Small Ruminant Parasitology - Text PDF

Summary

This document provides information on parasitic gastrointestinal diseases of small ruminants, focusing on nematode infections and treatment strategies. It covers topics such as pathogenicity, diagnostic methods, and treatment plans. The document also highlights the types and specific characteristics of different nematodes like Haemonchus contortus.

Full Transcript

Small Ruminant Parasitology - Text
Sunday, November 17, 2024 6:51 PM

Tail up = Goat
Tail down = Sheep

Parasitic Gastrointestinal Disease of Small Ruminants

Objectives
After this lecture, students enrolled in VCS 861, will be able to:
1. Employ the best strategies to deworm small ruminants
2. Summarize pathology associated with most common gastrointestinal
parasites
3. Develop an appropriate diagnostic and treatment plan for
gastrointestinal parasites

Gastrointestinal Nematodes of Small Ruminants
Haemonchus contortus
Telodorsagia circumcinta
Trichostrongylus axei
Nematodirus spp
Cooperia spp
Abomasal Nematodes
Abomasal worms are most pathogenic:
Haemonchus contortus (haemonchosis)
Telodorsagia circumcincta (formerly Ostertagia)
Gastrointestinal Nematode Infections
Most susceptible:
Young
Periparturient
○ Fecal egg counts often go up during last month of gestation
Immuno-compromised
Resistance
Veterinarians and producers must customize and implement integrative
deworming programs to control exposure to infection and reduce the use
of anthelmintics.
Life Cycle

Pre-patent Period:
3 weeks (ingestion of larvae – fecal excretion of eggs)
Egg → Larvae:
Summer: 4-10 days
Winter: 1-2 months
○ Can survive for longer until environment is more favorable
Epizootiology
Life cycle of each GIN has 4 phases:
1. Symbiotic/Parasitic
2. Contamination
3. Free-living
4. Infection
1. Symbiotic/Parasitic Phase
Organism must survive within host
Host defense:
○ Immune system
Immune system dependent upon:
○ Age
 ○ Nutritional status
○ Stress
Hypobiosis:
○ Arrested development
2. Contamination
Hallmark:
○ Eggs passed in feces
Factors affecting the magnitude of contamination:
○ Stocking rate
 Primary factor that leads to contamination
○ Age
○ Periparturient*
 Elevated egg count
○ Season
○ Hypobiosis
3. Free-Living Phase
Larval development & survival
L1 ➔ L2 ➔ L3 occurs in fecal mass
L1 & L2 unprotected:
○ Need O2
○ Need moisture
L3 have protective shell:
○ Moisture resistant
○ Temperature adversely affects growth

Haemonchus contortus (Haemonchosis)
“Barber pole” worm
○ Coiling of white ovaries around blood-filled intestine
○ Can consume 0.05mL of blood a day
○ At peak infection can consume 1/5 of an animals blood volume a day
 Susceptible species:
○ ALL ruminants
○ goat > sheep > cow
H. contortus - Pathogenesis / Infestation
Adults and L4 attach to abomasal mucosa
○ Consume a blood meal
Pathogenic effect from:
○ Blood loss – anemia
○ Abomasitis (mild) – impaired nutrient digestion
H. contortus Clinical Signs
1° reflect anemia:
○ Lethargy
○ Peripheral edema
 Under jaw

○ Pale mucous membranes
 At arrow extremely pale
 ○ Diarrhea????
 Do not rule out if no diarrhea

Ostertagia / Telodorsagia
Species:
Cattle, South American Camelids
○ Ostertagia ostertagi: cattle, South American Camelids
Sheep & Goats:
○ Telodorsagia circumcincta
○ Ostertagia trifurcata
Abomasal worm
Pathogenic effect ----> SEVERE abomasitis
Impaired nutrient digestion
Sheep and Goats
Pathogenesis
Two types – I & II
Type 1: ANOREXIA
 ○ BOTTOM LINE - Type 1 characterized by the parasite completing
entire life cycle, with diseased animal showing heavy fecal egg
counts
○ “Moroccan Leather” Nodular Abomasitis

