Small ruminants 5

Question 1

Weaner illthrift what is the aim for percentage, how many farm exceed this, why and cost

Answer 1

Aim for <4% weaner mortality per annum - GOOD BENCHMARK -> may takes years to get to this

• 40% of farms exceed this
• Illthrifty weaners ‘disappear’ so often under-estimated by farmer
• Mainly merino problem but some crossbreds too
• $90M + annual problem

Question 2

Weaner illthrift how will this present

Answer 2

• There is a spectrum from illthrift to overt disease
  ○ From just don’t grow/live well
  ○ Regular outbreaks of disease, ongoing illthrift
  ○ Conception rates in the maiden ewe mob is very poor

Question 3

Weaner illthrift diagnosis/recognition what are the 4 main steps within

Answer 3

1) know your targets/benchmarks to comapre against
2) check bodyweigth regularly
3) other suggestive clinical findings
4) other findings that suggest contributing problems

Question 4

in terms of diagnosis/recognition of weaner illthrift what are the 4 main target to compare against and why important

Answer 4

1) . <4% mortality weaning - 12 months
§ Comparing the change in numbers when bringing in for different husbandry
2) Weight 45% of mature weight at end of spring - AT THIS WEIGHT WILL HAVE BODY FAT
§ Important to measure to indicate issues - liveweight
3) Grow > 1-1.5kg/month over summer (once hit 45% above)
§ Can have compensatory growth if have a time where growth is not as high
□ Stagnated in growth can be missed so monitoring every 6 weeks is better than every 6 months
® At this point there is a high risk period - need to identify and fix this
4) 75% of mature weight at end of 2nd summer

Question 5

In terms of recognising weaner illthrift what is involved with checking body weight

Answer 5

• Weigh q 4-6 weeks: 40 tagged or random 80 untagged from mob and compare against targets
• Bodyweight targets just make sure a weaner’s need to accumulate fat and continue to grow are met

Question 6

What are hte other suggestive clinical findings that suggest weaner illthrift

Answer 6

1) Healthy bone: fat in marrow (and thick cortices)
○ Weaner illthrift: serous atrophy of marrow (and thinned cortices)
§ Gelatinous bone marrow (serous atrophy)
§ Poor milk intake or low pasture intake - predisposes
2) Evidence of malnutrition: atrophied ruminal papillae
○ Don’t get turnover of feed that is needed
○ Haven’t been feed properly for weeks or just haven’t been eating
§ MOVE ONTO DIFFERENT PADDOCK -> increase nutrition, decrease competition

Question 7

What are 3 other findings that suggest contributing problems to weaner illthrift

Answer 7

• WEC/TWC
• Trace mineral status
• Clinical/necropsy findings of other diseases (pneumonia, bacterial enteritis)

Question 8

Weaner illthrift what is the major risk and 3 main causes

Answer 8

MAJOR death risk if low bodyweight and/or growth rate

• THEREFORE nutrition reduces mortality risk
  1) malnutrition (macro-nutrients - energy and protein)
  2) bone disorders - related to micro and macro nutrition
  3) trace minerals - rule out others first

Question 9

in terms of nutrition for weaners what is needed and how to monitor if getting nutrition

Answer 9

• Weaners need better energy and/or protein than adults
  ○ Need 12-16% crude protein (KNOW THIS) in diet - younger the more protein you need (will need this up to 1 year of age)
  § If eating green feed - WILL GET THIS
  ○ Use bodyweight monitoring to identify if nutrition OK

Question 10

In terms of assessing pasture to determine if malnutrition could be a factor in weaner illthrift what looking at and what to do if issue present

Answer 10

1) Energy - good digestibility?
□ Start with 1.5kg/week cereal grain (introduce over 2-3 weeks - to avoid ruminal acidosis) - KNOW THIS
® HIGHLIGHTS importance of regular monitoring - anticipate problem able to change feed over the 2-3 weeks and not result in stagnated growth that would result if in danger and have to wait 2-3 weeks to get sufficient energy
2) Protein - any green present?
□ Supplement with lupins, beans, peas, lucerne etc 25% of grain or 0.5kg.week (minimal introduction period as lower risk of ruminal acidosis)
® EXPENSIVE - so don’t give at the rate would give the cereal grain

