Brand: CYROSHIELD Spray-on
Company: ALLEVA
FORMULATION: «spray-on/pour-on» for topical administration.
ACTIVE INGREDIENT(S): cyromazine 60 g/L (= 6%)
CHEMICAL CLASS of the active ingredient(s): insect growth regulator (= IGR, triazine)
INDICATIONS: SHEEP
PARASITES CONTROLLED* (spectrum of activity)
* Country-specific differences may apply: read the product label.
- Preventative control of blowfly strike (incl. Lucilia cuprina) on sheep.
- Length of protection: New Zealand, up to 8 weeks
RECOMMENDED DOSE*
* Can be slightly different in some countries: read the product label!
Use recommendations in New Zealand:
2 bands sheep between 11-25 kg | 4 bands sheep between 25-50 kg | 5 bands sheep between 51-70 kg | |||||||
For the prevention of body strike | |||||||||
Livewight in kg | 11 - 15 | 16 - 20 | 21 - 25 | 26 - 30 | 31 - 35 | 35 - 40 | 41 - 50 | 51 - 60 | 61 - 70 |
No of bands | 2 | 2 | 2 | 4 | 4 | 4 | 4 | 5 | 5 |
ML per band | 10 | 14 | 18 | 11 | 13 | 15 | 17.5 | 17 | 20 |
Total mL aplied | 20 | 28 | 36 | 44 | 52 | 60 | 70 | 85 | 100 |
Sheep treated per 10 L | 500 | 357 | 277 | 227 | 192 | 166 | 142 | 117 | 100 |
Read the product label for further details on dosing.
SAFETY
- LD50 (acute oral) in rats: 3387 mg/kg for the active ingredient. Estimate for the formulation: >5000 mg/kg.
- LD50 (acute dermal) in rats: 3100 mg/kg mg/kg for the active ingredient. Estimate for the formulation: >5000 mg/kg.
- Estimated hazard class according to the WHO classification of pesticides for cyromazine: U, unlikely to present acute hazard.
Suspected poisoning? Read the article on cyromazine safety in this site.
Withholding periods (=withdrawal times) for meat, milk & shearing (country-specific differences may apply: read the product label)
- Meat: New Zealand 7 days
- Milk for human consumption: New Zealand: Milk intended for sale for human consumption must be discarded during treatment and for not less than 35 days following the last treatment.
- Shearing: New Zealand 2 months.
WARNING !!!: Never use on humans, dogs and cats
You may be interested in the following articles in this site dealing with the general safety of veterinary products:
- Safety for humans
- Safety for domestic animals
- Safety for the environment
- Hazard classifications of pesticides
RESISTANCE PREVENTION
Risk of resistance? LOW, mainly in Australia.
- Organochlorines (e.g. DDT, dieldrin): introduced in 1946 in Australia, field resistance detected in 1957. Withdrawn for safety reasons in the 1970s.
- Organophosphates (e.g. diazinon, malathion): introduced in 1957 in Australia, field resistance detected in 1965. Withdrawn in Australia for safety reasons in the mid 2000s.
- Benzoylphenyl ureas (e.g. diflubenzuron): introduced in 1993 in Australia, field resistance detected in 2001. Claim for blowfly strike prevention removed in Australia in 2008. Since then approved only for lice control in Australia.
First cases of blowfly field resistance to the chemical classes mentioned above appeared usually about 10 years after product introduction. Other chemical classes such as synthetic pyrethroids (e.g. cypermethrin) and macrocyclic lactones (e.g. ivermectin) have been used only marginally for blowfly strike prevention during these years, i.e. it can be assumed that the selection pressure on blowflies exerted by chemicals of these two classes has been rather low.
In 2012 a first report on Lucilia cuprina cyromazine tolerance was reported (Resistance Factor = RF ~3) almost 40 years after the introduction of the first cyromazine product (VETRAZIN Liquid for dipping and jetting) in the late 1970s. In 2020 field resistance of blowfies to cyromazine has been reported for Lucilia cuprina in Australia with a RF of about 25. These blowflies have been reported to be also resistant to dicyclanil and ivermectin treatment.
