NL1011681C2 - Method and composition for controlling lice. - Google Patents

Description

METHOD AND COMPOSITION FOR CONTROLLING LICE

The present invention relates to a method and device for controlling lice, in particular sea lice.

Sea louse is the common name of parasitic copepods, which are found at (marine) aquaculture production sites, where fish are farmed. In Northern Europe, especially Scotland and 10 Norway, sea lice are already the main threat to sea fish production sites and the problem is only increasing. Damage and mortality of the fish from sea lice infections are an important cost item in aquaculture. The problem also arises for sea-15 and brackish water fish farms and shrimp ponds in South East Asia, in particular in Thailand, the Philippines and Indonesia.

The parasitic sea louse copepods belong to the family of the Caliaidae. which includes 23 genera and 200 species. The main genera are Lepeophteirus, Cali-20 gus and Pseudocaliaus. because they can lead to high mortality. In Northern Europe, the main parasite is Lepeophtheirus salmonis and to a lesser extent Caliaus elongatus. Both belong to the Caliaidae and are ectoparasies on salmonids. The life cycle of L.salmonis comprises 25 10 stages, of which the 4 chalimus stages infect the salmon. They cling to the fish with claw-shaped antennae, penetrating the skin of the fish, causing skin lesions and large open wounds. Secondary bacterial and fungal infections then often cause the fish to die.

To combat the sea lice, hydrogen peroxide is often used, which is added to a treatment bath in an amount of about 1500 mg / l (see, for example, US-5,313,911 in name of Eka Nobel AB). However, the high volumes of hydrogen peroxide, as well as the limited efficacy and toxicity to the fish, do not make this an ideal method.

10116 P 1 2

Bath treatments with different types of pesticides are also used, such as Cyperme-trin ™, Nuvan ™ (active ingredient dichlorvos), Pyrethrum ™ and Dipterex ™ (active ingredient trichlorphon). These materials 5 can only be used under severe restrictions and have major drawbacks. They are not only toxic to the lice, but also harmful to the fish and the environment. In addition, residues of the substances accumulate in the fish and thus indirectly pose a risk to the consumer. Handling the substances also entails risks. Finally, these substances are not effective against every stage of development of the sea lice.

In view of the above, it is the object of the present invention to provide an effective, natural and environmentally friendly system, with which the lice can be controlled for the fish without too many disadvantages.

This is accomplished by the invention by a method of controlling lice on an organism comprising treating the organism with a composition comprising at least: a) lactoperoxidase; b) thiocyanate; and / or c) iodide; and d) a hydrogen peroxide source.

Although this method is particularly suitable for controlling sea lice, it can also be used to control other lice, such as aphids on plants, as lice on animals, such as head lice in humans.

The methods of administration are obviously not the same in the control of other lice species as in the control of sea lice. In the latter case, the agent is added to water, in which the fish remain for a longer or shorter period of time or in which they are immersed. Control of lice on plants can, for example, by spraying, while treatment of head lice can be effected by rinsing, smearing or spraying.

The composition consisting of lactoperoxidase, thiocyanate and / or iodide and hydrogen peroxide is most effective when the concentration thereof with which the lice come in contact for lactoperoxidase (LP) is 0.5 to 20 mg / l, preferably 1 to 10 mg / 1, more preferably 2.5 to 7.5 mg / 1 and most preferably about 5 mg / 1, for hydrogen peroxide is at least 10 10, preferably at least 50, more preferably at least 100 mg / 1 , for thiocyanate (SCN ') at least about 2.5 mg / l, preferably at least about 5 mg / l, more preferably at least about 10 mg / l, but up to 100 mg / l, and for iodide (I ') is at least about 5 mg / l, preferably at least about 30 mg / l, but at most 100 mg / l.

When reference is made in this application to "concentration with which the lice come into contact", this means the concentration as present in the treatment bath, in the case of sea lice or in the spray, or other form of administration in the case of other lice. By "composition" is also meant that in which the concentrations are equal to the treatment concentrations.