Question 11

what are the principles with introducing new feed to weaners if malnutrition is an issue and what crops to consider

Answer 11

○ Feed 2-3 times/week once established, to let shy feeders get to grain too
○ Weaners may need imprinting to feeding equipment as well as feed
§ 50g per head offered 5-8 times should be sufficient
§ CAN EVEN continue to feed the supplementary feed AT LOW RATES passed weaning so when pasture quality decline just increase the supplementary feed (already adapted to the feed at this point)
○ Summer fodder crops can supply energy and, particularly, protein very well
○ Standing oat crops can be poor calcium sources: may worsen Ca-related bone problems

Question 12

Bone disorders leading to weaner illthrift what are the 2 main ones, what causes them and what they result in

Answer 12

○ Osteoporosis - thinned cortices
§ Energy and protein young, calcium and phosphorus deficiency
§ Copper deficiency as well ○ Rickets - large deformed growth plates
§ undernourished (vitamin D deficiency - so no calcium and phosphorus)
□ SUNLIGHT - autumn born and going through winter

Question 13

Bone disorders clinical signs/diagnosis

Answer 13

○ Deformed limbs 
○ Pathological fractures 
○ Lameness 
○ Hunched posture 
○ Reluctance to move 
○ Hypocalcaemia
○ Enlarged epiphyses

Question 14

Bone disorders what are the 3 main stages of bone development, what is needed at each stage and therefore what is the issue and how to fix

Answer 14

1) Growth of bone (pre-weaning)-> need energy, protein, Ca, Cu
§ ISSUE - osteoporosis
□ CAUSE -> Decreased with pre-weaning milk deficiency, poorer ewe nutrition, post: oat crops (low protein), grain feeding (need to give CaCO3 at 1.5% so Ca:P - 2:1), worms, low Cu, high Mo
2) Mineralise matrix ( about 12months) -> need Ca, P (vitamin D for to get access to this)
§ ISSUE - rickets
□ CAUSE -> low vitamin D (southern Australia - give vitamin D3 drench/injection to at risk mobs in autumn) or antagonists (carotenes in oat crops), low sunlight, low Ca
3) Enough healthy bone (later)
§ Strong bones - trabecular bone reserve for Ca source in pregnancy
§ ISSUE - dystocia, pregnancy toxaemia?

Question 15

list some other conditions that are associated with weaner illthrift

Answer 15

• Pneumonia
  
  • Mycoplasma vis
  • Flystrike
  • Septic arthritis
  • Coccidiosis
  • Bacterial enteritis
  • Scabby mouth
  • Lupinosis

Question 16

What are trace mineral/vitamins and what needed for (specifics)

Answer 16

• 15 trace micro nutrients (mg/head/day)
• Central to metabolic systems
  ○ Enzyme structure and function - Cu, Se, Mo, Zn
  ○ Hormones - iodine
  ○ Vitamins - Co (B12)
  ○ Co-factors - Mn
• Interactions exist in absorption and function
  ○ Eg Cu and Mo (COPPER ANATOGONIST), S, Fe
  ○ Se and S

Question 17

in what farming systems are trace mineral/vitamin deficiencies more common and why

Answer 17

Deficiencies are more common in high input farm systems
- Antagonists in fertiliser (sulfur)
- More pasture growth = less soil ingestion
○ DON’T JUST MEASURE THE SOIL -> NEED TO MEASURE THE LEVELS WITHIN THE ANIMAL

Question 18

what are the 3 main things that make you suspicious of a trace mineral deficiency

Answer 18

1) location
2) are there environmental risk factors
3) are there suggestive clinical signs

Question 19

in terms of location for trace mineral deficiency where is Se, Co, Cu and I deficiency more often found

Answer 19

○ Selenium deficiency - west and hills of great dividing range, sanding coastal soils of Gippsland
○ Cobalt deficiency - coastal areas
○ Copper deficiency - South Gippsland and south western district
○ Iodine deficiency - great dividing range, moving central (granite stores area)- NOT IN COASTAL AREAS

