FR3049163A1 - PROCESS FOR THE IMPLEMENTATION OF A COMPOSITION FOR COMBATING BITTERS OF BEDS - Google Patents

Abstract

The invention relates to a method for controlling bedbugs in a surveillance space formed by two partial zones A and B, the main source of the targets being in zone B. In zone A, an attractive action unit is placed on the targets and in zone B, a unit with repulsive action.

Description

The invention relates to a composition for combating bed bugs and a method for implementation particularly effective for its implementation.

Two species of bedbugs are known to preferentially feed on human blood: Cimex lectularis in temperate regions and C. hemipterus in tropical and subtropical regions. For these insects, the blood is ideally ingested at intervals of a few days, but these insects are able to survive fasts for several months if no food source is present. During the day, bedbugs stay hidden in shelters such as cracks in the floor, bedstead, furniture or folds of mattresses, carpets and various fabrics, while they are at their maximum activity between midnight and dawn. These hiding places physically protect bedbugs from chemical attacks or predator attacks. In addition, these hiding places serve as a place of reridez you and it proceeds there the removal of the eggs and the reproduction. While they had disappeared from homes in developed countries, it was found that bed bugs have started reclaiming homes, hotels or public transport for fifteen years; this re-invasion is linked to several distinct causes, such as the banning of certain effective residual insecticides, such as dichloro-diphenyl-trichloroethane (DDT), but dangerous for health, the rapid emergence of resistance to new insecticides and a helps the efficient spread of the insect through increased international trade flows due to tourism. At present, few effective solutions exist to get rid of these pests. Most of them require the intervention of a specialist to inspect and detect the presence of bed bugs and then to set up large scale control measures, such as heating the room to be treated at 45 ° C or using very powerful and concentrated insecticides. However, spray insecticides or gels commonly used commercially are not specific to bed bugs and are, in fact, not very persistent and fairly inefficient. It has been shown that to attract bedbugs, a 50 mL / minute amount of CO2 would be required (Anderson et al., Med Vet Ent, 2009, 23: 99-105); such a quantity is ideally obtained by means of a gas compressor. A temperature close to that of a host is also likely to attract bed bugs.

Published patent application US2015 / 0121745 describes a monitoring system for combating bed bug infestations. This system consists of placing, on at least the lower part of the feet of a bed to be protected, a detection device comprising a sensor capable of instantly detecting and analyzing biochemical substances specific to bed bugs, such as chitin or nitrophorine (protein contained in the saliva of these insects), then transform this chemical assay into a signal, for example electrical. The device comprises a reservoir to which the bedbugs are directed; the reservoir contains an insecticide known to those skilled in the art; the opening of said tank is actuated by the electrical signal indicating the presence of the insect. An attractive product may be associated with such a device; in this case, it is placed within the same device. The attractive product may be CO2, in an amount of between 0.003 and 0.042 ml / m 2. Other attractive molecules such as sodium chloride and urea can be used.

Published patent application US2010 / 0212213 also describes a monitoring system for controlling bed bug infestations; this system comprises a detection device in the form of two transparent trays mounted on one another, separated by an interior space which allows the penetration of bed bugs. The interior space has a thickness of 1 to 5 mm; absorbent paper impregnated with an attractive substance, such as blood or pheromone, is stuck on one of the two trays, while the inner wall of the other tray is coated with an insecticide such as carbamates, pyrethroids, phenylpyrazoles or chloronicotinyls.

The published patent application US2011 / 0203159 describes an attractive composition for bed bugs consisting of a mixture of lactic acid, octenol, propionic acid, butyric acid and valeric acid. This composition is associated with a trap that has a source of heat and CO2.

The published patent application US2008 / 0168703 describes a method for controlling bed bugs through an attractive formulation for these insects; this formulation comprises a monoterpene, a saturated aldehyde, an unsaturated aldehyde and a ketone; the use of this formulation is associated with the use of infrared radiation. This implementation is associated with a trap device, which comprises at least one insecticide of the family of carbamates or pyrethroids.

The published patent application US2012 / 0285076 also describes an attractive composition and a method for attracting and controlling bed bugs in a dwelling. The method consists of distributing devices for attracting bedbugs arranged 30 cm from the outer edge of the bed to be protected in a living room; this device consists of an adhesive support, a source of CO2, and a pheromone source disposed near a heat source. CO2 is provided by an attractive composition comprising a mixture of sugar, yeasts that ferment the sugar to produce CO2, citric acid and water. The composition is placed in a box or bottle provided with an outlet; a pheromone-associated heating is arranged above the can to combine the diffusion of CO2 with that of the pheromone. The pheromone source and that of the composition are arranged on an adhesive support for directly trapping bedbugs attracted.

