1 / 38

Internal parasite control in sheep

Internal parasite control in sheep. Fewer worms More dollars. Course aim. Monitor and manage sheep worm populations to improve production, by: Using worm egg counts to detect infestations early. Becoming competent at the faecal egg count test. Regular drench resistance tests.

coty
Download Presentation

Internal parasite control in sheep

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Internal parasite control in sheep Fewer worms More dollars

  2. Course aim Monitor and manage sheep worm populations to improve production, by: • Using worm egg counts to detect infestations early. • Becoming competent at the faecal egg count test. • Regular drench resistance tests. • Use of WormBoss in decision making.

  3. Outline • Setting the scene • Types of internal parasites • Parasite damage to sheep • Introduction to WormBoss • Worm egg counting • Drench resistance

  4. Setting the scene • Worms cost the Australian sheep industry $369M/yr • This could increase to $700M by 2010 • drench resistance • more production losses

  5. Figure 1. National cost ($million) of major sheep health issues in Australia. (Source: Holmes et al. 2006)

  6. Types of internal parasites • Strongyles or Round worms • Cestodes or Tapeworms • Trematodes or Liver flukes

  7. Round worms (Strongyles) • Major cause of production losses in sheep • Summer dominant rainfall • Barbers Pole • Black Scour • Winter dominant rainfall • Brown Stomach • Black Scour • Lung worms

  8. Round worms and site of infection (Source: Cole1980)

  9. Life cycle of round worms (Source: Cole1980)

  10. Epidemiology • Temperature and moisture are critical for the survival of worm eggs and larvae • Round worms require avg. daily temp. of 10oC and 50% humidity (50 – 75mm) to hatch • Except Barbers Pole – temp. above 15oC

  11. Tape worms (Cestodes) • Most common/important species • Moniezia • live in intestines • no known ill effects • Echinococcus • Taenia

  12. Liver flukes (Trematodes) • Only species in sheep is Fasciola hepatica • Complex life cycle and has a fresh water snail as an intermediate host • Live in bile ducts of liver

  13. Parasite damage to sheep • Tissue damage • Competition for protein • Appetite reduction • Scouring • Anaemia (Barbers Pole) (Source:www.dpiw.tas.gov.au )

  14. Overall production effects Parasites will cause a reduction in: • fertility • milking ability • meat production • wool production • wool soundness • immunity

  15. Introduction to WormBoss • Developed by Sheep CRC and AWI • www.wormboss.com.au • Recommendations: • monitor worm populations • regular drench resistance tests • use non-chemical management strategies • if unsure, seek professional advice

  16. Exercise 1 – Using WormBoss • www.wormboss.com.au • Select “know your worms” • List major summer and winter rainfall worms • Select one worm from each rainfall group and list its scientific and common name, distribution, location in sheep and affects on sheep

  17. Worm egg counting • Number of worm eggs in a sample of sheep dung - “eggs per gram” (epg) • Can’t distinguish between different round worm species “strongyle eggs” • More accurate than visual assessment

  18. Worm egg counting • Useful to decide: • if treatment is necessary • if previous treatments were effective • assess level of worm contamination being put into paddocks • which sheep are worm resistant

  19. View of worm eggs (Source: WormBoss website, Dr R Woodgate)

  20. Worm egg typing • Larval culture and differentiation is required to differentiate between different worm species (Source: WormBoss website, Dr R Woodgate)

  21. Exercise 2 – Worm Egg Count Test • Aim of procedure • Materials • including use and care of microscopes • Method • Counting • Calculations • Interpreting results

  22. Use and care of microscopes • Start at lowest magnification • Rotate the focus wheel so you know which direction lowers/raises microscope • Focus using coarse focus first, then fine tune • Don’t allow microscope head to come in contact with slide • Rest eyes regularly • Always clean immediately after use