To our knowledge no reports on resistance of blowflies (Lucilia cuprina, Lucilia sericata) to cyromazine have been reported in New Zealand, UK (and other EU-countries) or South Africa, regions where cyromazine has been also vastly used against blowfly strike for decades.
Alternative chemical classes/active ingredients to prevent resistance of blowflies through product rotation:
- Organophosphates (mainly diazinon). High blowfly resistance in Australia already. Withdrawn in Australia.
- Synthetic pyrethroids (e.g. α-cypermethrin). Short protection periods.
- Macrocyclic lactones (mainly ivermectin). Not available in all countries for blowfly strike prevention.
- Spinosad. Short protection periods. Not available in all countries for blowfly strike prevention.
- Benzoylphenyl ureas (mainly diflubenzuron, triflumuron). No more approved for blowfly strike prevention in Australia due to high resistance.
These alternative products may not be available in all countries, or may not be available as spray-ons/pour-ons.
Learn more about resistance and how it develops.
MARKETING
Are the active ingredients of this product ORIGINAL* or GENERICS**?
- GENERICS
*Meaning that they are still patent protected and generics are not yet available.
**Meaning that they have lost patent protection and may be acquired from manufacturers of generic active ingredients other than the holder of the original patent.
COUNTRIES where this brand/product is marketed: New Zealand
GENERIC BRANDS available? YES, several in Australia and New Zealand.
Click here to learn more about GENERIC vs. ORIGINAL drugs.
For an overview on the most used antiparasitic pour-on brands click here.
COMMENTS
CYROSHIELD Spray-on for sheep is a local brand from ALLEVA, basically a generic version of the original VETRAZIN Spray-on from CIBA-GEIGY (Now ELANCO).
Cyromazine is a so-called Insect Growth Regulator (IGR) belonging to the group of the Chitin Synthesis Inhibitors (CSI). It was introduced in the late 1970s (by CIBA-GEIGY, now ELANCO). It is a narrow-spectrum larvicide effective mainly against fly larvae. It is abundantly used in sheep, moderatly in poultry, and marginally in horses. So far it is not used in cattle, swine or pets. It is also moderately used in agricultural pesticides.
Chitin is a component of the cuticle of insects, which is an essential part of their outer skeleton. If chitin is not properly produced, fly maggots die when they attempt the next molt. However, cyromazine does not really inhibit chitin synthesis, but interferes with its correct deposition. The consequence is the same: Fly maggots cannot complete molting and die. Other CSIs such as the benzoylphenyl ureas (BPUs, e.g. diflubenzuron, triflumuron) do actually inhibit chitin synthesis. But whereas BPUs exert this effect an almost all insects, cyromazine is quite specific for Dipterans (flies, mosquitoes) and some beetles. This makes it much less harmful for the environment, but also ineffective against other sheep pests such as lice. Most IGRs have no lethal effect on adult insects.
As all IGRs, cyromazine does not immediately kill the fly maggots (larvae), i.e. it has no knockdown effect. Larvae will die at their next attempt to molt to the next developmental stage, which may take 1-4 days to occur, depending on age of the maggots at the time of treatment, humidity, temperature, etc. For this reason, cyromazine and other IGRs are usually not used for curing established strikes, but for preventing their development by killing the very small first-stage larvae that hatch out of the eggs deposited by the adult flies on the wool.
Cyromazine is quite soluble in water, in contrast with many other parasiticides that are rather lipophilic. This means that heavy rains may significantly shorten the length of protection of this and other cyromazine-based products.
DISCLAIMER
This article IS NOT A PRODUCT LABEL. It offers complementary information that may be useful to veterinary professionals and users that are not familiar with veterinary antiparasitics.
Information offered in this article has been extracted from publications issued by manufacturers, government agencies (e.g. EMEA, FDA, USDA, etc.) or in the scientific literature. No guarantee is given on its accuracy, integrity, sufficiency, actuality and opportunity, and any liability is denied. Read the site's DISCLAIMER.
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