Such a composition for combating lice on an organism therefore comprises the following active substances: a) lactoperoxidase (LP) in an amount of 0.5 to 20 mg / l, preferably 1 to 10 mg / l, more preferably 2.5 to 7.5 mg / 1 and most preferably about 5 mg / 1; b) hydrogen peroxide in an amount of at least 10, preferably at least 50, more preferably at least 100 mg / l; c) thiocyanate (SCN ") in an amount of at least about 2.5 mg / l, preferably at least about 5 mg / l, more preferably at least about 10 mg / l, but at most 100 mg / l; and 10116 81 4 d) iodide (I ') in an amount of at least about 5 mg / l, preferably at least about 20 mg / l, but at most 100 mg / l In a preferred embodiment, the composition of the invention comprises : 5 mg / 1 lactoperoxidase, 10 mg / 1 thiocyanate, 30 mg / 1 iodide and 100 mg / 1 hydrogen peroxide.

This composition, in turn, can be made from a kit consisting of at least two 10 components.

The kit components are at least two components, the first component comprising lactoperoxidase, thiocyanate and / or iodide and the second component hydrogen peroxide. Supplying hydrogen peroxide separately prevents lactoperoxidase from becoming active in the package. The activity of the final composition could thereby decrease. However, a kit can also consist of more than two components, in addition to the separate hydrogen peroxide, the other components are supplied separately or in pairs of two. The components can each be individually in liquid or solid form. In particular, the component consisting of lactoperoxidase, thiocyanate and / or iodide is also part of the invention.

In a particularly advantageous embodiment of the kit, it comprises at least two components, the first component being a composition comprising lactoperoxidase in an amount resulting in a concentration with which the lice come into contact from 0.5 to 20 mg / l, preferably 1 to 10 mg / 1, more preferably 2.5 to 7.5 mg / 1, and most preferably about 5 mg / l, thiocyanate in an amount that results in a concentration at which the lice enter contact of at least about 2.5 mg / 1, preferably at least about 5 mg / 1, more preferably at least about 10 mg / 1, but at most 100 mg / 1 and / or iodide in an amount resulting in a concentration with which the lice come into contact of at least about 101168 ± 5 mg / 1, preferably at least about 20 mg / 1, but at most 100 mg / 1, and the second component is formed by a solution of hydrogen peroxide in an amount resulting in a conc entration, with which the lice come into contact of at least 10, preferably at least 50, more preferably at least 100 mg / l. Particular preference is given to a kit in which the first component consists of lactoperoxidase in an amount resulting in a concentration with which the lice come into contact of about 5 mg / l, thiocyanate in an amount resulting in a concentration with which the lice come in contact of about 10 mg / l and / or iodide in an amount resulting in a concentration with which the lice come in contact of about 30 mg / l, and the second component is formed by a solution of hydrogen peroxide in a amount resulting in a concentration with which the lice come into contact of 100 mg / l.

The composition can also be formed from a concentrated composition or a solid composition containing all ingredients. Adding this concentrated liquid or solid composition to water creates the desired treatment concentrations.

It is preferable to prepare the treatment bath before the fish are spawned therein. This prevents damage to the fish due to locally high concentrations of the various constituents, not yet dissolved or not yet well distributed by the water.

30 In order to save the health of the fish as much as possible, the treatment time is preferably kept as short as possible. Treatment times between 5 and 60 minutes are preferred. Although the agent according to the invention is much less toxic than the high concentrations of hydrogen peroxide or pesticides used hitherto, it is nevertheless preferable to limit the contact between fish and active substances as much as possible. Optionally, at 1011681 6 incomplete control, the treatment can be repeated at a later stage.

The invention further relates to the use of the composition, kit or components thereof for controlling lice in general and sea lice in particular. Also included by the invention is the use of the kit or its components for manufacturing the composition.

The invention will be further illustrated by the following examples. The composition of the invention is referred to herein as "LP system".

