FR3000649A1 - Interchangeable anti-ectoparasite accessory for e.g. comb in nurseries, has broad slots comprising length to allow aligned teeth to pass through, where accessory delivers optimal quantity of lipophilic active gent on hair or bristles - Google Patents

Abstract

The accessory (1) has individual circular openings comprising diameter corresponding to teeth of a comb, where the accessory is in shape of a bar having 0.5 cm to 2 cm wide for thickness of 0.3 cm to 0.6 cm and variable length according to type and a template of the comb. Longitudinal openings i.e. broad slots, have diameter of a tooth and length to allow aligned teeth to pass through, where the accessory lengthily delivers optimal quantity of anti-ectoparasite lipophilic active agent on hair or bristles in a dry state by friction during combing or brushing. An independent claim is also included for a method for obtaining an interchangeable anti-ectoparasite accessory for combs or brushes or human and animal use devices.

Description

The invention relates to an anti-ectoparasite accessory interchangeable and adaptable to combs or brushes, produced in flexible polymer matrix loaded with lipophilic active anti-ectoparasites or combination of anti-ectoparasite active ingredients, characterized in that may deliver a long-term optimal amount said anti-ectoparasite lipophilic active or said combination of anti-ectoparasite active on human hair or on the hair of an animal by friction during combing or brushing. In humans, pediculosis or infestation of the hair and scalp with lice is increasing despite hygiene rules sometimes rigorous. The problem is particularly acute among children in community (crèches, schools, centers, etc.), especially between 6 and 8 years. It seems that this increase in pediculosis is due to two factors: 1) the transmission method (direct contact) has always facilitated contamination; 2) In recent years, the increasing resistance that lice have developed against insecticides (pyrethroids and organophosphorus) makes their elimination very difficult To fight against ectoparasites, we mention in humans the lice and in animals the ticks, fleas, as well as other ectoparasites, the prior art describes various types of combs and brushes dedicated thereto. The adjustable spacing comb described by the patent FR2 677 234 (GROUILLET HERVE, -FR) (06/06/1991) proceeds by mechanical lifting of lice and nits hair for their removal. But this device has the disadvantage of being difficult to apply for abundant and long hair. Indeed, apart from the fact that said application is painful in some cases, lice and nits torn can fall back into the hair and continue contamination.

The double metal comb formed by two scissor-mounted combs and described by the US patent application US2010086577 (Jose Albedo Munoz, Michele Errico) (08/04/2010), combines a mechanical pulling action with an electrocution of the lice and slow. The device can heat up to - 2160 ° C. Its use can not be pleasant especially in children who are precisely the category of the population most exposed to ectoparasites. In the same way, a recontamination of the individual and his entourage by the un-killed lice remains possible. The electric anti-lice brush described by patent application WO2008022386 (MAOR Moshe) (28/02/2008), which also electrocutes lice and nits, is designed with a collector with an adhesive inner wall to permanently collect ectoparasites. and avoid the recontamination mentioned above. In both cases, the electrical device may present a danger for the users.