Type II
○ Identical to Type I until L4 enters parietal cell
 Receive “Hold-Up” signal from environment
□ Northern US/Canada: Late fall early winter
□ Southern US/Tropics: Summer
 Improved weather = L4 emergence from hypobiosis
□ Northern US/Canada: Spring
□ Southern US/Tropics: Fall
○ Pathology = ABOMASITIS
○ Pathogenesis
 Type II – Simultaneous emergence of large numbers of
hypobiotic L4’s

○ BOTTOM LINE - Abomasitis occurs before egg production by
adult worms…NO EGGS in fecal. Clinical signs: Neg fecal, High
 serum pepsinogen, Abomasal pH alkaline

Important Intestinal Nematodes
Just here for reference
CANOT or NO CAT
Cooperia
Ascaris sp
Nematodirus
Oesophagostomum
Trichuris
Important Intestinal Worms
Cooperia: Most common intestinal worm of cattle. Erosive mucosal
lesions within small intestine
Ascaris: “Traveling worm” Intestine -> Liver -> Lungs -> Intestine.
Focal scarring in liver “white spots”. 2nd bronchitis and bacterial
pneumonia
Nematodirus: Common in confined camelids. Resistant to
ivermectin
Oesophagostomum: Large intestine. Nodular abscess formation
within large intestinal wall
Trichuris: Whipworms. Bloody diarrhea ddx swine dysentery.
Emaciation. Pigs on dirt lots
Nematodes: Basics of Treatment
Anthelmintic therapy
Blood or plasma transfusion
Iron/B-vitamin supplementation
TLC: Low competition environment
High quality nutrition
Class MOA Other Info
Here for Reference
Imidazothiazole / tetrahydropyrimidine
○ Levamisole
○ Morantel, Pyrantel
○ Neuromuscular depolarization and paralysis of the parasite
○ Only dewormer that worms can re-gain sensitivity if discontinued
for several years
○ Cholinergic agonists
○ Not effective against larval stages
Macrocyclic Lactones
○ Avermectins / Milbemycins
○ Ivermectin
○ Doramectin
○ Moxidectin
○ Increase permeability of parasite cell membranes to CL-
○ Ineffective against flukes and tapes
Benzimidazoles
○ Fenbendazole
○ Albendazole
○ Oxbendazole
○ Impair worm carbohydrate metabolism
○ Inhibit fumarate reductase
○ BROADSPECTRUM
○ Fenbendazole - can increase dosage 2-3X up to 10X for hypobiotic
 larvae
○ Albendazole - DO NOT give during 1st 1/3 gestation

Why Don’t Dewormers Work?
1. Resistance
2. Inappropriate dose
○ Very few products that have small ruminant dose
○ Small ruminants metabolize drugs much faster than other species
3. Treating the wrong parasite
Four Types of Dewormers
Who to Deworm?
Principles for Anthelmintic Use
Ensure that the correct dose is being used
○ Goats metabolize drugs differently and require higher doses
Use oral anthelmintics
Withhold feed for 12-24
○ Benzimidazoles and/or ivermectin
○ Increases contact time due to decreased GI transit time
Use a combination of anthelmintics
Avoid long acting dewormers (Longrange)
DO NOT treat all animals
Recommendations from Dr. Lisa Williamson (full article
“Choosing the right drug for worm control” can be found on
small ruminant parasite consortium website)

FAMACHA System
System of identifying anemic animals, scoring the anemia
and treating based on severity of disease
○ More pallor = greater worm burden
NOTE:
○ Only appropriate for adult animals
○ Significantly increases amount of labor
○ Effective for identification of H. contortus
○ Does not account for other causes of anemia
 ○ 1, 2 - do not deworm
○ 3 - questionable
○ 4,5 - deworm
○ 5 - potentially culled
Important factor affecting RATE of resistance within a herd:
○ # of treated worms: # of un-treated worms
○ Goal is NOT to have 0 worms

https://docs.wixstatic.com/ugd/6ef604
_c5fb241d19d3421686b8b25e4f4cc3a0.pdf
Combination Deworming Strategy
Dewormers should be used in combination at the same time
How Combination Deworming Works:
1. Additive effect of each drug = Increased efficacy
2. Increased drug efficacy = fewer resistant worms (great dilution of
resistant worms)
Rotational Deworming Example
90% efficacy:
Will leave 10% of resistant worms
Combination Deworming Example
Drug #1 = 90% efficacy
Drug #2 = 90% efficacy
Drug #1 will kill 90% of worms
Drug #2 will kill 90% of the 10% of worms that did not respond to Drug #
1
(90% + (90% (10%)) = 99% efficacy
60% effective (i.e. will kill 60% of worms)
- (10 worms)(0.6) = 4 worms
75% effective (i.e. will kill 75% of remaining worms)
- (4 worms)(0.75) = 3 worms