Question 20

what are the environmental risk factors for trace mineral deficiencies

Answer 20

○ Se, Cu, Co, I availability decrease by high rainfall (leaching (away into subsoil), abundant pasture, less soil ingestion)
§ Deficiency often develops in spring - As storage goes down -> transport within the blood decreases -> function starts to decrease eventually - months later
○ Deficiency often presents several months later when function is depleted - late summer into autumn

Question 21

what are possible clinical signs of trace mineral deficiency and what to do about interpreting mild abnormal test results

Answer 21

○ There could be a spectrum of signs
§ Just illthrift/poor growth -> poor reproduction -> mild/vague clinical signs -> overt clinical disease
○ Interpreting mild or marginally abnormal test results
§ Hard to interpret significance
§ Consider doing response trial to evaluate economic efficacy
□ Treat half the weaners
□ Measure response: liveweight, wool reproduction
□ Compare value of extra production to total costs of treating all weaners

Question 22

nutritional myopathy what is it caused by, what does each trace element do and when occurs/results in

Answer 22

Selenium or vitamin E deficiency
○ Similar mechanism -> stabilisation of cell membrane
§ Selenium mop up free radicals, vitamin E - direct stabiliser of cell membrane
□ Selenium deficiency occurs with lots of rainfall
□ Vitamin E abundant of green feed - therefore deficiency in DROUGHT
○ Pathophysiology - ALL results in muscle damage by oxygen free radicals
§ Oxidative load on muscles (high excretion)
§ High dietary PUFAS (high grain feeding, rancid feed, low roughage)
§ Low dietary selecium (grasses, grains, better uptake without sulphur)

Question 23

Nutritional myopathy diagnosis

Answer 23

§ Signs of muscle damage
□ Increase serum CK (VERY HIGH), AST
□ Muscle necrosis, inflammation, fibrosis on histopathology - MUSCLE SAMPLE IMPORTANT
§ Low plasma Vit E (measure alpha-tocopherol)
§ Low plasma glutathione peroxidase (enzyme that selenium drives)

Question 24

Nutritional myopathy clinical signs what are the severe and less severe and what demographics does this occur in

Answer 24

§ SEVERE - Acute (white muscle disease) in lambs pre-weaning
□ Sudden death (cardiac failure - take sample of heart muscle)
□ Respiratory distress
□ Acute lameness
§ LESS SEVERE - myopathy in older weaners
□ Lameness
□ Reluctance to move
□ Falling behind mob

Question 25

Nutriional myopathy treatment

Answer 25

§ REMEMBER - excess selenium is TOXIC
□ Causes death with acute respiratory distress
□ Multiple se-containing treatments - drench, vaccine, long-acting, supplement
® Generally will not poison if had a drench a few weeks ago as doesn’t last long in the system
□ OR miscalculated dose

Question 26

Coastal or white liver disease what caused by, clinical signs and diagnosis

Answer 26

cobalt/vitamin B12 deficiency ○ Clinical signs
§ Ill-thrift/poor growth rate
§ Weeping eyes
§ Photosensitisation (scaly ears)
§ Anaemia
§ White liver disease - fatty infiltration from deranged energy metabolism
○ Diagnosis
Decrease B12 (cobalamin) in plasma (sheep) or liver (cattle

Question 27

Copper deficiency what caused by, diagnosis and what is the opposite that can occur

Answer 27

○ Mo (molybdenum), iron and sulphur antagonise Cu absorption: high soil levels can cause deficiency
DIAGNOSIS
§ Histopath: affected body systems
§ Biopsy or necropsy from LIVER - measure copper
□ Cattle can do blood Cu
○ Remember - copper poisoning - ANOTHER LECTURE

Question 28

copper deficiency what are the main clinical signs and why

Answer 28

○ Many functions therefore clinical signs
§ Fleece changes
□ Dark steely wool, loss of crimp, lightened colour in black wool breeds
§ Neurological - needed to myelinate the nerves
□ Sway back and enzootic ataxia (ewes deficient and then give to lambs)- SAME DISEASE - just different severity
§ Bone mineralisation
□ Fragility, osteoporosis, deformities
§ Anaemia and illthrift