A very popular method of delousing is the application of shampoos, lotions and other creams containing chemicals often decried because of their side effects. The insecticidal molecules most used in the formulation of these products are Pyrethrins, Piperonyl Oxide, Malathion, Lindane, Permethrin or Carbaryl. European Patent EP 1051071 (EDEN RESEARCH PLC) (25/01/99) discloses the side effects attributed to some of these molecules, especially organophosphorus widely recognized as having toxic effects. This patent reports that Malathion for example is associated with the following toxic effects: nausea, vomiting, diarrhea, bronchoconstriction, blurred vision, excessive salivation, muscle fasciculations, cyanosis, convulsions, coma and respiratory failure. It must be said that there is a new approach that minimizes the effect of insecticides. The director of Cambridge Medical Entomology Center (Mr lan Burgess) has developed a new type of treatment in the fight against lice thanks to a molecule called dimeticone 4%. This new generation of treatment has a physical action (unlike insecticides whose action is chemical): while insecticides act on the nervous system of lice, these new molecules suffocate the louse by wrapping it in a kind of plastic film and by blocking its respiratory openings. A few seconds are enough for the louse can no longer move. 30 Even washing will not free it from its envelope. This technology is developing and led for example to POUXIT XF which is a derivative formulation composed of Dimeticone 4% + Penetrol®. Penetrol®, a patented molecule associated with -3 Dimeticone, allows a better penetration of Diméticone in the orifices of the nits and thus potentiates the lenticidal activity of Diméticone. But all these substances, however effective they are, are applicable according to the review of the art in a liquid medium, with the disadvantages of liquid applications. The application of the various marketed specialties requires that the active agent be allowed to act for at least ten minutes and up to several hours to obtain the pediculicidal effect, during which time the toxic molecules stay on the epidermis. Moreover, we note the development by parasites of a resistance to these molecules. To overcome these disadvantages, said patent EP 1051071 recommends replacing the chemical molecules with a composition based on active ingredients which are terpenes. The author claims that the preferred terpenes have "Generally Regarded As Safe" status, granted by the United States Environmental Protection Agency, and have been in use for many years. in the aroma and perfume industry. Nevertheless, the use of shampoos and lotions pediculicides has constraints related to the rather long duration of the application protocol and the conditions required to perform the protocol: find the right time, duration of the operation, a lot of water before and after use, flow in the eyes and even the mouth and ears. Another design against ectoparasites is based on the use of insecticides directly associated with hair or hair treatment devices. It is in this context that US Pat. No. 4,826,232 (Helmut Metzner, Alan B. Marshall) (05/09/1989) recommends combs and brushes whose teeth are coated with a preparation containing an insecticide mixed with wax. in the molten state between 110 ° C and 120 ° C. By cooling, the wax takes on the teeth of the comb or brush and can deliver the asset by rubbing on the hair or the hair. But in addition to the fact that the insecticidal wax can flake and come off the teeth of the comb or brush, these devices lose their main function when all the insecticide has been consumed or even just after a long period of storage. As a result, they become useless for their field of application. This situation is similar to that of combs and toothbrushes of polymers impregnated with insecticides described by patent applications EP0262512 (Falchieri Roberto) (06/04/1988) and WO 92/15198 (BOOTH Anthony R.) (17 / 09/1992), as well as European Patent EP0122605 (THE WELLCOME FOUNDATION LIMITED) (12/10/1988). Indeed, when the impregnated asset is exhausted, these various devices lose their fundamental utility in their field of application. There is still a design with renewable insecticide that allows to sustain the application device. This is the case of the insecticide powder dispensing brush contained in a reservoir and described by US Pat. No. 4,143,982 (Robert H. Cox) (March 13, 1979). The powder is distributed over the coat more or less randomly, with unsightly excesses in places, which may present a risk of intoxication for the animal and those who touch it. It is also this same design that has resulted in the development of an applicator comb to distribute on the hair a liquid active viscosity widely ranging between 2 and 200 mPas. This device described by the Canadian patent application CA2766508 (G. POHL-BOSKAMP GMBH & CO, KG, DE) (28/12/2010), has the disadvantage of leaving on the hair of the liquid asset which can be relatively long to dry, which poses a risk of transdermal and tactile toxicity. In view of the prior art, it is further apparent that the cost of anti-ectoparasite treatments using devices associated with at least one insecticide is increased by the fact that in most cases, the depletion of the insecticide , the device becomes unusable for this application, or for any application. In the case where the device is reusable after renewal of the asset, the mode of application has a disadvantage related to the quality of the random distribution of the insecticide directly on the epidermis, which may be the cause of intoxications for the person treated, the treated animal or persons in contact with a treated animal.

