Medine.co.uk

Eprimole 5 Mg/Ml Pour-On Solution For Beef And Dairy Cattle

Issued October 2016

AN: 00647/2013

SUMMARY OF PRODUCT CHARACTERISTICS


1. NAME OF THE VETERINARY MEDICINAL PRODUCT


Eprivalan 5mg/ml pour-on solution for beef and dairy cattle

EpriMole 5mg/ml pour-on solution for beef and dairy cattle (UK)


2. QUALITATIVE AND QUANTITATIVE COMPOSITION

Each ml contains:

Active substance:

Eprinomectin 5.0 mg


Excipients:

Butylhydroxytoluene (E321) 0.1 mg

For the full list of excipients, see section 6.1.


3. PHARMACEUTICAL FORM


Pour-on solution

A clear slightly yellow solution


4. CLINICAL PARTICULARS


4.1 Target species


Cattle (beef and dairy cattle)


4.2 Indications for use, specifying the target species


Indicated for the treatment and control of the following parasites:


PARASITE

ADULT

L4

Inhibited L4

Gastrointestinal Roundworms:


Ostertagla spp.


O. lyrata



O. ostertagi

Cooperia spp.

C. oncophora


C. pectinata


C. punctata


C. surnabada


Haemonchus placei


Trichostrongylus spp.


T. axei


T. colubriformis


Bunostomum phlebotomum


Nematodirus helvetianus


Oesophagostomum spp.



O. radiatum


Trichuris spp.



Lungworm:


Dictyocaulus viviparus



Warbles(parasitic stages)

Hypoderma bovis

H. lineatum


Mange mites

Chorioptes bovis

Sarcoptes scabieivar. bovis


Lice

Linognathus vituli

Haematopinus eurysternus

Damalinia bovis

Solenopotes capillatus


While mite and louse numbers decline rapidly following treatment, due to the feeding habits of the parasites, in some cases several weeks may be required for complete eradication.


PROLONGED ACTIVITY

Applied as recommended, the product controls reinfections with:

Parasite*

Prolonged Activity

Dictyocaulus viviparus

Up to 28 days

Ostertagia spp.

Up to 28 days

Oesophagostomum radiatum

Up to 28 days

Cooperia spp.

Up to 21 days

Trichostrongylus spp.

Up to 21 days

Haemonchus placei

Up to 14 days

Nematodirus helvetianus

Up to 14 days

*The following parasite species are included within each of the relevant genera: Ostertagia ostertagi, O.lyrata, Cooperia oncophora, C. punctata, C. surnabada, Trichostrongylus axei, T. colubriformis.


For best results the veterinary medicinal product should be part of a programme to control both internal and external parasites of cattle based on the epidemiology of these parasites.


4.3 Contraindications


This product is formulated only for topical application to beef and dairy cattle, including lactating dairy cattle. Do not use in other animal species. Do not administer orally or by injection.

Do not use in animals with known hypersensitivity to eprinomectin or to any of the excipients.


4.4 Special warnings for each target species


Care should be taken to avoid the following practices because they increase the risk of development of resistance and could ultimately result in ineffective therapy:

Suspected clinical cases of resistance to anthelmintics should be further investigated using appropriate tests (e.g. Faecal Egg Count Reduction Test). Where the results of the test(s) strongly suggest resistance to a particular anthelmintic, an anthelmintic belonging to another pharmacological class and having a different mode of action should be used.


To date no resistance to eprinomectin (a macrocyclic lactone) has been reported within the EU. However resistance to other macrocyclic lactones has been reported in parasite species in cattle within the EU. Therefore, use of this product should be based on local (regional, farm) epidemiological information about susceptibility of nematodes and recommendations on how to limit further selection for resistance to anthelmintics.


For effective use, the product should not be applied to areas of the backline covered with mud or manure. The product should be applied only on healthy skin.


To avoid secondary reactions due to the death of Hypoderma larvae in the oesophagus or in the spine, it is recommended to administer the product at the end of warble fly activity and before the larvae reach their resting sites.


4.5 Special precautions for use


Special precautions for use in animals

For external use only.

Not to be used in other species; avermectins can cause fatalities in dogs, especiallyCollies, Old English Sheepdogs and related breeds and crosses, and also in turtles/tortoises.


Special precautions to be taken by the person administering the veterinary medicinal product to animals



Other precautions

Eprinomectin is very toxic to dung fauna and aquatic organisms and may accumulate in sediments.

The risk to aquatic ecosystems and dung fauna can be reduced by avoiding too frequent and repeated use of eprinomectin (and products of the same anthelmintic class) in cattle.

The risk to aquatic ecosystems will be further reduced by keeping treated cattle away from water bodies for two to four weeks after treatment.


4.6 Adverse reactions (frequency and seriousness)


In very rare cases, pruritus and alopecia have been observed after the use of the veterinary medicinal product.