EXAMPLES EXAMPLE 1

In vitro tests with lactoperoxidase (LP) systems and sea lice 5

Sea lice egg sacs Lepeophteirus salmnis were collected and incubated for 5 days at 15 ° C in water with a salinity of 3.4 wt%. At that time the copepods developed into healthy 10 copies.

One or more of the components lactoperoxidase, iodide, thiocyanate and hydrogen peroxide were dissolved in seawater sterilized by ozone treatment and filtration. Then about 200 copepodides were added to each of these 15 solutions per liter and incubated for 20 minutes. The copepodides were then filtered, washed and placed again in clean seawater. After 1 hour, the percentage of surviving copepodides was determined.

The composition of the solutions and the survival of the copepodides therein are shown in Tables 1 and 2.

1011681 7

Table 1 Effect of individual components

Blank Only i "SCN only" Only 1 Alleen Only only

LP LP

Lactoperoxidaae, mg / 1 00 0 0 10 20 5 K-iodide, mg / 1 0 30 0 0 00 K-thiocyanate, CNG / 1 0 0 10 0 0 0 h 2 ° 2 <mg / 1 0 0 0 200 0 0 V survival after 1 hour 95 BB 86 93 90 69 10 Table 2 Effect of LP systems

Lactoperoxidaae, mg / 1 0 2.5 5 10 10 10 20 20 K iodide, mg / 1 0 30 30 30 30 30 30 30 K thiocyanate, mg / 1 0 10 10 10 10 10 10 10 15 HjOj, mg / 1 0 100 i00 10 50 100 100 200% survival after 1 hour 95 73 39 31 6 0 00

Tables 1 and 2 show that the individual components hardly have any effect on the sea lice, but the combination thereof in the LP system according to the invention does.

EXAMPLE 2 Sensitivity of fish to LP systems

Young salmon with an average weight of about 50 g. were exposed to solutions (in seawater) of the individual components and to complete LP systems. The table below shows the concentration.

30 -, 10 116 81 8 components group control 1 2 3 4 5 6

Lactoperoxidase mg / 1 0 10 0 0 5 2.5 1 K-thiocyanate mg / 1 0 0 10 0 5 2.5 2.5 5 K-iodide mg / 1 0 0 0 30 5 7.5 7.5 H202, mg / 1 0 0 o 0 100 100 100

Anyway, transferring young salmon to a new environment gives rise to stress symptoms, such as slightly increased gill cover activity and agitated surface swimming. After about 30 minutes, peace has almost returned.

Both in the control and in solutions of the individual components, these phenomena were observed with little or no difference between the control and individual components.

The stress responses with complete LP systems were markedly higher, at the lowest concentration (1 mg / 1 LP), after 30 minutes there was still agitated swimming behavior and moderately increased gill cover activity. Peace had only returned after 60 minutes.

At a concentration of 2.5 mg / 1 LP, these symptoms were more pronounced but still acceptable.

At a concentration of 5 ppm LP, stress symptoms were even more severe. After 60 minutes, the majority of the fish were still lethargic and swam uncoordinated. However, there were no deaths.

An experiment with larger salmon (approx. 500 g) and a system with 5 mg / 1 LP indicated that these fish were hardly affected by the treatment.

1011681 9 EXAMPLE 3

In vivo study of the effect of LP systems on fish "contaminated" by sea lice

In this example, the effect of an LP-5 system with 2.5 mg / 1 LP, 2.5 mg / 1 KSCN, 7.5 mg / 1 KI and 100 mg / 1 H202 is studied in a situation where young Atlantic salmon were "infected" with sea lice of L. salmonis.

10 1. Method

In four tanks of 1 m3 each, 40 young salmon of about 50g in their second year of life were kept in ozone-treated (> 750 Mv), carbon-filtered sea water at ambient temperature (14 ° C ± 1 ° C). Per tank, the fish were contacted with 1000 copepodides of L.salmonis for 1.5 hours and the lice were allowed to develop into pre-adult stages.

Counts were made prior to treatment and all tanks contained sufficient pre-20 adult stage lice. Then the treatments were started.