In another field, patent EP 0 600 004 (THE GILLETTE COMPANY) (13.08.1992) discloses a toothbrush whose bristles are fixed in a hydrophilic sustained release matrix by progressive dissolution of a hydrophilic active for -5 application dental. The device concerned, which releases the active agent by hydrous dissolution, experiences wear by hydrous solubilization of one of the two layers of the matrix and does not seem applicable to the case of the subject of the present application. Indeed, the asset is solubilized at the same time as the matrix before acting on the target. This device which is limited to use necessarily in the presence of water or an aqueous liquid, has the disadvantage of not being useful for the depletion of the asset corresponding to the wear of the water-soluble layer of the matrix. There is therefore a technological need to avoid the disadvantages of the previous techniques presented above. The Applicant masters the technology of active polymers by the incorporation of lipophilic or formulated as such active ingredients in a lipophilic polymer matrix, which technology is described by the following patents and patent applications: FR 2,901,096, FR 2,901,132, FR 2 901 172, FR 2 921 541, EP 2 244 579, AU 2008339883, CA 2 738 403, US 20100226952, FR 2 956 345, FR 2 959 396 and FR 12/01794. Similarly, the Applicant masters the formulation of active ingredients based on synthetic active ingredients or molecules of natural origin, including terpenes, in the form of compositions or formulations of lipophilic character, which can be incorporated in lipophilic polymers, as described, for example by the following patents and patent application: FR 2,906,441, FR 2,951,645 or FR 11/03610. The present invention, which stems from the technologies already mastered by the Applicant, aims at the development of interchangeable anti-ectoparasite accessories adaptable to combs, brushes or other devices of common human or animal use, formed of matrix flexible lipophilic polymer loaded with active (s) lipophilic (s) or rendered as such and delivered for a long time in the dry state and at optimal doses by simple friction of said accessories on the hair or the hair, during combing or brushing Said active (s) lipophilic anti-ectoparasites (s) or rendered as such loaded in the accessories according to the invention formed of flexible lipophilic polymer matrix, can be in the liquid or powder form, formulated so as to present a lipophilic character even if the active ingredient is initially hydrophilic. It is thus possible to associate in the same matrix and by formulation substances with various or complementary effects. It is thus possible to mix a repellent with an insecticide, a repellent with a physical effect molecule such as Dimeticone 4% or Pouxit XF. The mode of release of said lipophilic active agent (s) anti-ectoparasites content (s) in the matrix of the accessory according to the invention is in the dry state and optimal doses by simple friction of said accessory on the hair or the hair when combing or brushing. The anti-ectoparasite lipophilic active ingredient (s) is then deposited in dry microfilm on the hair or hair. The anti-ectoparasite accessories according to the invention whose asset is exhausted can be exchanged on the same devices by new accessories loaded with active. Very advantageously, the accessory according to the invention can give the comb or the brush to which it is adaptable a triple action: mechanical, insect repellent and chemical or physical insecticide according to the formulation. This characteristic object of the present invention is set forth more elaborately in the detailed description of the embodiments of the preferred forms of accessories shown below, made with the drawings in which: FIG. 1A is a perspective view, not at the ladder, of a bar-shaped anti-parasitic accessory made of flexible polymer matrix loaded with anti-ectoparasite active principle, applicable to a comb and uniformly carrying individual circular orifices (Q); FIG. 1B is a perspective view, not to scale, of an anti-panarasite accessory in the form of a flexible polymer matrix loaded with an anti-ectoparasite active principle, adaptable to a comb (2) and carrying circular orifices (FIG. Q) individual combined with longitudinal orifices (0); FIG. 2A is a perspective view, not to scale, of an anti-panarasite accessory in the form of a circular pad made of flexible polymer matrix loaded with anti-ectoparasite active principle, adaptable to a brush and uniformly carrying orifices. individual circulars (0i); FIG. 2B is a perspective view, not to scale, of an anti-panarasite accessory in the form of a circular wafer made of a flexible polymer matrix loaded with anti-ectoparasite active principle, applicable to a brush and carrying individual circular orifices (Oi); combined with longitudinal orifices (OH); FIG. 3A is a perspective view, not to scale, of an anti-panarasite accessory in the form of an oval wafer in a flexible polymer matrix loaded with an anti-ectoparasite active principle, adaptable to a brush (3) and uniformly carrying circular orifices. individual (Q); FIG. 3B is a perspective view, not to scale, of an anti-panarasite accessory in the form of an oval wafer in a flexible polymer matrix loaded with an anti-ectoparasite active ingredient, adaptable to a brush and having individual circular orifices. (Q) combined with longitudinal orifices (OH); FIG. 4A is a perspective view, not to scale, of an anti-ectoparasite accessory in the form of a rectangular wafer made of flexible polymer matrix loaded with active anti-ectoparasite principle, applicable to a brush and uniformly carrying individual circular orifices. (Q); FIG. 4B is a perspective view, not to scale, of an anti-ectoparasite accessory in the form of a rectangular wafer made of flexible polymer matrix loaded with active anti-ectoparasite principle, applicable to a brush and carrying individual circular orifices ( 0i) combined with longitudinal orifices (Or); FIG. 5 is a profile view, not to scale, of an anti-parasitic accessory (1) in the form of a bar made of a flexible polymer matrix loaded with anti-ectoparasite active principle, applied to a rake comb (2); - Figure 6 is a longitudinal section, not to scale, of an anti-panarasite accessory (1) in the form of a flexible polymer matrix insert loaded with anti-ectoparasites active principle, applied to a hairbrush (3).