The frequency of adverse reactions is defined using the following convention:

- very common (more than 1 in 10 animals displaying adverse reactions during the course of one treatment)

- common (more than 1 but less than 10 animals in 100 animals)

- uncommon (more than 1 but less than 10 animals in 1,000 animals)

- rare (more than 1 but less than 10 animals in 10,000 animals)

- very rare (less than 1 animal in 10,000 animals, including isolated reports).


4.7 Use during pregnancy, lactation or lay


Pregnancy:

Can be used during pregnancy.

Studies have demonstrated a wide safety margin. Studies conducted at three times the recommended use level of 0.5 mg eprinomectin/kg b.w. had no adverse effect on breeding performance of cows or bulls.


Lactation:

May be used in dairy cattle during all stages of lactation.


4.8 Interaction with other medicinal products and other forms of interaction


None known.


4.9 Amounts to be administered and administration route


To ensure administration of a correct dose, bodyweight should be determined as accurately as possible and accuracy of the dosing device should be checked. If animals are to be treated collectively rather than individually, they should be grouped according to their bodyweight and dosed accordingly, in order to avoid under- and over- dosing.


Administer only by topical application at the dose rate of 0.5 mg eprinomectin per kg bodyweight, corresponding to the recommended dose rate of 1 ml per 10 kg bodyweight. The product should be applied topically by pouring along the backline in a narrow strip extending from the withers to the tailhead.


Squeeze-Measure-Pour System (250 ml and 1 litre bottles)

Attach the metering cup to the bottle. Set the dose by turning the top section of the cup to align the correct bodyweight with the pointer on the knurled cap. When bodyweight is between markings, use the higher setting.

Hold the bottle upright and squeeze it to deliver a slight excess of the required dose as indicated by the calibration lines. By releasing the pressure, the dose automatically adjusts to the correct level. Tilt the bottle to deliver the dose. For the 1 litre bottle: when a 100 kg (10 ml) or 150 kg (15 ml) dose is required, turn the pointer to “STOP” before delivering the dose. The off (STOP) position will close the system between dosing.


Back-pack (2.5 and 5 litre)

Connect the dosing gun and draw-off tubing to the back-pack as follows:

Attach the open end of the draw-off tubing to an appropriate dosing gun.

Attach draw-off tubing to the cap with the stem that is included in the pack.

Replace shipping cap with the cap having the draw-off tubing. Tighten the draw-off cap.

Gently prime the dosing gun, checking for leaks.

Follow the dosing gun manufacturer’s directions for adjusting the dose and proper use and maintenance of the dosing gun and draw-off tubing.

Rainfall at anytime before or after treatment will not affect the efficacy of the product.


4.10 Overdose (symptoms, emergency procedures, antidotes), if necessary


No signs of toxicity appeared when 8-week old calves were treated at up to 5x the therapeutic dose (2.5 mg eprinomectin/kg b.w.) 3 times at 7-day intervals.

One calf treated once at 10x the therapeutic dose (5 mg/kg b.w.) in the tolerance study showed transient mydriasis. There were no other adverse reactions to the treatment.

No antidote has been identified.


4.11 Withdrawal periods


Meat and offal: 15 days

Milk: Zero hours


5. PHARMACOLOGICAL PROPERTIES


Pharmacotherapeutic group: Antiparasitic products, Avermectins.

ATCvet code: QP54AA04


5.1 Pharmacodynamic properties


Eprinomectin is a member of the macrocyclic lactone class of endectocides which have a unique mode of action. Compounds of the class bind selectively and with high affinity to glutamate-gated chloride ion channels which occur in invertebrate nerve or muscle cells. This leads to an increase in the permeability of the cell membrane to chloride ions with hyperpolarization of the nerve or muscle cell, resulting in paralysis and death of the parasite.

Compounds of this class may also interact with other ligand-gated chloride channels, such as those gated by the neurotransmitter gamma-aminobutyric acid (GABA).


The margin of safety for compounds of this class is attributable to the fact that mammals do not have glutamate-gated chloride channels; the macrocyclic lactones have a low affinity for other mammalian ligand-gated chloride channels, and they do not readily cross the blood-brain barrier.


5.2 Pharmacokinetic particulars


Metabolism

The bioavailability of topically applied eprinomectin in cattle is about 30% with most absorption occurring by about 10 days after treatment. Eprinomectin is not extensively metabolized in cattle following topical administration. In all biological matrices, the B1acomponent of eprinomectin is the single most abundant residue.

Eprinomectin consists of the components B1a(90%) and B1b(10%) which differ by a methylene unit. Metabolites amount to approximately 10% of the total residues in plasma, milk, edible tissues and faeces.


The metabolism profile is nearly identical, qualitatively and quantitatively, in the above biological matrices and does not change significantly with time after administration of eprinomectin. The percent contribution of B1aand B1bto the overall metabolite profile remains constant. The ratio of the two drug components in the biological matrices is identical to that in the formulation demonstrating that the two eprinomectin components are metabolized with nearly equal rate constants. Since the metabolism and the tissue distribution of the two components are quite similar, the pharmacokinetics of the two components would be also similar.

