Overview
Ivermectin is a novel, highly effective semi-synthetic antibiotic with insecticidal, acaricidal, and nematicidal properties. It functions as a neurotoxic agent and biological penetrant in insects.
Its mechanism involves disrupting pest neurophysiology by stimulating γ-aminobutyric acid (GABA) release at neuromuscular junctions, increasing chloride ion influx, inhibiting neural signal transmission, ultimately causing paralysis and death. The product appears as colorless to pale brown-yellow liquid.
As a broad-spectrum, low-toxicity antiparasitic antibiotic, ivermectin demonstrates excellent efficacy against both endo- and ectoparasites, particularly nematodes and arthropods (though ineffective against cestodes, trematodes, and protozoa). Macrolide antiparasitics work by enhancing inhibitory neurotransmitter GABA release and opening glutamate-gated chloride channels, increasing neuronal membrane permeability to chloride ions, thereby blocking neural signals and inducing fatal paralysis.
Note: Ivermectin derives from avermectin. Its discoverers William C. Campbell and Satoshi Ōmura won the 2015 Nobel Prize in Physiology/Medicine for its revolutionary impact against river blindness and lymphatic filariasis.
Storage: 2-8°C
Ivermectin is widely used against:
Ruminants: GI/lung nematodes, parasitic arthropods
Canines: Intestinal nematodes, ear mites, scabies, heartworm (Dirofilaria immitis) microfilariae
Poultry: GI nematodes, ectoparasites
1. Cattle & Sheep
Dosage: 0.2 mg/kg (oral or subcutaneous)
Efficacy (97-100%):
Nematodes: Haemonchus, Ostertagia, Cooperia, Trichostrongylus, Strongyloides, Bunostomum, Nematodirus, Trichuris, Oesophagostomum, Dictyocaulus
Arthropods: Hypoderma/Tabanus larvae, Psoroptes/Sarcoptes mites, Linognathus/Haematopinus lice
Additional Effects:Disrupts tick feeding/molting/oviposition (peak effect at 5 days post 0.2 mg/kg SC or 0.01 mg/kg/day ×5)
Controls fly larvae in manure (prevent pupal maturation at 9 days post-treatment)
2. Swine
Dosage: 0.3 mg/kg IM
Efficacy (94-100%):
Nematodes: Ascaris suum, Hyostrongylus, Strongyloides, Trichuris, Metastrongylus, Stephanurus
Ectoparasites: Haematopinus suis, Sarcoptes scabiei
3. Poultry
Dosage: 200-300 μg/kg (oral/SC)
Effective Against: Ascaridia galli, Capillaria obsignata, Knemidocoptes mutans
Note: Ineffective against Heterakis gallinarum
4. Dogs & Cats
Specialty Formulations (6-12 μg/kg):
Microfilaricide for heartworm (adulticide无效)
Off-label Efficacy:50 μg/kg SC: Ancylostoma spp. (100%)
100 μg/kg: Trichuris vulpis
200 μg/kg: Toxocara canis (adults/L4)
200 μg/kg SC ×2 (2wk interval): 95-100% vs. Strongyloides stercoralis
Ectoparasites:200 μg/kg SC ×2: Otodectes/Sarcoptes
300 μg/kg ×2: Cheyletiella
600 μg/kg SC q7d ×5: Demodicosis
5. Equine
Dosage: 0.2 mg/kg PO
Efficacy (95-100%):
Strongyles (Strongylus/ Cyathostomins), Parascaris, Oxyuris, Habronema, Dictyocaulus arnfieldi
Special Protocols:Repeat dose at 1mo interval for Gasterophilus/Draschia larvae
99% efficacy against cranial mesenteric arterial lesions caused by larval Strongylus vulgaris (symptom relief in 2d, full resolution in 28d)
6. Reindeer
Dosage: 200 μg/kg SC (equivalent to bovine dose) for Oedemagena tarandi (warble fly)
This translation maintains all:
Technical pharmacological terms
Precise dosage regimens
Species-specific parasitology nomenclature
Original data points (efficacy percentages, timeframes)
Clinical application notes
Let me know if you require any modifications to suit specific publication requirements.
Ivermectin is a novel, highly effective semi-synthetic antibiotic with insecticidal, acaricidal, and nematicidal properties. It functions as a neurotoxic agent and biological penetrant in insects.
Its mechanism involves disrupting pest neurophysiology by stimulating γ-aminobutyric acid (GABA) release at neuromuscular junctions, increasing chloride ion influx, inhibiting neural signal transmission, ultimately causing paralysis and death. The product appears as colorless to pale brown-yellow liquid.
As a broad-spectrum, low-toxicity antiparasitic antibiotic, ivermectin demonstrates excellent efficacy against both endo- and ectoparasites, particularly nematodes and arthropods (though ineffective against cestodes, trematodes, and protozoa). Macrolide antiparasitics work by enhancing inhibitory neurotransmitter GABA release and opening glutamate-gated chloride channels, increasing neuronal membrane permeability to chloride ions, thereby blocking neural signals and inducing fatal paralysis.
source: https://arshinevet.com/news-detail/Ivermectin-Use
