BE1018708A3 - METHOD FOR COMBATING INSECTS - Google Patents

Abstract

This invention relates to the use of an ectoparasite control composition comprising a volatile and a non-volatile silicone, characterized in that the volatile silicone has a viscosity of at least 0.5 cS and the non-volatile silicone has a viscosity of up to 15,000 cS.

Description

Method for controlling insects.

This invention relates to a composition for treating ectoparasites, in particular for treating head lice in humans and animals, according to the preamble of the first claim.

Despite the fact that a large range of treatment agents has been developed, infection of the scalp by head lice remains a common phenomenon, especially among school children. The resources available to date show varying results, due to the complexity of the problem. Lice are very mobile, they spread quickly through contact and can produce many nits during their lifetime, which break out after about 10 days. So eradication of the infection requires not only killing the head lice itself, but also the nits that often survive longer after an eradication treatment than the lice themselves. This means that the means must be able to exert its effect throughout the entire age of the nits. In addition, the outside of the nits is formed by a protective shield in which the nits are trapped and whose permeability to insecticides varies. This greatly complicates the eradication of lice once an infection has occurred.

A well-known method for controlling head lice is combing the hair with a very fine comb that not only takes the adult lice, but which is also capable of detaching the nits from the hair and taking the nits along. However, this combing is extremely painful and must be repeated daily for a long time. The application of vegetable oils is another method, the purpose of which is to choke the lice. However, removing the oil requires the use of strong detergents that can seriously damage hair and scalp.

Other known methods use a silicone-containing coating on the hair that facilitates the release of the nits. The use of shampoo containing insecticides to destroy the lice is usually experienced as a nuisance due to the unpleasant odor and potentially toxic reactions. In Germany, for example, there is an agent on the market that contains a mixture of various active substances, in particular allethrin, lindane, permethrin and pyrethrum. Although each of these active substances is effective in itself, their use is best avoided from a toxicological point of view. Because it has been established that insects have since built up resistance to many of these insecticides, other polysiloxane-based agents have been developed that are relatively inert to skin and hair. Their effect is based on the physical suffocation of the insects. Such compositions are described, inter alia, in EP-A-1993363, US-A-4,146,619, EP-A-1215965 and W0980103Z

EP-A-1993363 describes a highly portable composition which has a low surface tension and which is effective for controlling head lice and nits. The composition contains 40 vols; % dimethicone with a viscosity of 1 cS and 50 vol. % dimethicone with a viscosity of 100 cS and a spreading agent. The presence of a triglyceride spreading agent appears to be necessary to guarantee a reasonable amount of killing of older nits. The formulation is believed to penetrate into the trachea of the lice and larvae and to the aeropyls of the nits, where the volatile siloxane evaporates, the formulation thickens and causes suffocation.

It is known from US-A-4,146,619 that undiluted dimethicone with a viscosity between 22.5 and 12,000 cS is capable of causing an almost complete killing of lice. The same effect is achieved by using a solution of approximately 10 vol. % dimethicone or more in isopropanol. Nits, however, are only partially killed.

EP-A-1215965 describes the use of a composition for controlling lice that contains 95.5 - 97.5 volume% of a volatile polysiloxane and 2.5 - 4.5 volume. % of a non-volatile polysiloxane. The composition has a viscosity between 1 and 35 ° cS, preferably between 15 and 35 cS. At least one of both polysiloxanes is not a linear alkyl or aryl siloxane with a viscosity of less than 20,000 cS. The non-volatile polysiloxane remains on the hair as a coating, which acts as a lubricant and facilitates the combing of nits. The volatile siloxane is preferably a mixture of a cyclopentasiloxane and a cyclohexasiloxane. The non-volatile siloxane is preferably dimethicone, more preferably dimethicone. Although these compositions have a good effect against lice, their action against nits is still insufficient.

WO9801032 describes an arthropod repellent repellent that is better tolerated by the skin and that contains 1-15% by volume of an arthropod repellent, 1-10% by weight of a silicone polymer; 50 - 98 wt.% Of one or more cyclic silicones, and optionally further auxiliaries or solvents.

Although the compositions known from the prior art show good effectiveness in destroying adult lice, their effectiveness against a few days old nits is insufficient, leaving a risk that the infection will resurface.

The object of this invention is therefore to provide a means for controlling insects, in particular human and animal head lice, which is capable of causing not only a complete killing of the lice but also of the larvae and nits regardless of how old they are.

