germinative infection, the newborn is infected through the milk.

Answer 46

F

Question 47

Zoonotic agents can cause disease in animals and humans

Answer 47

T

Question 48

In the case of cyclozoonoses arthropods are responsible for maintaining the infections

Answer 48

F

Question 49

If agents are passed from animals to humans, we speak about zoonosis.

Answer 49

T

Question 50

If humans infect animals we speak about metazoonoses.

Answer 50

F

Question 51

Cyclozoonoses require an arthropod for transmission

Answer 51

T

Question 52

In the case of zoonotic diseases animals and humans can infect each other.

Answer 52

T

Question 53

In the case of saprozoonoses animals and humans are infected from the same source.

Answer 53

T

Question 54

In case of secondary infection, a bacterium infects an individual, which is already infected with a pathogen

Answer 54

T

Question 55

In case of secondary infection, a new pathogen infects an already cured animal.

Answer 55

F

Question 56

In case of secondary infection, two pathogens infect the host simultaneously.

Answer 56

F

Question 57

In case of secondary infection, one of the agents is always a virus.

Answer 57

F

Question 58

Facultative pathogenic agents are helped by predisposing factors

Answer 58

T

Question 59

Stenoxen agents have a wide host range.

Answer 59

F

Question 60

Euryxen agents have a wide host range

Answer 60

T

Question 61

An euryxen agent can infect several host species

Answer 61

T

Question 62

There is no minimum number of agents necessary to infection, because they can replicate in the host

Answer 62

F

Question 63

Mutations generally result decrease of the virulence.

Answer 63

T

Question 64

Immunogenicity of the different agents is different

Answer 64

T

Question 65

There is a minimum number of each agent that is necessary to infect animals

Answer 65

T

Question 66

A minimum amount of bacteria or viruses is needed to a successful infection

Answer 66

T

Question 67

Virulence of an agent can be characterized with its LD50 value

Answer 67

T

Question 68

Pathogenicity means the ability of the agent to cause disease

Answer 68

T

Question 69

Virulence means the level of pathogenicity.

Answer 69

T

Question 70

The amount of the agent does not influence the outcome of the infection, since it can
replicate in the host.

Answer 70

F

Question 71

In the case of optimal way of infection the least amount of agent can cause disease.

Answer 71

T

Question 72

The virulence of the agents is connected to virulence factors.

Answer 72

T

Question 73

Virulence is a stable characteristic of an agent.

Answer 73

F

Question 74

the way of the infection (entrance of the agents) can influence its outcome.

Answer 74

T

Question 75

Virulence of a bacterium or virus can be changed spontaneously

Answer 75

T

Question 76

In case of a secondary infection the agent complicates a primary infection.

Answer 76

T

Question 77

The virulence factors help the agents in causing disease.

Answer 77

T

Question 78

Virulence variants can occur within a bacterium or virus species.

Answer 78

T

Question 79

Species specific resistance can be overcome by increasing the number of agents.

Answer 79

F

Question 80

Within a pathogenic species no avirulent strains can occur.

Answer 80

F

Question 81

Foetuses can have active immune response.

Answer 81

T

Question 82

Newborn animals have local immune response

Answer 82

T

Question 83

Foetuses do not have immune reactions

Answer 83

F

Question 84

the skin, mucous membranes and mucous are parts of the non specific resistance system of the host.

Answer 84

T

Question 85

The normal microflora of the gut is essential for animals; they cannot live without it

Answer 85

F

Question 86

Foetuses have no immune response; they appear only in 2-4 week old animals

Answer 86

F

Question 87

The age of the animals does not influence their susceptibility to a certain agent

Answer 87

F

Question 88

Susceptibility to a disease can be influenced by age.

Answer 88

T

Question 89

Certain medicines and agents can decrease the protection of the hosts

Answer 89

T

Question 90

Species specific resistance means that certain agents cannot infect certain hosts

Answer 90

T

Question 91

Species related resistance means that certain agents cannot cause infection in resistant
host species.

Answer 91

T

Question 92

Certain animal species are resistant against certain agents.

Answer 92

T

Question 93

Chicken embryos are able to produce an immune response

Answer 93

T

Question 94

Cellular immune response is very important in the case of viral diseases.