  23. WEC test method • Weigh 2g faeces from each sample into mixing bowl • Add 60ml of saturated salt solution and mix • Pour through strainer to remove course material • Stir in a N-S E-W motion before allowing material to flow into pipette • Moisten counting chambers of slide • Fill the slide chambers from right to left and with the slide verandah facing away from operator • Allow about 1 min. between preparation and counting for eggs to float to top of slide

  24. Counting the faecal eggs • See Egg Identification Sheet to identify different worm egg species • Place slide on microscope with verandah facing away from operator, use fine focus knob to focus slide • Begin counting using lines as a guide • For each sample, count and record number of eggs seen for each species

  25. The images on this page were sourced from: 1. www.stanford.edu/class/humbio103/ParaSites2005/Trichostrongyliasis/agent.htm 2. www.sheepandgoat.com/HairSheepWorkshop/parasitism.html 3. commons.wikimedia.org/wiki/Image:Coccidia.JPG 4. www.medata-systems.co.uk 2. Haemonchus (Barbers Pole worm) 1. Trichostrongylus (Black scour worm) 4. Moniezia (Tapeworm) 3. Coccidia Egg identification (page 1)

  26. 5. Trichuris (Whipworm) 6. Nematodirus (Thin necked Intestinal worm) 9. Dictyocaulus (Lungworm) 7. Fasciola (Liver Fluke) The images on this page were sourced from: 5. w3.ufsm.br/parasitologia/arquivospagina/ovosdebovinos.htm 6. www.stanford.edu/class/humbio103/ParaSites2005/Trichostrongyliasis/agent.htm 7. cal.vet.upenn.edu/projects/parasit06/website/lab6.htm 8. www.medicalvetonline.com.br/atlas.php Egg identification (page 2)

  27. Calculation for FEC test Number of eggs/gram of faeces = number of eggs counted x total volume of mix (ml) volume of counting chamber (ml) x wt of faeces in mix

  28. Interpretation of FEC test results www.wormboss.com.au • Click on “Ask the Boss” and read • Click on “Consult the Boss” and follow the prompts • A report will be generated based on the information you enter

  29. Drench resistance • Essential to know to be able to effectively manage worms • Occurs once worms can survive a dose of a drench that would have previously killed them • Measured by a Faecal Egg Count Reduction Test (FECRT) • Accepted industry definition = a reduction in worm egg count of less than 95%

  30. Factors influencing development of drench resistance • Chemical group and persistency of the product involved • Frequency of treatments • Worm species involved • Environmental factors

  31. How common is drench resistance? • Widespread, probably 90% or more of farms have a problem • Sheep worms have evolved resistance fairly quickly to each new drench group

  32. Drench resistance testing • Essential to know the efficacy of drenches on your property • Assessed through a Faecal Egg Count Reduction Test (FECRT) • Should be conducted every 2 years

  33. Exercise 3 – Setting up a FECRT • Select appropriate sheep • young, wormy and undrenched • at least 12 weeks old • Do a worm egg count • collect dung samples from min. 10 sheep • samples tested for enough worm species (min. 300 epg)

  34. Setting up a FECRT • Decide drenches to test • seek professional advice • depends on previous test results and property drench history • Set up test groups • at least 15 sheep in each group plus one control (undrenched) group • ID each group

  35. Setting up a FECRT • Drench each group • drench each group with correct drench • make sure: • no cross contamination of drenches • control group not drenched • correct drenching technique used • Return sheep to paddock together

  36. Setting up a FECRT • Collect faecal samples for worm egg counting • 10-14 days after initial treatment collect 10 fresh faecal samples from each group including the control group • obtain a larval culture and differentiation on samples from each group

  37. Setting up a FECRT • Interpreting results • compare average no. of faecal eggs in each sheep group with that of the control • Fully effective drench = 95% worm egg reduction in relation to undrenched control group % efficacy = (control – treatment) / control x 100

  38. www.wormboss.com.au

More Related