This is achieved according to the invention with a composition which has the technical characteristics of the characteristic of the first claim.

To that end, the composition of this invention is characterized in that the composition contains a volatile polysiloxane with a viscosity of at least 0.5 cS and a non-volatile polysiloxane with a viscosity of at most 15,000 cS.

The inventors have found that the composition of this invention is capable of not only effecting efficient killing of the insects, in particular the lice, but that a more efficient killing of the larvae and nits can also be achieved. The inventors attribute this effect to the fact that due to the presence of the lower viscosity polysiloxane and by limiting the viscosity of the higher viscosity polysiloxane, the composition has a viscosity sufficiently low. Thereby, not only a better distribution of the composition over the body of the insects, larvae and nits in the accessible body openings is provided, but also an increased uptake in the accessible body openings. Due to the lower viscosity, in particular a better distribution and absorption in the tracheae of the insects and in the aeropyls of the nits is achieved. The improved spread and increased uptake has the effect that the nits can be killed with increased efficiency, requiring fewer repetitions of the treatment to achieve complete disinfection.

The low viscosity polysiloxane acts as a solvent and spreading agent for the somewhat higher viscosity polysiloxane. Due to the optimum control of the viscosity of both polysiloxanes, the use of a spreading agent can be dispensed with to guarantee a sufficient distribution of the composition when applied to hair and skin. This is an advantage. - -

The volatility of the low viscosity polysiloxane used according to the invention is such that evaporation occurs sufficiently slowly so that a good flow of the entire composition into the accessible body openings of lice and nits is guaranteed and it is ensured that the composition with the non-volatile pdlysiloxane ends up in the body openings where she must exert her occlusive effect. The volatility of the low viscosity polysiloxane used in accordance with the invention is also such that it contributes at least temporarily to closing accessible body cavities of the insect, in particular the lice, the nits and the larvae: As a result, the volatile polysiloxane is capable of enhance the surface occluding effect of the non-volatile polysiloxane. The volatility of the low-viscosity polysiloxane used according to the invention is further such that evaporation occurs sufficiently slowly so that the high-viscosity polysiloxane is able to form a sufficiently occlusive film which permanently closes the body openings and causes suffocation. "

The inventors have further found that the non-volatile polysiloxane forms a closed film after evaporation of the volatile polysiloxane, which is sufficiently thick to ensure occlusion of the accessible body cavities and cause suffocation. On the other hand, the film formed appears to be somewhat flexible and able to yield with movement of the insect and to show a minimal risk of breaking. It usually takes some time for the insects to die after applying the composition and during this time they remain mobile. The flexibility of the film formed is important since cracks in the film provide the accessibility of air to the body openings, and adversely affect mortality. The inventors explain the improved effectiveness of the composition of this invention by optimum control of the viscosity and thus the volatility of the low viscosity polysiloxane and the high viscosity polysiloxane. As a result, the evaporation rate and consequently also the film formation can be controlled.

The non-volatile polysiloxane has a great affinity for the hair and most of the time a few washes are needed to remove it. However, this offers the advantage that the non-volatile polysiloxane forms a coating on the hair which facilitates combing of nits, makes it difficult to adhere new nits and thus has a preventive effect against the lice returning.

The volatile polysiloxane preferably has a viscosity of at least 1 cS and at most 40 cS. The volatile polysiloxane can be a mixture of two or more different polysiloxanes which can have the same or different volatility and which can have substantially the same or a different viscosity. The non-volatile polysiloxane preferably has a viscosity of at least 500 cS and at most 13,000 cS. The non-volatile polysiloxane can be a mixture of two or more different polysiloxanes that can have the same or a different volatility, and that can have substantially the same or a different viscosity.

Use is made in this invention of the kinematic viscosity, in particular the ratio between the viscosity and the density of the polysiloxane, expressed in centi Stoke (cS).

By volatile polysiloxane is meant a polysiloxane that has a measurable vapor pressure at 25 ° C, these are usually liquids with a boiling point higher than 100 ° C, preferably higher than 50 ° C, and a viscosity lower than about 40 cS. By non-volatile polysiloxane is meant a polysiloxane that has a viscosity higher than 100 cS, preferably higher than 500 cS.