Answer 94

T

Question 95

Gastric juice can protect the host from infections.

Answer 95

T

Question 96

From 2nd trimester of pregnancy, the foetus produces an immune response against any antigen.

Answer 96

F

Question 97

There is no immune response in the foetus, only from 4 weeks after birth.

Answer 97

F

Question 98

Unfavourable environmental effects can predispose animals to diseases caused by facultative pathogenic agents.

Answer 98

T

Question 99

Nutrition of the animals can influence the appearance of infectious diseases

Answer 99

T

Question 100

Environmental effects can influence the survival of the agents in the environment

Answer 100

T

Question 101

Mycotoxins can suppress the activity of the immune system

Answer 101

T

Question 102

Overcrowding can help the spreading of several infectious diseases.

Answer 102

T

Question 103

Deserts can inhibit the spreading of several infectious diseases.

Answer 103

T

Question 104

Viruses causing generalised diseases generally replicate at the place of entry and in the regional lymph nodes.

Answer 104

T

Question 105

The lesions are at the place of entry of the agent in the case of local infections.

Answer 105

T

Question 106

-

Answer 106

T

Question 107

Lesions can be seen in different organs in the case of generalised diseases

Answer 107

T

Question 108

Intra uterine infection can result immune tolerance in the case of some diseases

Answer 108

T

Question 109

Intra uterine infection can result embryonic death in the case of some diseases

Answer 109

T

Question 110

Intra uterine infection does not occur since the placenta protects the foetus

Answer 110

F

Question 111

Fetuses cannot be infested since the placenta completely isolates them

Answer 111

F

Question 112

The incubation time is the time between the appearance of the clinical signs and death
of the animal

Answer 112

F

Question 113

The incubation time is the time between infection and the appearance of clinical signs.

Answer 113

T

Question 114

-

Answer 114

T

Question 115

Some infective agents have immunosuppressive effect

Answer 115

T

Question 116

Some infective agents can cause malformation of fetuses.

Answer 116

T

Question 117

Subacute diseases last one or 2 days.

Answer 117

F

Question 118

Intra uterine infections does not occur in mammals since the agents cannot penetrate
the placenta.

Answer 118

F

Question 119

In the case of local infections the lesions can be seen at the site of entry.

Answer 119

T

Question 120

In the case of generalised infections the agent is generally spreading with blood.

Answer 120

T

Question 121

In the case of generalised infections the placenta prevents the infection of the foetus.

Answer 121

F

Question 122

Some agents can spread along the nerves.

Answer 122

T

Question 123

The agent does not replicate in dead end hosts

Answer 123

F

Question 124

Dead end hosts do not show clinical signs, they die without signs

Answer 124

F

Question 125

In the case of latent infection the agents are continuously shed

Answer 125

F

Question 126

Latent infection happens when the genome of the agent is integrated in the genome of
the host

Answer 126

T

Question 127

-

Answer 127

F

Question 128

In latent infection, there is no virus shedding.

Answer 128

T

Question 129

Abortion is the main clinical sign of abortive infections

Answer 129

F

Question 130

The animals do not carry the agent after recovery from an infectious disease because the immune system eliminates it.

Answer 130

F

Question 131

Tolerated infections result in high level of immune reaction.

Answer 131

F

Question 132

Infection before self-recognition of the immune system can result tolerated infections

Answer 132

T

Question 133

Infected animals have a high level of antibodies in the case of tolerated infections

Answer 133

F

Question 134

The agent is not shed in the case of inapparent infections.

Answer 134

F

Question 135

Dead end hosts do not shed the agent.

Answer 135

T

Question 136

Asymptomatic infections can become manifest

Answer 136

T

Question 137

Formation of immune complexes can be a consequence of persistent viral infection

Answer 137

T

Question 138

When the clinical signs disappear, shedding the agent is finished

Answer 138

F

Question 139

In the case of an abortive infection no clinical signs will be seen

Answer 139

T

Question 140

In the case of latent infection only mild clinical signs will be seen

Answer 140

F

Question 141

Animals with tolerated infection shed the agent

Answer 141

T

Question 142

Only animals showing clinical signs can shed infective agents.