Question 29

iodine deficiency what see as, what needed for and diagnosis

Answer 29

poor neonatal development and survival
○ Iodine needed for foetal growth, thermoregulation and CNS development
○ Diagnosis
§ Response to treatment as well

Question 30

What are the specific short-term treatments for trace mineral deficiencies

Answer 30

○ Discrete drench, injection
§ Iodine: 280mg in drench to pre-lambing does (always) or ewes (in risk year)
§ Vitamin E drench to weaners off green feed > 6 weeks (drought)
□ Vitamin E injection INSUFFICIENT for adequate treatment of deficiency
§ Se in many drenches and vaccines
§ B12 in lots of vaccines: efficacy?

Question 31

what are the long-terms treatments for specific trace mineral deficiencies

Answer 31

○ Intraruminal pellets/bullets 
§ Cu, Co, Se
○ Long-acting infections 
§ Se, I (depodene - not in AUS) 
○ Pasture top-dressing (direct spray or add to fertiliser) 
§ Co (common cobalt salt spray), Cu, Se

Question 32

What are some common diseases cuasing lingering death

Answer 32

• Ovine Johne’s Disease
• Diseases with ‘neurological presentation’ (see Neuro & Collapse Block):
  ○ Polioencephalomalacia
  ○ FSE
  ○ Listeriosis
• PA (pyrrolizidine alkaloid poisoning) poisoning
• Urolithiasis

Question 33

Johne’s disease what caused by, the strains and what is important

Answer 33

• Mycobacterium avium ssp. paratuberculosis (Also referred to as ‘M. paratuberculosis’ or ‘Mptb’)
  ○ Sheep strain
  § Sheep, ~goats, occasionally cattle
  ○ Cattle strain
  § Cattle, goats, deer, alpaca
  □ Tend to be more dairy systems (due to intensive systems with rearing)
• Cross transmission between cattle and sheep occurs -> JOHNE’S DISEASE IS JUST ONE DISEASE - don’t separate cattle and sheep

Question 34

in terms of 2 other differentials for wasting like johne’s disease what are you thinking of, what situations occur and how to differentiate

Answer 34

• Worms - older shinny sheep on green pasture - Scour worms - roundworms
  ○ differentiate - WEC
• Yersinia -> more young animals - short feed (cold snap) - nutritional stress
  ○ Differentiate - post-mortem - diptheric enteritis

Question 35

Johne’s disease how brought onto farms, and disease spread

Answer 35

• Brought onto the farms via traded sub-clinical sheep
  ○ Self-replacing flock needed to ensure - get rams
• Environmental persistence - 2-3months
  ○ Moisture and shade
  ○ Environmental contamination from the clinical sheep
• Disease spread via water flow

Question 36

Johne’s disease when get infected and show clinical signs

Answer 36

• Younger animals infected
  ○ BUT older sheep fairly resistant to low-level challenge - still possible to infect older sheep
  § Older the higher the infective dose needed BUT NOT AS HIGH AS IN CATTLE AS AGE
• 2 year incubation period
  ○ Why get wasting in OLDER animals
  ○ OJD epidemiology development of clinical disease can take >10 years
  § The larger the dose the shorter the incubation (as the dose on the farm slowly increases over years)

Question 37

Johne’s disease what is the most common presentation and what does this should about older negative animals

Answer 37

• Subclinical - most
  ○ Shedding increases with time
  § Older animals with repeatedly negative tests are unlikely to be infected
  □ Could use these to establish a low-risk sub-breeding flock

Question 38

Johne’s disease clinical signs what results in and the main ones

Answer 38

○ ++++ shedding (can no longer maintain their weight)
§ Causing the main environmental contamination
○ Different from cattle
§ Principle presentation is wasting in OLDER SHEEP
□ Increasing deaths - annual ewe mortality generally not known by the farmer (same as weaner death)
® Maximum 2-3% ewe mortality is the target (mainly around lambing)
◊ Mortality will go to 5-10% if have Johne’s disease
□ Increase susceptibility to nutritional diseases such as pregnancy toxaemia
□ Tail of illthrifty but fairly bright, older sheep
§ Diarrhoea occurs but frequent < cattle - minority