The expression "individual circular orifice" designates a hole made in the polymer matrix by drilling when the matrix is obtained by extrusion, or directly during molding when the matrix is obtained by injection molding, by thermopressing or by casting molding. The term "longitudinal orifice" refers to a slot made in the polymer matrix by cutting when the matrix is obtained by extrusion, or directly during molding when the matrix is obtained by injection molding, by thermopressing or by casting molding. . More precisely according to one aspect of the present invention, the anti-parasitic accessory in flexible lipophilic polymer matrix may be in the form of a bar of 0.5 cm to 2 cm wide and a thickness of 0.3 cm to 0.6 cm. variable length depending on the type and the jig of the comb to which it is adaptable. According to one embodiment of the present invention, the teeth of the comb are threaded into the bar by orifices of arrangement corresponding to the geography of the teeth of said comb (Figure 5). According to another aspect of the present invention, the flexible lipophilic polymeric matrix anti-ectoparasite accessory may be in the form of a wafer 0.1 cm to 0.3 cm thick, circular, oval, rectangular or square in shape. depending on the type of brush to which said plate is adaptable. According to one embodiment of the invention, the teeth of the brush are passed through the orifices of said wafer which will act as a brush base (FIG. 6). According to one embodiment of the invention, on the same accessory, both in the form of a bar and in the form of a plate, it is possible to make individual circular orifices of diameter corresponding to the diameter of the teeth to penetrate therein, as well as longitudinal orifices which are wide slots of the diameter of a tooth and whose length allows to pass at the same time several aligned teeth. According to one aspect of the invention, the field of orifices may be uniformly composed of circular orifices (Figs 1A, 2A, 3A and 4A). According to another aspect of the invention, the field of orifices may be a combination of individual circular orifices and longitudinal orifices. According to this last aspect of the invention, the peripheral orifices are preferably circular and individual in order to better fix the accessory on the anti-ectoparasite device, while the longitudinal orifices are preferentially placed inside the tooth field (FIG. 1B, 2B, 3B and 4B). The matrix of the anti-ectoparasite accessory according to the invention is produced from crosslinked lipophilic thermoplastic polymers selected from the copolymer of ethylene and vinyl acetate (EVA), the vinyl acetate content of which varies between 15% and 60% by weight, the starch grafted polyethylenes, the polyethers block amides (PEBA) of absorbent grades, the thermoplastic polyurethanes having a glass transition temperature of between -50 ° C. and -15 ° C., the thermoplastic polypropylene having a glass-transition temperature between -20 ° C and -10 ° C, the biodegradable lipophilic thermoplastic polymers (cellulose acetate derivatives, poly (butylene adipate-co-terephthalate) polyesters (PBAT) or the combination of polyvinyl acid (PLA) and polyhydroxybutyrate (PHB), as well as the combination of a biopolymer and a biodegradable polyester such as starch and PBAT or that of corn starch and PLA, or the combination of polymers of the various categories mentioned.