Answer 142

F

Question 143

In case of inapparent infections no clinical signs can be seen

Answer 143

T

Question 144

Latent infection is common in the case of Gram-positive bacteria.

Answer 144

F

Question 145

In the case of inapperent infections seropositivity can be seen.

Answer 145

T

Question 146

Inapparent infections cannot be detected in laboratory examinations.

Answer 146

F

Question 147

In case of abortive infection, the animal always aborts.

Answer 147

F

Question 148

In case of subclinical infection, the animals can shed the agent

Answer 148

T

Question 149

Tolerated infection can be demonstrated only by serology.

Answer 149

F

Question 150

Abortive infection can be demonstrated only by serology.

Answer 150

T

Question 151

During a tolerated infection the animals are seropositive

Answer 151

F

Question 152

In the case of latent infection no clinical signs can be seen.

Answer 152

T

Question 153

Asymptomatic infections cannot be manifest.

Answer 153

F

Question 154

Animals do not carry the agents after recovery from an infectious disease.

Answer 154

F

Question 155

Mortality shows the percentage of dead animals compared to the size of the herd.

Answer 155

T

Question 156

Mortality show what proportion of the diseased animals die.

Answer 156

F

Question 157

Lethality shows the percentage of dead animals compared to the number of diseased
ones.

Answer 157

T

Question 158

Lethality shows the number of died animals compared to the total number of the herd

Answer 158

F

Question 159

Prevalence shows the number of diseased animals compared to the total number of the
herd

Answer 159

F

Question 160

Mortality shows the proportion of dead animals compared to the number of diseases
ones.

Answer 160

F

Question 161

Monitoring is routine collection of data on a disease

Answer 161

T

Question 162

Monitoring is routine collection of data on a disease

Answer 162

T

Question 163

Pandemic diseases are fast spreading ones; they are fast transmitted between continents

Answer 163

T

Question 164

Pandemic diseases are spreading fast around the Earth.

Answer 164

T

Question 165

Pandemic disease occurs in large areas, continents.

Answer 165

T

Question 166

Endemic diseases occur in a small, limited area including a farm, some farms or a village.

Answer 166

T

Question 167

Epidemic diseases are fast spreading; they are fast transmitted between continents

Answer 167

F

Question 168

Pandemic diseases have no tendency to spread.

Answer 168

F

Question 169

Epidemic diseases are spreading in a larger geographical area e.g. in several countries.

Answer 169

T

Question 170

Contagious diseases are spreading from one animal to the other.

Answer 170

T

Question 171

Lethality shows the ratio of dead animals and the total stock.

Answer 171

F

Question 172

Hemagglutination inhibition test is used for the detection of antigens of certain agents.

Answer 172

F

Question 173

Genome of agents is detected with PCR

Answer 173

T

Question 174

Antigens of certain agents can be detected using PCR

Answer 174

F

Question 175

Surface antigens of certain agents are detected with ELIZA or PCR

Answer 175

F

Question 176

Infective agents can be detected 2-3days after infection using serological tests

Answer 176

F

Question 177

Virus Neutralisation test is used for the detection of antigens of the virus

Answer 177

F

Question 178

Serological tests are used for the detection of antibodies

Answer 178

T

Question 179

MATSA is used in laboratory diagnosis

Answer 179

T

Question 180

MATSA is a form of disease

Answer 180

F

Question 181

Microscopic detection of agents is not used in diagnostic work anymore

Answer 181

F

Question 182

If an animal is infected laboratory tests always detect the agent.

Answer 182

F

Question 183

The phase of the pathogenicity can influence the sensitivity of the laboratory tests.

Answer 183

F

Question 184

Using serological tests, we detect the antibodies produced against the agent.

Answer 184

T

Question 185

Using virus neutralization test we detect the antibodies produced against the agent.

Answer 185

T

Question 186

Polymerase chain reaction is used for the detection of antigens of the agent.

Answer 186

F

Question 187

Post mortem lesions help in setting up a preliminary diagnosis.

Answer 187

T

Question 188

Epidemiological data help in setting up a preliminary diagnosis.

Answer 188

T

Question 189

Antibacterial treatment is forbidden in the EU in the case of viral diseases.