Question 39

Johe;s disease why is there stigma around it and what is relevant today

Answer 39

• Notifiable disease - there is stigma around the disease (previously forced to destroy all animals - NOT ANY MORE)
  ○ Restrictions around interstate trading
  ○ can affect future sale of farms as it has to be documented in a property sale contract
  § More important now that cross-transmission - may affect cattle farming as well

Question 40

Johne’s disease testing, what do you test, what do most tests generally have, why and what does this mean

Answer 40

• Test of the flock, not of individuals - if one affected - ALL PROBABLY AFFECTED
• Most tests generally have
  ○ Good specificity - if positive THEN POSITIVE
  ○ Poorer sensitivity, especially early in disease - WHY TARGET THE OLDER ANIMALS
  § Few lesions
  § Few antibodies
  § Few organisms shed
  § No such thing as OJD negative - called monitored negative in assurance programs
  □ finding the true positive within the herd - repeat testing or multiple sheep - always looking for the sheep that has finally become clinical
  □ Flock wide disease profiling - determine where it began, who brought in?
  ® Do this via testing of a number of sheep in each age group
• Need to use multiple testing, follow up testing, clinical suspension

Question 41

What are the 3 main diagnostic methods for Johne;s disease

Answer 41

1) necropsy (biopsy) - increase suspicion - histopathology
2) culture from samples - takes awhile to get confirmation but diagnosis
3) serology - lower sensitivity than above so no longer used in sheep - maybe OK in clinical cases (pets) but should still confirm with culture

Question 42

In terms of necropsy for diagnosis of Johne’s disease where done, what looking for and what else need to do

Answer 42

○ Done on-farm investigation OR abattoir monitoring (“Abattoir 500,150) - more points less likely to have Johne’s disease (not done anymore)
§ Abattoir -> contact and get veterinary inspector to look at abdominal contents to get suspicion
□ Good way to inspect animals without having to kill lots on farm
○ Signs of granulomatous enteritis
§ Thickened gut wall
§ Enlarged lymphatics / mesenteric LNs
○ Acid fast bacilli on histopathology

Question 43

What are the 7 main sites for histopathology samples for diagnosis of Johne’s disease

Answer 43

MINIMUM
Give strong suspicion
1. Ileo-caecal valve
2. Ileum immediately adjacent to the ileocecal valve
3. Three pieces of ileum, at about 1 m intervals from the ileocecal valve
4. Ileocecal lymph nodes (2)
5. Mesenteric lymph nodes
6. Caecum
7. Proximal colon
Focussed around the ileo-caecal valve and proximal

Question 44

In terms of culture from samples for Johne;s disease diagnosis what are the 3 things that can be done and what needed

Answer 44

High sensitivity but takes a few months
1) Necropsy - culture and histopathology for suspect samples
1. mesenteric LN
2. ileocecal LN
3. terminal ileum
2) Faecal - usually 7 ‘pools’ of 50 adult sheep (need 350 minimum for diagnosis)
§ Generally used to profile the mob (who most likely to be positive and negative)
3) New direct ‘high-throughput’ faecal PCR (‘HT-J’)
§ Similar Se to culture but only takes 1 week

Question 45

Johne’s disease treatment/control options

Answer 45

• Not treatable in individual sheep
• On-farm control
  a. Vaccination
  b. Property disease management: grazing, biosecurity
  c. ‘Assurance’ (methods to identify ‘lower risk’ sheep for purchase)
  § Sheep Health Statement
  § Market Accreditation program (MAP) and repeat negative testing (still)

Question 46

What are the 4 main steps in the control program for Johne’s disease

Answer 46

1) understand prevalence-across the farm
2) reduce transmission within farm
3) further protection of stock
4) don’t spread/buy in the disease