Two of the tanks (1 and 3) were treated with the LP system according to the invention (2.5 mg / 1 LP, 2.5 mg / 1 KSCN, 7.5 mg / 1 KI and 100 mg / 1 H202) for 20 to 25 minutes. Tanks 2 and 4 received identical seawater treatment. The sea water temperature was 15 ° C and it contained more than 8 mg / l oxygen. Samples were assessed at 1, 24 and 48 hours after treatment. Lice levels on the fish were recorded and compared to pre-treatment levels using student's t test.

2. Results

The results of the lice counts are shown in the table below. The lice counts are expressed per fish and are average values of 10 fish.

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Table 9

Sea louse counts: mean values per fish (n = 10) before treatment after treatment, after treatment, after treatment, 1 hour 24 hours 48 hours

Tank 1 ~ 4j5 33 Π O

(LP-s) <SEM - "·« *> (SEM · 0ί0) (SEM '0 44) eEM -0 J) Tïïkl - O - 31--33--51 (control) (sem -0.62¾ <sem -o.se) <sem -o.6i) (sem -o.4)

Tank 3 41 31 Π 53 (LP-S) «EM -0.731) (SEM -0.56) (SEM -0.41) (SEM -0.2)

Tank'S 51 Ti 53 51 (control) (sem-o «[) <sem -o.74) (sem -o.M) (sem -1.0«

Lazy levels

At 1 hour post-treatment, there was no significant reduction in lice levels in either group. After 24 hours, both treated groups had significantly fewer lice. 48 hours after treatment, there was a reduction of 63% and 53%, respectively (p <0.01). There was no significant reduction in lice levels in untreated controls.

10

Behavior of the dirty

In the eleventh minute during the treatment, the fish showed some agitation with an increase to fast swimming and jumping activity at 15 minutes. At 19 minutes 15, some fish became moribund and recovered only after the tank was flushed. There were no deaths.

Treatment with an LP system consisting of 2.5 mg / 1 LP, 2.5 mg / 1 KSCN, 7.5 mg / 1 KI and 100 mg / 1 H202 20 for 20 minutes was on average 58% effective against the sea lice . There seemed to be some effect on the fish, but it was not fatal. Because small fish were treated here at a high sea water temperature, this test was carried out under the worst possible conditions. Larger fish at a lower temperature will resis-5 tenter against the effects of an LP system.

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Claims (23)