Unfortunately, all these devices have only a reduced efficiency and therefore we seek a composition and a process, the implementation of which would be more efficient. Although the target particularly targeted is the destruction of bedbugs, it has been found that the invention defined below, also allows to obtain an interesting result against crawling insect infestations other than bedbugs in any type housing and / or any type of premises, closed or not.

The present invention therefore, as a first object, a composition for combating crawling insect infestations constituting targets in a surveillance space delimited within a room, said composition having an attractive effect on targets by atmospheric diffusion of a suitable gaseous phase, characterized in that it comprises a liquid fraction and / or a solid fraction, said composition, taken as a whole, containing, in at least one of its two fractions, 0, 1 to 100 g of L-tartaric acid per m2 of the monitoring space to which it is assigned.

In one embodiment, the composition according to the invention comprises a liquid fraction, which contains water partially soaked on a hydroretenting support, this content being put in place in a container having at least one orifice, which allows evaporation of the liquid contained in the container.

In one embodiment, the composition according to the invention comprises at least one naturally occurring hydroretenting support consisting of a material selected from the group consisting of gelatin, pectins, cotton and vegetable fibers.

In one embodiment, the composition according to the invention comprises at least one hydroretenting support consisting of a synthetic material chosen from the group formed by polyacrylamides, copolymers of acrylamide and sodium acrylate, hydrophilic polyurethanes, polyacrylates, sodium alginates and silica gels. In one embodiment, the composition according to the invention comprises, in liquid or solid phase, attractive complementary ingredients for the targets.

In one embodiment, the composition according to the invention comprises complementary attractive ingredients for the targets, ingredients which are chosen from the group formed by fatty acids, esters used as food additives, acids, aldehydes, ketones, amines, aliphatic alcohols, kairomones and mixtures thereof. Advantageously, the additional attractive ingredients mentioned above may be chosen as indicated below: the esters are chosen from the group formed by lactates, tartrates, carbonates, malates, alginates, stearates, silicates glutamates; the acids are chosen from the group formed by acetic acid, citric acid, decanoic acid, dodecanoic acid, furamic acid, hexadecanoic acid, humic acid and lactic acid, malic acid, myristic acid, nonanoic acid, octadecanoic acid, propionic acid, silicic acid; the aldehydes are chosen from the group formed by hexanal, octanal, nonanal, decanal, benzaldehyde, hexenal, octenal, oxo-hexenal, oxo-octenal; the ketones are chosen from the group formed by butanone, pentanone, hexanone, undecan-2-one and sulcatone; the amines are chosen from the group formed by ammonia, methylamine, ethylamine, propylamine, butylamine, methyldiethylamine, triethylamine; the aliphatic alcohols are chosen from octenol and 2-propanol; as kairomone, 2-phenylpropionate is advantageously chosen.

Other attractive complementary ingredients are lauryl sulphate, vanillin and CO2.

In this composition according to the invention, the (s) support (s) hydrorétenteur (s) it comprises, can allow the dissolution in water of L-tartaric acid present in the composition. In a variant, the hydroresistor (s) support (s) contained in said composition allow the aqueous medium to carry out an acid-base reaction between components forming part of the solid fraction of said composition. generates a flow of CO2 evacuated from the container through the orifices that it comprises.

The composition according to the invention may comprise sodium bicarbonate. In one embodiment in which the targets are bed bugs, the composition according to the invention comprises at least one pellet containing L-tartaric acid, at least one cohesion agent and possibly sodium bicarbonate; the cohesion agent may be chosen from the group formed by the salts of fatty acids and in particular potassium or calcium sodium stearates, cellulose derivatives, such as hydroxyethyl or hydroxypropylcellulose, polysaccharides and in particular natural gums such as xanthan gum, agar-agar and acacia gum.

In one embodiment, the composition according to the invention consists of at least one hydroretenting support loaded with water and an L-tartaric acid powder, the targets being bed bugs.

The present invention also relates to a method for controlling crawling insect infestations constituting the targets in a defined surveillance space formed by the set of two partial zones A and B, none of whose points are superimposed, the main source of the targets being presumed to be contained in zone B, this method implementing, in said surveillance space, at least two different types of unit (s) having a simultaneous action on the targets against which it is desired to fight, characterized in that the unit (s) of the first type has (or have) an attractive action on said targets by atmospheric diffusion of a gaseous phase from a liquid or solid composition and is (or are) positioned in zone A of the surveillance space, and that the unit (s) of the second type have (or have) a repulsive action on said targets and is (or are) positioned in the zone B, said ac repellent action being obtained by atmospheric diffusion of a gaseous phase from a liquid or solid composition set up in zone B.