Question 47

What is involved in understanding prevalence across the farm and the aim of this for Johne;s disease control program

Answer 47

○ Pooled faecal culture (or targeted necropsies) - determine which age groups are more likely to be positive)
○ Aims
§ Cull strongly positive mobs to remove large infection source (generally the older animals)
§ Helps with grazing management decisions to reduce infection risk to young stock
□ Don’t place weaners into paddock that infected sheep mob have just come from

Question 48

What is involved in reducing transmission within the farm for Johne;s disease control program

Answer 48

○ Do not graze young stock after older, potentially shedding mobs
§ Ideally not for 6months (over winter - due to good environmental persistence) or 6 weeks (over summer)
○ Immediately cull clinical cases when observed as they are big shedders (and for welfare reasons)

Question 49

What is involved with further protecting stock during Johne;s disease control program

Answer 49

○ Gudair (pounce - good air) vaccination
§ Approved vaccinates are lambs/kids vaccinated at 4-16 weeks of age (at marking) - AS THIS IS THE AGE THAT IS INFECTED
□ Still not 100% protective

Question 50

What is involved in not spreading/buyding in the disease during a Johe’s disease control program

Answer 50

○ Buy vaccinated stock from low-risk areas (now identified by regional biosecurity plans (formerly regions were given an OJD risk score)
§ On ear tag V in a circle represented an approved vaccinate
○ Stock can be accredited under market assurance program (MAP) - probably just for studs, not commercial farms
§ MAP farms have audited biosecurity and management -
§ Undergo period testing (pooled faecal culture (sheep) PFC or bloods (goats)

Question 51

In terms of Johne;s disease control vaccine what is important to remember, when give at what age and main issue

Answer 51

• NOT COMPLETELY PROTECTIVE but reduces: IMPORTANT
  ○ *** Mortality & development of clinical cases
  ○ Infection rate
  ○ Shedding
• Single dose to lambs 4–16 weeks old (approved)
  ○ Could vaccinate adults if good case for no prior exposure
• Highly reactive:
  ○ ~25% have vacc site lumps @ 3 yo
  ○ BEWARE self-injection: seek immediate treatment

Question 52

Gudair vaccine for Johne’s disease what is the effective on short and long-term flock

Answer 52

• Effective on short-term mortality and prevalence
  ○ Mortality
  § Elevates clinical signs -> allows for increase productivity and decrease mortality
  § Slows the development (prolong the subclinical) and reduces the severity of the disease
  □ THEREFORE REDUCES SHEDDING
  ○ Prevalence - vaccination reduces shedding
  § Total excretion after vaccination
  □ Delayed onset of shedding
  □ 90% reduction in total excretion
  □ BUT total excretion still above infection threshold -> vaccinate still transfer disease - STILL INFECTIOUS TO OTHER ANIMALS
• Effective on long-term flock mortality
  ○ Takes a-while to see the reduces mortality - about 6-10 years will see negligible clinical signs after vaccination
  § WELL WORTH IT

Question 53

Vaccination as a control for Johne’s considerations when to vaccinate weather and what are the main risk factors for ongoing OJD infection

Answer 53

○ Vaccinating wethers
§ Farmers often don’t vaccinate young wethers, assuming they’ll be sold before they start shedding
§ BUT unvaccinated mobs ~8x more likely to be OJD positive
□ Keeping unvaccinated wethers significantly associated with chance of property being (staying) OJD-positive
○ Other risk factors for ongoing OJD infection
§ Poor biosecurity:
□ Buying unvaccinated sheep
□ Sharing roads with neighbours
□ Stray sheep
§ Using commercial ‘contractors’ to vaccinate

Question 54

Gudair vaccine where give and location in sheep and why

Answer 54

§ Usually in 4–16 week old lambs, well-restrained in lamb-marking cradle
§ Location (lambs & adults):
□ Between jaw and ear (about 2–4 cm below ear) AWAY from major blood vessels and bones
□ Helps avoid granulomas and
® Potential carcase damage
® Possible lameness, ataxia, paralysis, neck mobility - if inject into muscles (granuloma in cervical cord)
◊ Look like perineal ryegrass staggers -> when mustered suddenly lose control of legs and fall over