Polyvinyl chloride (PVC) of absorbent cross-linked grade, when accepted by European and international regulations, can also be used to develop the matrix according to one embodiment of the present invention. According to one embodiment of the present invention, the lipophilic anti-ectoparasite active agent may be a natural or synthetic insecticide formulated with at least one vegetable oil or an insecticidal composition of essential oils and / or vegetable oils. . The synthetic active ingredients according to the invention are chosen from pyrethrins, permethrin and piperonyl butoxide, without this list being exhaustive. Said synthetic actives are chemical effect and / or physical effect. The naturally occurring active agents according to the invention are formulated with components that may be essential oils known as GRAS (generally recognized as harmless), chosen from limonene, beta-ionone, linalool, geraniol, eugenol, fluorenes, carvone, (alpha, beta or gamma) -terpinene, 1,8-cineole, terpineol, terpinolene, borneol, nerol, linalyl acetate, lavandulyl acetate and other terpenes. Advantageously for the invention, it is considered that the development of a resistance is highly improbable given the mode of action of these molecules, and they are not neurotoxic. The vegetable oils preferentially used according to the invention are chosen from castor oil, coconut oil, sweet almond oil, soybean oil and other oils which can dissolve the active molecules and which do not present no risk of toxicity or allergenic. According to one embodiment of the invention, the active agents may be insect repellents of natural origin or of synthesis formulated with at least one vegetable oil or an insect repellent composition of essential oils and / or vegetable oils. More specifically, the anti-ectoparasite accessories for combs or brushes according to the invention are obtained by a two-step process which is as follows: a) a first step devoted to the incorporation of the ectoparasite active agent, at a rate understood depending on the active principle or the active composition, between 1% and 15% (by weight) in the polymer or the mixture of polymers chosen, b) a second stage devoted to shaping said accessories using the tools of plastics known to those skilled in the art. According to the embodiment of the invention, the first step is a variant of the method for cold loading of an active agent in a polymer matrix (FR 2 901 172) which is declined in: i. formulation of the active ingredient in lipophilic composition according to the rules of the art (FR 2 906 441); ii. heating in a mixer the polymer or polymer mixture at a temperature greater than 1 ° C to 5 ° C at the glass transition temperature of the polymer component; iii. supply of the active ingredient obtained in a) in the mixer containing the polymer component according to the rules of the art; iv. collection of the active ingredient polymer obtained in c) in a closed container for technical maturation of at least 24 hours. According to the embodiment of the invention, the second step consists in treating the polymer containing the active ingredient of the first step in a thermomechanical tooling for forming the desired shape of a strip or wafer, by casting molding. by thermopressing, extrusion or injection molding. According to a directly industrializable mode of the invention, the production of anti-ectoparasite accessories applicable to combs and brushes are made in two steps in accordance with the industrial technology of active polymer matrices 10 which is declined in a first step dedicated to the incorporation of the active ingredients into the polymers and carried out in the industrial tools provided for this purpose, followed by a second step allowing the desired shapes of said accessories in the tools known to the plastics industry. EXAMPLE 1 Step 1 A) - An insecticidal active ingredient indicated for the eradication of lice and nits of the hair is prepared by mixing under gentle agitation for 15 minutes the following substances in the proportions (by weight) indicated: 3% hydrogenated castor oil (supplied by SICTIA), 12% coconut oil (supplied by SICTIA), 3% Grapefruit perfume (supplied by APF), 12% Lavender Super essential oil (supplied by INTERAXION), Geraniol 98 19% (supplied by SICTIA) by DRT) and 25 Melaleuca Alternifolia essential oil 51% (supplied by INTERAXION). B) - The horizontal mixer DRAIS of 20L is preheated to 80 ° C. 1980 g of ethylene vinyl acetate copolymer granules (EVA PA538) supplied by UNIVAR are introduced. Stirring was started at 60 rpm until the actual temperature of said pellets reached 64 ° C. C) - is introduced dropwise into the mixer containing the polymer granules of the previous step the active ingredient obtained in step A) -, still stirring at 60 rpm. The active ingredient is allowed to become incorporated into the polymer until the EVA - 12 - PA358 granules become dry. Next, 350 g of ethylene / vinyl acetate copolymer granules (EVA PA461) supplied by UNIVAR are added, again with stirring at 60 rpm. D) - Stirring is stopped after 15 minutes, then recovering the polymeric granules loaded lice active that can be shaped by the desired plastics tool known to those skilled in the art. Eta pe 2 The anti-lice active granules obtained in step 1 are converted into a comb-shaped active comb anti-lice polymer matrix using the following procedure: o a single-screw extruder is available TEACH-LINE® E2OT organized in 5 adjustable temperature zones going from the hopper to the die on which is mounted a die for strap having a section of 3 mm by 10 mm; The extruder is preheated according to the following temperature diagram: 45 ° C / 70 ° C / 120 ° C / 120 ° C / 120 ° C; the granules loaded with anti-lice active ingredients are introduced into the hopper and a strip several meters long is extruded; after cooling, the strip is cut into 10 cm pieces which are pierced with apertures in the direction of the thickness (3 mm) and at intervals of 3 mm to obtain the strip represented by FIG. o the bar 1A is mounted on a rake comb shown in Figure 5. EXAMPLE 2 Step 1 is identical to that of Example 1. For step 2, the extrusion described in Example 1 is repeated but with a die for 3 mm thick band and 100 mm wide. The resulting strip, after cooling, is cut into oval shaped plates to be pierced with orifices according to the geography of the teeth of a brush to obtain the wafer represented by FIG. 3A. The wafer 3A obtained is mounted at the bottom of the hairbrush as shown in FIG. 6. EXAMPLE 3 There are two identical rake combs (FIG 1A): a comb A and a comb B. The comb is mounted on the comb B an anti-ectoparasite bar accessory as described in Example 1 (Fig. 5).