Answer 189

F

Question 190

Individual and mass treatment can be combined in the case of some infectious diseases.

Answer 190

T

Question 191

Hyperimmune serum can be used for aetiological treatment of certain diseases

Answer 191

T

Question 192

No aetiological treatment is available in the case of viral diseases

Answer 192

F

Question 193

Mass treatment using antibiotics is not allowed in the EU.

Answer 193

F

Question 194

Antibiotics can be used for the aetiological treatment in case of bacterial disease

Answer 194

T

Question 195

All bacterial agents can be eradicated with antibiotic treatment

Answer 195

F

Question 196

Antibacterial treatment is used in the case of viral diseases in order to prevent bacterial
complications

Answer 196

T

Question 197

Antibiotics are used for the treatment of some viral diseases to prevent secondary
infections

Answer 197

T

Question 198

Antibiotics are generally used to the aetiological treatment of diseases caused by
bacteria.

Answer 198

T

Question 199

Use of antibiotics in the case of diseases caused by viruses is not allowed because of
antibiotic resistance.

Answer 199

F

Question 200

Treatment of certain infectious diseases is prohibited.

Answer 200

T

Question 201

Symptomatic treatment is recommended because it can support healing of the diseased
animals.

Answer 201

T

Question 202

In case of viral diseases, no antibiotics are given.

Answer 202

F

Question 203

Antibiotics may be used only until the disappearance of the clinical signs.

Answer 203

F

Question 204

Only diseased animals have to be treated with antibiotics to prevent resistance.

Answer 204

F

Question 205

There is no anti-viral therapy.

Answer 205

F

Question 206

Aetiological treatment with anti-bacterial is done, in the case of bacterial diseases.

Answer 206

T

Question 207

Using hyperimmune sera is usually not justifiable.

Answer 207

T

Question 208

In case of import of animals into a farm, animals in the quarantine must be tested for infections

Answer 208

T

Question 209

In case of import of animals into a farm, animals in the quarantine must only be observed, there is nothing to do with them if they do not show clinical signs

Answer 209

F

Question 210

Only eggs from the same flock are allowed to be hatches in one hatching machine

Answer 210

T

Question 211

Eggs of different species can be hatched together; they cannot infect each other thanks
to the different hatching time.

Answer 211

F

Question 212

All-in-all-out is an important principle in prevention of infectious diseases.

Answer 212

T

Question 213

Isolation of age groups is an important way of prevention of infectious diseases

Answer 213

T

Question 214

Isolated keeping of different age groups of the same species cannot prevent spreading
of infectious diseases since all animals of the same species are susceptible to the same
agents.

Answer 214

F

Question 215

Day-old birds cannot be infected in the hatchery because they are protected by yolk
Immunity.

Answer 215

F

Question 216

The immunoglobulin content of the colostrum is continuously decreasing after farrowing

Answer 216

T

Question 217

Maternal antibodies can inhibit the active immune response.

Answer 217

T

Question 218

There is no maternal protection in birds.

Answer 218

F

Question 219

Maternal protection occurs only in mammals.

Answer 219

F

Question 220

Colostrum is the main way of maternal protection in the case of animals with
epitheliochorial placenta.

Answer 220

T

Question 221

The half-life of the heterologous hyperimmune serum is about 7-10 days.

Answer 221

T

Question 222

The half-life of the heterologous hyperimmune serum is about 2-3 weeks

Answer 222

F

Question 223

Animals having epitheliochorial placenta receive maternal antibodies only through the
placenta

Answer 223

F

Question 224

Animals having epitheliochorial placenta receive maternal antibodies only through the
colostrum

Answer 224

T

Question 225

Enteral lymphocytes of the dam can be transferred to the offspring in colostrum

Answer 225

T

Question 226

The immunoglobulin content of the colostrum is influenced by the nutrition of the dam

Answer 226

T

Question 227

The protein and antibody content of the colostrum is stable in the first week after
calving

Answer 227

F

Question 228

Absorption of maternal antibodies from the colostrum in the first three days is not
changing

Answer 228

F

Question 229

Colostrum is not important in protection of calves since the antibodies can go through
the placenta

Answer 229

F

Question 230

Colostrum is the only way of receiving maternal protection in calves.