Question 55

In terms of the one-handede technique with gudair vaccine what needs to occur to prevent injury

Answer 55

□ Pack race tight
□ Approach from behind
□ Inject between jaw and ear (2-4cm below the ear)
□ Keep needle perpendicular to skin - short sharp needle
□ Avoid skin ‘tenting’
□ Keep other hand free for balance or support

Question 56

Property disease management to control Johne;s disease what are the guiding principles

Answer 56

○ Most transmission from ewe to progeny
○ Speed of incubation & % of clinical cases that develop increases with infective dose
○ Clinical cases are usually biggest shedders of Mptb
○ Bacteria survive for months in environment, especially with water

Question 57

Property disease management control with teh control of Johne;s disease what are the 3 main things involved

Answer 57

• Lamb down and wean onto ‘safer’ paddocks
  ○ Grazed by cattle or low-OJD-risk sheep or empty for preceding
  § 6-12 weeks (over summer)
  § 6 months (winter)
• Cull sheep with clinical OJD
• Beware risks from run-off from neighbouring farms (spread via water) - lower transmission than purchasing infected sheep

Question 58

Assurance programs for Johne’s disease what are the 3 main things you can do to identify low risk sources of sheep

Answer 58

○ Sheep Health Statement (SHS) - should advise all owners to get this from where buying
○ Regional Biosecurity Plans (RBP) - local groups of state creat own plan to reduce risk of local OJD introduction and spread
○ Sheep from Market Assurance Program (MAP) flocks

Question 59

Market assurance programs (MAPS) for Johne’s disease who overseen by, what is involved and what is needed

Answer 59

○ Overseen by accredited vets (APAV then MAPcertified)
○ Flock faecal testing every ~2 years to achieve ‘monitored negative’ (MN) status
§ MN1 (year 1), MN2 (year 2), MN3 rounds of testing then maintenance tests q. 2-3 years
□ MN3 - highest status can get - monitoring to keep this status
○ ± vaccination (‘MN-V’)
○ Documented, audited property management plan e.g.
§ Biosecurity
§ Good record keeping
§ Other disease information

Question 60

Johne’s disease in goats what is important, which strain and main difference with sheep

Answer 60

• Notifiable
• Cattle OR sheep strain
  ○ Clinical signs like sheep
• Other differences
  ○ Less SI corrugation on necropsy
  ○ Can see caseous necrosis of LNs
  ○ Blood test approved in goats (still poor Se)

Question 61

controlling JD in goats what principles used and what else can help

Answer 61

• Similar principles to sheep
  ○ Gudair registered
  ○ Goat MAP similar to sheep
  ○ Risk-based trading also available (Goat Health Statement)
• Snatch-rearing helps with CAEV & JD control

Question 62

Vet involvement with JD what are the main activities

Answer 62

○ Diagnosis & reporting
○ Advising on-farm disease management
○ Advice on use/Supply of vaccine
§ MAP vets or through stock supply stores(!)
○ MAP-accredited vets:
§ MN certification
§ Property disease management plans (formerly subsidised)
§ Regional Biosecurity Plans
§ Certification of ‘low-risk’ flocks for ABC points

Question 63

euthanasia in sheep and pigs what used

Answer 63

• Sheep
  ○ Barbiturate, Firearm, Captive bolt, Exsanguination…
• Pigs
  ○ Firearm, Captive bolt

Question 64

Sheep vaccines which cattle ones are the same and which are sheep only

Answer 64

- All cattle vaccines are registered in sheep
○ Except Gudair replaces Silirum for BJD
- Some used in sheep only
○ Erysipelothrix rhusiopathiae
○ CLA (caesous lymphadenitis)
○ Campylobacter jejuni
○ Scabby mouth (contagious pustular dermatitis virus)
○ Haemonchus contortus !

Question 65

For sheep when is a good time to lamb

Answer 65

(pasture drying off go back 4 months for prime - November dry off august good)
○ May, June too early