There are also 4 plastic containers of cylindrical shape, 13 cm in diameter and 13 cm high for 1.5 L, provided with a transparent cover. Two containers are used to serve as control batches and the other two for the treated batches. There are also 200 fleas of the species Spilopsyllus cunicull. The test is performed with the hair of a dog with long hair.

Comb the comb A (neutral) to smooth the hair of the dog's flank and scissors 2 times 1g. Each batch of 1 g of hair is placed in the center of the bottom of the container representing the control batches. Combing with comb B equipped with the anti-ectoparasite bar to smooth the hair of the dog's flank and scissors 2 times 1g. Each batch of 1 g of hair is placed in the center of the bottom of the container representing the treated batches. Then 50 chips are placed in each container and the observations are noted every 5 minutes. Results / observations In the control groups, from the first minutes (less than 5 minutes), the fleas are distributed randomly throughout the bottom of the box, including on the hairs. They move normally. There is still movement 24 hours later. After 24 hours, we observe that some individuals still move. In the treated batches, the chips avoid the treated hairs deposited in the center and are distributed against the wall of the container. No flea is on the hair. There are also some chips that stop. 90% of fleas are immobile after 10 minutes to die all after 15 minutes. It can be concluded that the bar has deposited on the hair treated sufficient anti-ectoparasites active to affect the behavior of fleas and cause their death. EXAMPLE 4 For this example, the same combs as in the preceding example 3 are available. - 14 - Human hair is taken from an operator. The hair is separated into two locks of about 30 hairs held together on the bottom of a petri dish with fixed paste. One of the two locks is combed with anti-ectoparasite bar back and forth to form the batch treated. The other wick is combed to form the control lot. The tests are performed with lice of the species Pediculus humanus capitis recovered from an individual. The lice are divided into two lots: a first batch for the control group and a second batch for the batch treated.

The first batch of lice is introduced into the box containing the lock of untreated hair, while the second batch of lice is introduced into the box containing the lock of hair treated. Then we observe the behavior of the lice in each batch. Results / observations The lice in the control group immediately cling to the lock of hair and stop there. This will be the case for 25 minutes, before the death of 50% of individuals in the control group. You must know that head lice can not stand to live far from the scalp and its heat. The lice in the treated lot have different behavior. They are well on the lock of hair, but are very agitated. Then they go to the untreated part of the lock of hair, namely the hooking of the paste to fixed which becomes a safe area. Then we take out the lock of hair, we remove the refuge area and we go back in the comb back and forth before reintroducing it into the box. After 15 minutes, 2/3 of the lice remain on lock of hair while stirring, while 1/3 move on the bottom of the box. After 20 minutes, there are 1/3 of dead lice, another third of lice remain hooked, motionless, on the lock of hair, while the last third of lice, very restless, continue to move on the bottom of the box . This observation remains the same after 30 minutes. 15 hours later, all the lice died. Once again, it can thus be shown that the bar has allowed to deposit on the hair the active anti-ectoparasites in an amount sufficient to be effective on the at least repellent behavior of head lice.