The concentration of the volatile and non-volatile polysiloxane in the composition of this invention can vary within wide limits depending on the practical form in which the composition is used. The non-volatile polysiloxane is preferably present in an amount ranging from 1 to 50 volts. % relative to the volume of the composition, more preferably 1-10 vol. %, most preferably 2-5 vol. %.

The volatile polysiloxane is preferably present in an amount ranging from 50-98 vol. % relative to the volume of the composition, more preferably 90-99 vol. %, most preferably 95-98 vol. %.

Suitable polysiloxanes can be selected from a wide range of known compounds that are suitable for use in care and cosmetic products such as shampoos and conditioners. Suitable polysiloxanes include linear alkyl or aryl polysiloxanes which may or may not be branched, which may or may not contain functional groups such as, for example, OH, COOH, CONH2, NH2 and others, and silicone polymers or mixtures of two or more of the the aforementioned polysiloxanes. Suitable include those that meet the formula

R3-Si-O - [SiR2] n-SiR3 formula I

wherein n is an integer that usually ranges from 1 to about 10,000, preferably from 1 to 5000 - R is a linear, branched or cyclic alkyl group or an aryl group of 1-15 carbon atoms, which may or may not be substituted. The R groups per se may also contain functional groups, for example one or more saturated, mono- or poly-unsaturated alkyl groups, OH, NH 2, ester, alkoxy groups, an ether or a polyether. The polysiloxane can contain one or more terminal OH groups. Preferably, R is a methyl or a phenyl group. The polysiloxane can also contain methyl and phenyl groups.

To achieve the desired insecticidal effect, one can choose to use one type of linear polysiloxanes or a mixture of two or more different ones. In addition, it is possible to use a linear polysiloxane that is a mixture of two or more polysiloxanes with a different molecular weight and thus a different viscosity, or not. Most preferably, the linear polysiloxane is a dimethyl polysiloxane, more preferably dimethicone or dimethiconol. Dimethicon is commercially available with Dow Corning type 200 in a wide range of viscosities that range from 20 cs to 15,000 cs. Other commercially available types are Q2-8Ö75, 556, 2502; èi24. Polyether branched polysiloxanes are commercially available as Dow Corning 190 and 193.

Depending on the value of ri in formula I, the polysiloxane will be volatile or non-volatile. Volatile are usually those where n is a maximum of 4.

Suitable cyclic polysiloxanes include those that conform to the formula

- [SiR 2 -O] m formula II

wherein m is an integer and R is as described above. Preferably, however, R is not H or OH. Depending on the nature of R and the value of m, the cyclic polysiloxane will be volatile or non-volatile and its viscosity will be higher or lower. For a non-volatile polysiloxane where R is methyl, m is greater than 7.

Preferably, however, R is a methyl group and m is 4, 5 or 6 and the cyclic polymethylsiloxane is volatile. Examples of suitable volatile cyclic siloxanes. are cyclopentasiloxane, cyclohexasiloxane, in particular decamethylcyclopentasiloxane, dodecamethylcyclohexasiloxane, octamethylcyclotetrasiloxane, hexamethylcyclo-trisiloxane or mixtures thereof. Preferably, however, a commercially available cyclomethicone is used which is a mixture of different polydimethylcyclosiloxanes, for example Dow Corning 245 (cyclopentasiloxane) and Dow Corning 345 (a mixture of cyclopentasiloxane and cyclohexasiloxane).

The ratio between the non-volatile and volatile polysiloxanes is preferably chosen such that the viscosity of the composition is such that it can be easily applied and exhibits the intended insecticidal activity. The viscosity of the finished composition suitable for use will preferably be high enough to ensure a sufficiently slow flow! This is necessary to make sure that all parts to be treated are sufficiently covered. However, the viscosity of the composition to be applied is also such that penetration into the body cavities of the insects, their larvae and nets is possible. Therefore, the viscosity of the finished composition including additives will usually be 5-50 cS.

In addition to the volatile and non-volatile polysiloxane, the composition of this invention may also contain the usual additives such as disinfectants, anti-inflammatory drugs. insect repellants, agents that have a calming effect on the skin such as jojoba and chamomile and preservatives. The concentration of these additives will usually not be more than 5 vol! % relative to the total volume of the composition. Examples of suitable additives are oils, for example, cedar oil, lavender oil, rosemary oil, lemon oil, mint oil, tea tree oil.

The invention also relates to the use of a composition for combating ectoparasites, which is a mixture of two or more of the polysiloxanes described above.