(0.6) + (0.75)(0.40) = 0.9 or 90%

Anthelmintic Resistance - Detection
Fecal egg count reduction test (FECRT)
10-15 animals at the same time
Collect feces directly from the animal
○ Immediately prior
○ 10-14 days after
Calculate difference in egg #
Animals must have min of 150-200 epg before treatment
Use oral form of dewormers

Alternative Treatments
Copper wire particles
Parasite inhibiting plants
 ○ Condensed tannins (sericea lespedeza)
Nematophagus fungi
○ (Duddingtonia flagrans)
Pasture management
Alternate species
Good nutrition
Genetic improvement
Copper Oxide Wire Particles (COWP)
Mechanism of action:
Lodge within abomasum
Insoluble at pH >3.2
○ Allows them to not dissolve in rumen
Cause cuticle defect in adult worms
Effect occurs within 12 h post administration
Duration of effect = 21 days
Duddingtonia flagrans
D. flagrans
Worm eating fungi
Fed to animals and kills worms in feces
68% reduction in pasture contamination in sheep
Unique Properties of D. flagrans
(as advertised on www.BioWorma.com)
Kills multiple worms
Effective in multiple species (horses, cattle, goats, alpacas, sheep)
Safe to other good “worms” found on pasture
Not very pallatable
Special Considerations D. flagrans
Should not be used as sole worm control method
Will not reduce current worm burden
Temperature and environmental conditions determine efficacy

Take Home Message
Treat only animals that need to be dewormed
Administer an appropriate dose
Develop relationship with clients (VPCR) for extra label drug use
 Use smart drenching techniques

Coccidiosis
VERY common disease of juvenile livestock
NOT worms…anthelmintic don’t work!
Species:
○ Eimeria
○ Isospora
Disease of the minority and subclinical disease of the majority
Coccidiosis - Pathogenesis
Fecal oral transmission
Oocytes infect enterocytes
○ 1 oocyst can destroy ~1 million enterocytes
Rupture of enterocytes results in intestinal inflammation, mucosal cell
loss
Oocysts passed in feces
Outside host oocysts sporulate to become infective 2-5 days
Coccidiosis - C/S
1–6-month-old kids
Diarrhea
○ +/- hematochezia
Anorexia
Dehydration
Weight loss
○ Hair is dull and puffy
Treatment
Supportive Care
○ Intravenous fluids
○ Vitamin B complex
○ Blood transfusion
Anti-coccidial Drugs
○ Coccidiostat
 Ionophores
 Decoquinate
○ Coccidiocidal
  Amprolim
□ (50 mg/kg, PO 5 days)
□ Can NOT treat water like in cattle since so much higher dose
 Triazinones
NO DRUGS APPROVED FOR TREATMENT OF COCCIDOSIS
IN GOATS
Coccidia - Determinants of Disease
○ Dose
 Proportional to fecal contamination of environment
○ Host stress
 Weaning
 Processing
 Weather
 Shipping
 Co-mingling
 Feed changes
 Confinement
 Concurrent Infections
○ Virulence
Coccidia – Clinical Signs
Diarrhea
○ Bloody
Dull rough hair coat
Anemia
Tenesmus
○ Significant proctitis
○ Secondary rectal prolapse
Nervous coccidiosis
Subclinical
○ – poor weight gains, failure to thrive
Coccidia - Treatment
Clinical Coccidiosis
○ Sulfonamide antibiotics: sulfamethazine, sulfdimethoxine
○ Blood transfusion
○ Oral or IV fluids
○ B Vitamins, transfaunation, supportive care
 Coccidia - Control
○ Separate feed and water from feces
○ Manage maternal source of oocyst
 Crutching
○ Adequate bedding changes
○ Coccidiostatic drugs
 Decoquinate
 Amprolium
○ Ionophor antibiotics – coccidiocidal
 Monensin
 Lasalocid