In one embodiment of the method according to the invention, a minimum distance greater than or equal to 1 cm is established between each point of a border of one of the zones A or B and any point of the border of the other area of the surveillance area. In one embodiment of the method according to the invention, at least one attractive unit is used consisting of a container containing an attractive composition, which can release a gaseous phase, the wall of said container being provided with at least one orifice. allowing the diffusion of said gaseous phase to the outside and the entry of the targets into said container.

In one embodiment of the method according to the invention, at least one complementary attractive unit is associated with an attractive unit by diffusion by an appropriate visual stimulus and / or a source of heat emission, and / or associates with an attractive unit by diffusion at least one insecticidal complementary unit containing at least one insecticidal agent.

In one embodiment of the method according to the invention, a container is provided with at least one means for preventing the exit of the targets, which have penetrated therein; in a first embodiment of such a method, the means may be a contact insecticide put into place in the container; in a second embodiment of such a method, the means may be a liquid or a glue having a neutralizing action on the targets, which have penetrated into the container, said means being coated on the inner wall of the container; in a third embodiment of such a method, the means may be an appropriate structure of the container wall.

In one embodiment of the method according to the invention, is placed in a container at least one hydrorétenteur support providing water to allow the dissolution of a solid attractive composition and its subsequent evaporation.

In one embodiment of the process according to the invention, at least one water-retaining support providing water is placed in a container to allow the execution of an acid-base reaction between solid reagents housed in the container. container, in order to produce a release of CO2.

In one embodiment of the process according to the invention, the attractive composition contains at least one constituent chosen from the group formed by esters, carboxylic acids, aldehydes, ketones, amines, aliphatic alcohols and kairomones. and their mixtures.

Advantageously, the abovementioned attractive constituents used to carry out the process according to the invention may be chosen as indicated in more detail below: the esters are chosen from the group formed by lactates, tartrates, carbonates, malates, alginates, stearates, silicates, glutamates; the acids are chosen from the group formed by acetic acid, citric acid, decanoic acid, dodecanoic acid, furamic acid, hexadecanoic acid, humic acid and lactic acid, malic acid, myristic acid, nonanoic acid, octadecanoic acid, propionic acid, silicic acid, L-tartaric acid; the aldehydes are chosen from the group formed by hexanal, octanal, nonanal, decanal, benzaldehyde, hexenal, poctenal, oxo-hexenal, oxooctenal; the ketones are chosen from the group formed by butanone, pentanone, hexanone, undecan-2-one and sulcatone; the amines are chosen from the group formed by ammonia, methylamine, ethylamine, propylamine, butylamine, methyldiethylamine, triethylamine; the aliphatic alcohols are chosen from octenol and 2-propanol; 2-phenylpropionate is chosen as kairomone.

The laurysulfate, vanillin and CO2 can also be chosen as attractive complementary ingredients for the implementation of the process according to the invention.

In one embodiment of the process according to the invention, L-tartaric acid is placed in the attractive container, the targets being bed bugs.

In one embodiment of the method according to the invention, at least one repulsive unit is used, which incorporates at least one liquid or solid repellent agent targets, in particulate form.

In one embodiment of the method according to the invention, the repellent agent is a liquid, which is dispensed in the form of a spray or lotion on the zone B, the targets being reached by evaporation of the liquid.

In one embodiment of the method according to the invention, the repellent agent is a solid which is sprinkled on the zone B.

In one embodiment of the process according to the invention, the repulsive agent is a solid which is solubilized first in an aqueous, hydroalcoholic solution or in an oil; the resulting solution is then incorporated in a particulate solid polymer; if a plastic polymer is prepared in granules, it can be put into various forms, including platelets or bands, by known methods in plastics. The plastic material thus obtained may advantageously be positioned on or in the immediate vicinity of the presumed main source of targets. In one embodiment of the process according to the invention, the polymer matrix, which contains the repulsive agent, forms a sticky discrete element, such as a plate, which can be placed in zone B by direct support on a support.

In one embodiment of the method according to the invention, at least one repulsive complementary unit comprising at least one particulate solid of mineral origin and / or at least one insecticide-containing complementary unit containing at least one repulsive unit is associated with a diffusion repellent unit. less an insecticidal agent, which has, on contact with the targets, drying or irritating effects, such as, in particular, diatomaceous earth or silica.

In one embodiment of the process according to the invention, the repellent agent is chosen from the group formed by vegetable oils, plant extracts, essential oils, maceras, carboxylic acids, aldehydes and ketones. , monoterpene alcohols, kairomones and their mixtures.