In carrying out a treatment, the composition of this invention is applied to the skin or pellets infected with lice, and left in contact with skin or fur for a sufficiently long time that can vary from a few minutes to several hours. The composition is usually applied in an amount ranging from 10-100 ml, often 20-50 ml, depending on the concentration of the active substances in the composition. The lice will usually be killed after a few minutes. Killing the nits may require more time, and therefore the solution is preferably left on the head or fur for a longer time. After the treatment is finished, head or fur is preferably washed with a mild shampoo to remove dead lice and nits. If necessary, the treatment can be repeated one or more times.

The composition of this invention can consist solely of polysiloxanes and applied as such to the skin to be treated in the concentrated form. However, it can also be further diluted with a suitable diluent if this facilitates application. When mixed with other components, however, it will be ensured that the polysiloxanes are present in a sufficiently high concentration, preferably in a concentration of at least 1 vol. %, more preferably at least 2 vol. %. However, the composition of this invention can also be processed into a form that facilitates application to hair, for example, a liquid, a gel, a cream, a lotion, an aerosol spray or a mousse. The composition may further contain one or more surfactants. The composition may, for example, take the form of a shampoo which has an insecticidal effect.

In the context of this invention, insect control is understood to mean repelling, reducing the number and eradicating insects, in particular ectoparasites, more in particular arthropods, in particular head lice. Fighting nits includes killing and lowering the survival of the nits. The composition of this invention is also suitable for prophylactic use.

The composition of this invention is suitable for combating arthropods, in particular insects, including ectoparasites and arachnids, in humans and animals. Ectoparasites include sucking and biting lice, fleas, mites, ticks. Sucking and biting lice (Anoplura, Mallophaga) are parasites that occur in almost all groups of mammals and include Haematopinus spp., Linognathus spp., Solenopotes spp., Pediculus spp., And Pthirus spp. Pediculus spp., In particular Pediculus humanus, for example the head lice pediculus humanus capitis and the body or clothing louse pediculus humanus humanus. Pthirus spp. includes the Pthirus pubis crab louse. It is believed that the composition of this invention is also suitable for controlling other non-mammalian arthropods such as cockroaches, wasps, mosquitoes, silverflies and wood lice, wood beetle, deathwatch beetles, and other wood-bearing insects.

The invention is further illustrated in the examples below.

A mixture of 4 vol. % dimethicone with a viscosity of 12,500 cS with 96 vol. % A volatile cyclomethicone is applied to the hairy scalp. In a first example 20 ml is applied, in a second example 50 ml, sufficient to completely cover the hair and scalp! The lotion is then allowed to work in for a while, preferably a few hours, for example 8 hours! Afterwards the lotion is washed out with a suitable shampoo and the hairs are combed with a fine comb to remove dead lice and nits.

Claims (10)

Use of a composition for controlling ectoparasites comprising a volatile and a non-volatile polysiloxane, characterized in that the volatile polysiloxane has a viscosity of at least 0.5 cS and the non-volatile polysiloxane has a viscosity of a maximum of 15,000 cS. Use according to claim 1, characterized in that the volatile polysiloxane has a viscosity of at least 1 cS and at most 40 cS. Use according to claim 1 or 2, characterized in that the non-volatile polysiloxane has a viscosity of a maximum of 13,000 cS. Use according to any one of claims 1 to 3, characterized in that the non-volatile silicone is present in an amount ranging from 1-50 volts. % of the composition and the volatile polysiloxane is present in an amount ranging from 50-99 vol! %. "" Use according to claim 4, characterized in that the non-volatile polysiloxane is present in an amount ranging from 1-10 vol. %, preferably 2-5 vol. % of the composition and the volatile polysiloxane is present in an amount ranging from 90-99 vol. %, preferably 95-98 vol. %. Use according to any one of claims 1 to 5, characterized in that the composition has a viscosity between 5 and 50 cS. Use according to any of claims 1 to 6, characterized in that the volatile polysiloxane is a cyclic polysiloxane. Use according to claim 7, characterized in that the volatile polysiloxane is a cyclopentasiloxane or a cyclohexasiloxane or a mixture thereof. Use according to any one of claims 1 to 8, characterized in that the non-volatile polysiloxane is a linear dimethyl polysiloxane. Use according to claim 9, characterized in that the linear dimethylpolysiloxane is dimethicone or dimethicone or a mixture thereof. "