Answer 230

T

Question 231

The immunoglobulin content of the colostrum is not changed in the first week after
birth.

Answer 231

F

Question 232

Calves can absorb maternal antibodies for a week after birth

Answer 232

F

Question 233

Maternal antibodies can inhibit certain immunization.

Answer 233

T

Question 234

New-born animals cannot be infected from the milk thanks to the colostral antibodies.

Answer 234

F

Question 235

The colostrum contains maternal lymphocytes.

Answer 235

T

Question 236

The protein content of the colostrum remains high for the first two weeks after giving
birth.

Answer 236

F

Question 237

The immune globulin content of the colostrum remains high for the first week after
giving birth

Answer 237

F

Question 238

The enteral absorption of immune globulins is decreasing after birth.

Answer 238

T

Question 239

Maternal antibodies can decrease the efficacy of vaccination.

Answer 239

T

Question 240

The immune globulin concentration of the colostrum decreases sharply after birth.

Answer 240

T

Question 241

The enteral absorption of immunoglobulins is about the same for a week after birth.

Answer 241

F

Question 242

The maternal antibodies can decrease the immune response against vaccines.

Answer 242

T

Question 243

Enteral lymphocytes can get from the dam to the newborn animal with colostrum.

Answer 243

T

Question 244

Animals with epitheliochorial placenta have maternal immunity only from colostrum.

Answer 244

T

Question 245

The endotheliochorial placenta prevents to transport of immunoglobulins to the foetus

Answer 245

F

Question 246

Homologous hyperimmune serum can provide about a year-long protection.

Answer 246

F

Question 247

Strains used in marker vaccines can be differentiated from the field strains.

Answer 247

T

Question 248

Avirulent strains can be used in live vaccines

Answer 248

T

Question 249

The health state of the vaccinated animals can influence the efficacy of the vaccination

Answer 249

T

Question 250

Adjuvants in vaccines increase the shelf life of vaccines

Answer 250

F

Question 251

Inactivated vaccines contain inactivated bacterial toxins

Answer 251

T

Question 252

The method of vaccination has no effect on the efficacy of the vaccination

Answer 252

F

Question 253

Adjuvants in vaccines increase the efficacy of vaccines.

Answer 253

T

Question 254

Attenuated strains can be used in live vaccines.

Answer 254

T

Question 255

Deletion vaccines can only be used as live vaccines.

Answer 255

F

Question 256

In the case of marker vaccines, the field strains and the vaccine strains can be
differentiated

Answer 256

T

Question 257

Inactivated vaccines can contain the whole agents or their components

Answer 257

T

Question 258

The colostral immunoglobulins have no effect on the vaccination of the new born
animals

Answer 258

F

Question 259

DIVA principle can only be used if the animals are vaccinated with deletion vaccines

Answer 259

F

Question 260

According to DIVA principle, infected and vaccinated animals can be differentiated.

Answer 260

T

Question 261

Subunit vaccines contain only antigens of the agents

Answer 261

T

Question 262

Certain parts of the genome are missing from deletion vaccine strains

Answer 262

T

Question 263

Some genes are missing from the strains included in deletion vaccines

Answer 263

T

Question 264

For safety reasons only inactivated vaccines are used

Answer 264

F

Question 265

Live vaccines can contain strains with lower virulence.

Answer 265

T

Question 266

Live vaccines always contain avirulent agents.

Answer 266

F

Question 267

Live vaccines can contain attenuated strains.

Answer 267

T

Question 268

Live vaccines are less effective than the inactivated ones.

Answer 268

F

Question 269

Live vaccines are dangerous, they are not on the market any more.

Answer 269

F

Question 270

Live vaccines are not used in Europe any more.

Answer 270

F

Question 271

Live vaccines do not provide good immunity.

Answer 271

F

Question 272

Marker vaccines are used to mark the site of vaccination.

Answer 272

F

Question 273

It is not allowed to use inactivated deletion vaccines in the EU.

Answer 273

F

Question 274

Live vaccines contain attenuated or avirulent agents.

Answer 274

T

Question 275

The agent in a vaccine can influence the level of the immune response of vaccinated
animals.