Advantageously, the repellent agents mentioned above may be chosen as indicated below: the vegetable oils are chosen from the group formed by garlic oil, linseed oil, cottonseed oil, castor oil, hydrogenated castor oil, sesame oil, soybean oil, corn oil; - plant extracts are extracts of margosa; - Maceras are chosen from the group formed by pyrethrins, pyrethroids, vanilla; the essential oils are chosen from the group formed by the essential oil of camphor, cinnamon, cedar, lemongrass, clove, wintergreen, geranium, lavender, lavender, mint, rosemary, thyme; the carboxylic acids are chosen from the group formed by acetic acid, propionic acid, nonanoic acid, decanoic acid and dodecanoic acid; the aldehydes are chosen from the group formed by citronellal, hexenal, octanal, benzaldehyde, hexenal, octenal, oxo-hexenal, oxo-octenal; the ketones are chosen from the group formed by Pundecan-2-one, sulcatone; the monoterpene alcohols are chosen from the group formed by eugenol, geraniol and eucalyptol; kairomone is chosen as 2-phenylpropionate.

In one embodiment of the process according to the invention, a repellent agent is chosen from the group consisting of geraniol, citronellal and their mixtures, the targets being bed bugs.

In one embodiment of the process according to the invention, in which at least one attractive or repulsive unit is associated with an insecticidal supplementary unit, the insecticidal agent is chosen from the group formed by natural, synthetic, insecticides. mineral, biological origin or mixtures thereof. As purely illustrative and non-limiting examples, two embodiments of the invention shown in the appended drawing will be described below. In this drawing: FIG. 1 represents in perspective the test material used to evaluate the attractiveness of a substance on bed bugs; - Figure 2 shows a section of the material of Figure 1 by the plane P, which is the longitudinal plane of symmetry of the tray used; - Figure 3 shows, in perspective, a test tank similar to that of Figure 1, the test showing the simultaneous implementation of an attractant and a repellent.

Example 1: Attractiveness test of an aqueous solution of L-tartaric acid on bedbugs.

The equipment used for this test is shown in Figures 1 and 2.

We have a rectangular arena 1 65cm long, 35cm wide and 15cm high, which is a flat tray. There are two cylindrical containers 4 and 5, having 9 cm in diameter and 11 cm in height; a recess 6 of 1.3 cm in height is provided at the level of the basal part of the container to allow the bed bugs to enter from the arena 1. It is fixed inside the two containers 4 and 5 at their upper part 3 constituting the ceiling, a strip of filter paper 2. On the filter paper web of the container 4, 1g of an aqueous solution of L-tartaric acid at 25% by weight . The axes of the two containers 4 and 5 are at each end of the arena 1, in the longitudinal plane of symmetry of this arena. 20 male or female 7 bugs are placed in the center of arena 1, then the experiment is allowed to take place. After 12 hours, the percentage of bedbugs in each container is quantified. At a minimum, two replicates per sex, or a total of four tests are performed by alternating the placement of the aqueous solution of L-tartaric acid, in order to limit position-related biases.

After 12 hours, it is found that 90% of the bed bugs have taken refuge in the passage 6 formed at the base of the container 4 carrying the aqueous solution of L-tartaric acid.

Example 2: an arena identical to that previously defined for Example 1 is available. The attractive composition tested consists of 1 g of aqueous L-tartaric acid solution at 25% by weight deposited on a strip of filter paper. 2a attached to the upper part of a hemispherical dome 4a of 14cm in diameter and 5cm in height; this dome has the shape of an overturned bowl. The wall of the dome 4a is pierced with 8 orifices of 23mm in diameter each, evenly distributed over the dome, each opening extending through a tunnel 1cm in length, towards the interior of the dome, in order to prevent the bugs from bed, who have penetrated, come out. At each of the two ends of the longitudinal axis of the arena la, a dome is placed; the domes 4a, 5a of both ends are identical with the difference that the dome 5a does not carry filter paper.

The rectangular end zone of the arena 1a, which supports the dome 4a, represents a quarter of the total surface of the arena 4a and is delimited by a strip 3a of plastic material, which is sprinkled with a repellent powder obtained in incorporating a 1/1 geraniol / citronellal mixture into clay particles. The strip 3a thus separates the arena la in two parts: on one side is a zone A, in which is positioned the dome 4a and on the other, a zone B, in which is positioned the dome 5a. 20 male or female bugs are deposited at the center of arena 4a and after 12 hours of testing, the percentage of bedbugs present in the shelter containing the attractant is tested and quantified. At least two replicas per sex or four tests were performed. All the attractants tested showed a significant loss of attractiveness of the attractive refuge 4a since the repellent band 3a had been put in place: their attractiveness goes from 90% of the bugs under the attractive refuge 4a to less than 5% of the bugs under the attractive refuge once the repellent is put in place by means of the band 3a and whatever the galenic used for the repellent. The attractiveness reduction is maintained over time.