Since the two components of the closely related avermectin and ivermectin were found to be equally efficacious, it may be concluded that this also applies to the two eprinomectin components.
The contribution of eprinomectin B1ato the total radioresidue level remained relatively constant between 7 days and 28 days after treatment - for example, between 84% and 90% in liver, the proposed principal target tissue.


Maximum plasma concentration

Pharmacokinetic studies were conducted in nongravid, nonlactating dairy cows which were dosed with eprinomectin by i.v. (25, 50, and 100 mcg/kg doses) and topical (500 mcg/kg) routes in a cross-over design. The plasma clearance was independent of i.v. dose, indicating that the plasma concentration increased proportionally to the dose. Following topical administration, peak plasma concentrations of 22.5 ng/ml (range 17.2 - 31.9 ng/ml) were observed 2 - 5 days postdose. Bioavailability of eprinomectin by the topical route was 0.29 (range 0.21 - 0.36).

Most of the drug absorption occurred within 7 - 10 days postdose.

The mean residence time (the average time it takes the animal to clear the drug from the time of absorption) of topically administered eprinomectin was calculated to be 165 hours.


Tissue residues

The level of total residues in tissues of beef cattle and lactating dairy cows was of the same order with liver > kidney > fat > muscle.


The distribution of total residue in edible tissues differs from that seen with other macrocyclic lactones such as abamectin and ivermectin. For these compounds, residue concentrations in fat were much closer to those in liver, and fat contained significantly higher total residue concentrations than kidney, whereas the eprinomectin residue concentrations in fat were much lower than those in liver and kidney.


The half-life for depletion of total residue was about 8 days for all 4 tissues in cattle. Eprinomectin B1aconcentration depleted at a similar rate to that of total residue.


Milk residues

Twenty dairy cows were treated with unlabeled eprinomectin at the recommended dose of 0.5 mg/kg of body weight. The maximum concentration of eprinomectin B1ain milk ranged from < 2.3 ng/ml (the limit of quantitation) to 11.36 ng/ml, with the peak occurring 2-3 days after treatment in most of the animals.


Excretion

Faeces was the major route of elimination of the drug in beef cattle and dairy cows.

In beef cattle, faeces and urine were collected from 2 steers, and the amount of drug excreted up to 28 days after dosing was determined as 15-17% and 0.35% in faeces and urine, respectively.

A further 53-56% of the dose was recovered from the skin at the application site collected from 3 animals sacrificed at 28 days after dosing.


Environmental properties

See section 4.5 (other precautions).

Like other macrocyclic lactones, eprinomectin has the potential to adversely affect non-target organisms. Following treatment, excretion of potentially toxic levels of eprinomectin may take place over a period of several weeks. Faeces containing eprinomectin excreted onto pasture by treated animals may reduce the abundance of dung feeding organisms which may impact on the dung degradation. Eprinomectin is very toxic to aquatic organisms and may accumulate in sediments.


6. PHARMACEUTICAL PARTICULARS


6.1 List of excipients


Butylhydroxytoluene (E321)

Propylene glycol octanoate decanoate


6.2 Incompatibilities


In the absence of compatibility studies, this veterinary medicinal product must not be mixed with other veterinary medicinal products


6.3 Shelf life


Shelf life of the veterinary medicinal product as packaged for sale: 3 years

Shelf life after first opening the immediate packaging: see expiry date.


6.4 Special precautions for storage


Keep the bottle in the outer carton in order to protect from light.


6.5 Nature and composition of immediate packaging


The veterinary medicinal product is available in four pack sizes: HDPE bottle (250 ml and 1 litre) or back-pack (2.5 litre and 5 litre) with induction sealed tamper evident HDPE screw on cap, containing a screw on dosing device capable of delivering measured amounts of product.

The 250 ml bottle uses a 25 ml dispenser (screw-on-squeeze-and-pour measuring chamber).

The 1 litre bottle uses a 50 ml dispenser (screw-on-squeeze-and-pour measuring chamber).

The 2.5 litre and 5 litre back-packs are designed for use with a suitable automatic dispensing gun.


Not all pack sizes may be marketed.


6.6 Special precautions for the disposal of unused veterinary medicinal product or waste materials derived from the use of such products


Dangerous to fish and aquatic life.

Do not contaminate surface waters or ditches with the product or used container.

Any unused veterinary medicinal product or waste materials derived from such veterinary medicinal products should be disposed of in accordance with local requirements.


7. MARKETING AUTHORISATION HOLDER


Merial Animal Health Limited

PO Box 327, Sandringham House

Harlow Business Park

Harlow

Essex

CM19 5TG


8. MARKETING AUTHORISATION NUMBER


Vm 03327/4281


9. DATE OF FIRST AUTHORISATION


10 October 2016


10. DATE OF REVISION OF THE TEXT


October 2016



Approved: 10/10/2016

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