Answer 275

T

Question 276

If deletion vaccines are used, vaccinated and infected animals can be differentiated.

Answer 276

T

Question 277

Using marker vaccines, vaccinated and infected animals can be differentiated.

Answer 277

T

Question 278

Use of marker vaccines can be combined with “test and remove” eradication.

Answer 278

T

Question 279

Marker vaccines are marked with dyes

Answer 279

F

Question 280

The immune response produced by an attenuated vaccine is low.

Answer 280

F

Question 281

Some attenuated vaccine strains can be immunosuppressive.

Answer 281

T

Question 282

Attenuated vaccines induced a quick immune response.

Answer 282

T

Question 283

Vaccines containing attenuated strains are not used anymore

Answer 283

F

Question 284

The amount of antigen in the vaccine has no effect on the efficacy of the vaccine.

Answer 284

F

Question 285

Eradication with selection method is not done nowadays

Answer 285

F

Question 286

Newborn animals must be kept isolated when eradication with generation shift is used

Answer 286

T

Question 287

Eradication with generation shift cannot be used if the level of infection is high in the
herd

Answer 287

F

Question 288

Eradication using generation shift method is mainly used in Poultry

Answer 288

F

Question 289

Implantation of washed embryos from a non infected dam into infected one is a way of
eradication

Answer 289

F

Question 290

Implantation of washed embryos from a infected dam into non-infected one is a way of
eradication

Answer 290

T

Question 291

Eradication using the generation shift method is mainly used in pig herds

Answer 291

F

Question 292

In the case of generation shift the infected animals must be slaughtered at the beginning
of the eradication procedure.

Answer 292

F

Question 293

Eradication using selection method can be combined with vaccination

Answer 293

T

Question 294

In the case of generation shift the young animals must be isolated from the dam at the
age of 1-3 days

Answer 294

T

Question 295

Eradication using the selection method is generally implemented in case of low level of
infection

Answer 295

T

Question 296

When eradication is made with selection method, the infected animals are removed
from the herd

Answer 296

T

Question 297

Selection, generation shift and herd replacement can be used for eradication

Answer 297

T

Question 298

Eradication using generation shift can be used in cattle herds

Answer 298

T

Question 299

Caesarean section is the only way of birth when eradication is carried out using the SPF
method

Answer 299

F

Question 300

Certain diseases can be eradicated with generation shift

Answer 300

T

Question 301

Herd replacement is the cheapest way of eradication of a disease

Answer 301

F

Question 302

Selection (test and slaughter) is a method of eradiation of a disease

Answer 302

T

Question 303

Selection method can be used for eradication of infectious diseases, when we remove
infected animals.

Answer 303

T

Question 304

In the case of generation shift, newborn animals are separated from the dam and kept isolated.

Answer 304

T

Question 305

Embryo transfer cannot be used for eradication, since the embryo can be infected.

Answer 305

F

Question 306

The selection method cannot be combined vaccination.

Answer 306

F

Question 307

Test and slaughter as an eradication method can be used in case of low level of
infection

Answer 307

T

Question 308

There is no agent which can be eradicated by antibiotic treatment.

Answer 308

T

Question 309

In the case of generation shift newborn animals have to be kept isolated from the parent animals

Answer 309

T

Question 310

In the case of herd replacement, the herd is replaced with infection-free animals.

Answer 310

T

Question 311

In the case of selection method of eradication the infected animals are taken out of the herd.

Answer 311

T

Question 312

If eradication is made by selection method, vaccination is forbidden

Answer 312

F

Question 313

Early weaning is necessary if generation shift method of eradication is used.

Answer 313

T

Question 314

Generation shift is a frequently used eradication method in swine.

Answer 314

F

Question 315

Generation shift is a method of eradication of a disease.

Answer 315

T

Question 316

In eradication by selective breeding, the seropositive animals are eliminated.

Answer 316

T

Question 317

In eradication by selective breeding, only the animals shedding the bacteria are
eliminated.

Answer 317

F

Question 318

In eradication by selective breeding, vaccination cannot be used.

Answer 318

F

Question 319

Eradication by selective breeding is not used anymore.

Answer 319

F

Question 320

Selection (test and remove) is not used to eradicate a disease anymore

Answer 320

F