A method for controlling lice on an organism, comprising treating the organism with a composition comprising at least: a) lactoperoxidase; b) thiocyanate; and / or c) iodide; and d) a hydrogen peroxide source. A method according to claim 1, characterized in that the hydrogen peroxide source is hydrogen peroxide itself or a system of glucose oxidase and glucose through which hydrogen peroxide can be generated. 3. Method according to claims 1 and 2, characterized in that the lice are sea lice and the organism is a fish or crustacean. Method according to claim 3, characterized in that the composition is added to the water in which the fish are kept. Method according to claims 1 and 2, characterized in that the lice are aphids and the organism is a plant. Method according to claims 1 and 2, characterized in that the lice are on an animal. A method according to claims 1 and 2, characterized in that the lice are head lice and the organism is human. Method according to claims 1-6, characterized in that the concentration of lactoperoxidase (LP) with which the lice come into contact is 0.5 to 20 mg / 1, preferably 1 to 10 mg / 1, more preferably 2, 5 to 7.5 mg / 1 and most preferably about 5 mg / 1. Method according to claims 1-7, characterized in that the concentration of hydrogen peroxide with which the lice come into contact is at least 10, preferably at least 50, more preferably at least 100 mg / l. 0 H 6 8 1 Method according to claims 1-8, characterized in that the concentration of thiocyanate (SCN ') with which the lice come into contact is at least about 2.5 mg / l, preferably at least about 5 mg / l, more preferably 5 is at least about 10 mg / 1, but up to 100 mg / 1. Method according to claims 1-9, characterized in that the concentration of iodide (I ') with which the lice come into contact is at least about 5 mg / l, preferably at least about 20 mg / l, but at most 100 mg / 1. A composition for controlling lice on an organism, comprising: a) lactoperoxidase (LP) in an amount of 0.5 to 20 mg / l, preferably 1 to 10 mg / 1, more preferably 2.5 to 7.5 mg / 1 and most preferably about 5 mg / 1; b) hydrogen peroxide in an amount of at least 10, preferably at least 50, more preferably at least 100 mg / l; c) thiocyanate (SCN ') in an amount of at least about 2.5 mg / l, preferably at least about 5 mg / l, more preferably at least about 10 mg / l, but at most 100 mg / l; and d) iodide (I ') in an amount of at least about 5 mg / l, preferably at least about 20 mg / l, but up to 100 mg / l, all amounts of active substance referring to the concentration of the active substance with which the lice come into contact. The composition of claim 11, comprising: 50 mg / l lactoperoxidase, 10 mg / l thiocyanate, 30 mg / l iodide, and 100 mg / l hydrogen peroxide. 13. A lice control kit on an organism, said kit comprising at least two components, the first component being a composition comprising lactoperoxidase in an amount resulting in a concentration at which: - '' 6 8 1 lice come in contact from 0.5 to 20 mg / 1, preferably 1 to 10 mg / 1, more preferably 2.5 to 7.5 mg / 1, and most preferably about 5 mg / 1, thiocyanate in a amount resulting in a concentration with which the lice come into contact of at least about 2.5 mg / 1, preferably at least about 5 mg / 1, more preferably at least about 10 mg / 1, but at most 100 mg / 1 and / or iodide in an amount resulting in a concentration with which the lice come into contact of at least about 5 mg / 1, preferably at least about 30 mg / 1, but up to 100 mg / 1, and the second component is formed by a solution of hydrogen peroxide in an amount that results t in a concentration with which the lice come into contact of at least 15, preferably at least 50, more preferably at least 100 mg / l. Kit according to claim 12, characterized in that the first component consists of lactoperoxidase in an amount resulting in a concentration with which the lice come into contact of about 5 mg / l, thiocyanate in an amount resulting in a concentration contacting the lice of about 10 mg / l and / or iodide in an amount resulting in a concentration contacting the lice of about 30 mg / l, and the second component being formed by a solution of hydrogen peroxide in an amount resulting in a concentration with which the lice come into contact of 100 mg / l. 15. Kit according to claims 13 and 14, characterized in that the first component is a concentrated liquid. Kit according to claims 13 and 14, characterized in that the first component has a solid shape. Component for use in a kit according to claims 13-16, comprising lactoperoxidase, thiocyanate and / or iodide in an amount that results in a concentration with which the lice come into contact as defined in claims 13 or 14.: {16 81 Use of a composition according to claims 11 and 12 for controlling lice on an organism. 19. Use of the kit according to claims 13-16 for manufacturing a composition according to claims 11 or 12. Use of a component according to claim 17 in a kit according to claims 13-16. 101168 1 COOPERATION TREATY (PCT) REPORT ON NEWNESS RESEARCH OF INTERNATIONAL TYPE I0ENTIFIKA7IE OF OE NATIONAL APPLICATION Characteristic of the applicant or of the authorized representative L / VB37 / 1 Dutch application no. Melkunie BV Date of the request for an investigation of an international type Granted by the International Research Agency (ISA) to the request for an investigation of an international type SN 32816 EN I. CLASSIFICATION OF THE SUBJECT MATTER When using different classifications, all classification symbols specify) According to International Classification (IPC) Int.Cl.6: A 01 N 63/00 II. FIELDS OF TECHNIQUE EXAMINED __ Minimum documentation examined Clause system C! Auificati yrnboien Int.Cl.6: A 01 N Documentation examined other than minimum documentation insofar as such documents are included in the areas examined 1. NO RESEARCH AT ALL FOR CERTAIN CONCLUSIONS (comments on supplementary sheet) Ύ- | | LACK OF UNIT OF INVENTION (comments on supplement sheet) / * orm hCT / ISA / 201 (a) 07.1979