Claims (15)

CLAIMS1) Interchangeable anti-ectoparasite accessory, adaptable to combs or brushes, in flexible polymer matrix loaded with active (s) anti-ectoparasites lipophilic (s) or made (s) such (s) which (s), (s) which (s), what it can deliver at high doses for a long time the lipophilic anti-ectoparasite active ingredient (s) in the dry state on the hair or the hair by friction during combing or brushing. 2) Accessory according to claim 1 characterized in that it is in the form of a strip of 0.5 cm to 2 cm wide for a thickness of 0.3 cm to 0.6 cm and of variable length depending on the type and the jig of the comb to which said bar is adaptable. 3) Accessory according to claim 1 characterized in that it is in the form of a wafer of 0.1 cm to 0.3 cm thick, of circular, oval, rectangular or square geometry depending on the type of brush to which said wafer is adaptable. 15 4) Accessory according to claims 1 to 3 characterized in that it comprises individual circular holes of diameter corresponding to the diameter of the teeth to enter, or longitudinal orifices which are wide slots of the diameter of a tooth and whose length allows to pass at the same time several aligned teeth. 5) Accessory according to claims 1 to 3 characterized in that the field 20 orifices is composed of a combination of individual circular orifices with longitudinal orifices. 6) Accessory according to claims 1, 3, 4 and 5 characterized in that the wafer acts as a brush bottom. 7) Accessory according to any one of the preceding claims characterized in that the matrix is produced from crosslinked lipophilic thermoplastic polymers selected from the ethylene-vinyl acetate copolymer (EVA) whose vinyl varies between 15% and 60% by weight, the starch grafted polyethylenes, the polyether block amides (PEBA) of absorbent grades, the thermoplastic polyurethanes having a glass transition temperature of between -50 ° C and -15 ° C, the thermoplastic polypropylene having a glass transition temperature of between -20 ° C. and -10 ° C., biodegradable lipophilic thermoplastic polymers (cellulose acetate derivatives, poly (butylene adipate-co-terephthalate) polyesters (PBAT)) or the combination of polyvinyl acid (PLA) and polyhydroxybutyrate (PHB), as well as the combination of a biopolymer and a biodegradable polyester such as starch and PBAT or that of maize starch and PLA, or the combination of polymers of the various categories mentioned. 8) Accessory according to claims 1 to 6 characterized in that the matrix is produced from a polyvinyl chloride (PVC) of absorbent cross-linked grade. 9) Accessory according to any one of the preceding claims, characterized in that the lipophilic anti-ectoparasite active may be a natural or synthetic insecticide formulated with at least one vegetable oil or an insecticidal composition of essential oils and or vegetable oils. 10) Accessory according to claim 9 characterized in that the synthetic assets are chemical effect and / or physical effect. 11) Accessory according to claim 9 characterized in that the active compositions of natural origin are developed with components of essential oils called "GRAS" (Generally recognized as harmless). 12) Accessory according to claims 9, 10 and 11 characterized in that the vegetable oils used are selected from castor oil, coconut oil, sweet almond oil, soybean oil and other oils that can dissolve the active molecules and do not present any risk of toxicity or allergenicity. 13) Accessory according to claims 1 to 8 and 12 characterized in that the anti-ectoparasitic lipophilic active may be an insect repellent of natural or synthetic origin formulated with at least one vegetable oil or an insect repellent composition of essential oils and / or vegetable oils. 14) Accessory according to any one of the preceding claims characterized in that it is adaptable to combs, brushes or other devices of common human or animal use. 15) A process for obtaining anti-ectoparasite accessories for combs or brushes characterized in that it takes place in two stages as follows: a) a first step devoted to the incorporation of the ectoparasite active at a rate between 1% and 15% (by weight), depending on the active ingredient or the active composition, in the polymer or the mixture of polymers chosen; b) a second step devoted to the shaping of said accessories using plastic tools known to those skilled in the art.