Claims (21)

1. A method for controlling crawling insect infestations constituting the targets in a defined surveillance space formed by the set of two partial zones A and B, none of whose points are superimposed, the main source of the targets being presumed be contained in zone B, this method implementing, in said surveillance space, at least two different types of unit (s) having a simultaneous action on the targets against which it is desired to fight, characterized in that or the unit (s) of the first type has (or have) an attractive action on said targets by atmospheric diffusion of a gaseous phase from a liquid or solid composition and is (or are) positioned in zone A of the monitoring space, and that the unit (s) of the second type has (or have) a repulsive action on said targets and is (or are) positioned in zone B, said repulsive action being obtained by diffusion an atmospheric gas phase from a liquid or solid composition set up in zone B. 2. Method according to claim 1, characterized in that one establishes a minimum distance greater than or equal to 1 cm between each point of a border of one of the zones A or B and any point of the border of the other area of the surveillance area. 3. Method according to one of claims 1 or 2, characterized in that one uses at least one attractive unit consisting of a container containing an attractive composition, which can release a gaseous phase, the wall of said container being provided with at least one orifice permitting the diffusion of said gaseous phase towards the outside and the entry of the targets into said container. 4. Method according to one of claims 1 to 3, characterized in that is associated with an attractive unit by diffusion, at least one attractive complementary unit by an appropriate visual stimulus and / or a source of heat emission and / or that is associated with an attractive unit by diffusion at least one insecticidal complementary unit containing at least one insecticidal agent. 5. Method according to claim 3, characterized in that a container is provided with at least one means for preventing the exit of the targets, which have penetrated. 6. Method according to claim 5, characterized in that the means is a contact insecticide placed in the container. 7. Method according to claim 5, characterized in that the means is a liquid or a glue having a neutralizing action on the targets, which have penetrated into the container, said means being coated on the inner wall of the container. 8. Method according to claim 5, characterized in that the means is an appropriate structure of the wall of the container. 9. A method according to claim 5, characterized in that is placed in a container at least one hydrorétenteur support providing water to allow the dissolution of a solid attractive composition and its subsequent evaporation. 10. A method according to claim 3, characterized in that it places in a container at least one hydrorétenteur support providing water to allow the execution of an acid-base reaction between solid reagents housed in the container , in order to produce a release of CO2. 11. The method of claim 3, characterized in that the attractive composition contains at least one constituent selected from the group consisting of esters, carboxylic acids, aldehydes, ketones, amines, aliphatic alcohols, kairomones and their salts. mixtures. 12. Method according to claim 11, characterized in that, in a container, L-tartric acid is put in place, the targets being bed bugs. 13. Method according to one of claims 1 or 2, characterized in that at least one repulsive unit is used, which incorporates at least one repellent agent liquid or solid targets, in particulate form. 14. The method of claim 13, characterized in that, the repellent agent is a liquid, which is dispensed in the form of spray or lotion on the zone B, the targets being reached by evaporation of the liquid. 15. The method of claim 13, characterized in that the repellent agent is a solid that is sprinkled on the zone B. 16. The method of claim 13, characterized in that the repellent agent is a solid in particulate form incorporated into a polymer matrix, which is positioned on or in close proximity to the presumed main source of targets. 17. The method of claim 16, characterized in that the polymer matrix forms a discrete element such as a band or plate, possibly sticky, capable of being placed in the zone B by direct support on a support. 18. Process according to claim 15, characterized in that at least one repulsive complementary unit comprising at least one particulate solid of mineral origin and / or at least one insecticidal complementary unit containing at least one insecticidal complementary unit is associated with a diffusion repellent unit. less an insecticidal agent, which has, on contact with the targets, drying or irritating effects on said targets. 19. Method according to one of claims 13 to 17, characterized in that the repellent agent is selected from the group consisting of vegetable oils, plant extracts, essential oils, maceras, carboxylic acids, aldehydes ketones, monoterpene alcohols, kairomones and mixtures thereof. 20. The method of claim 19, characterized in that a repellent agent is selected from the group consisting of geraniol, citronellal and mixtures thereof, the targets being bed bugs. 21. Method according to one of claims 4 or 18, wherein at least one attractive or repulsive unit is associated with a complementary insecticidal unit, characterized in that the insecticidal agent is selected from the group formed by natural insecticides, synthetic , of mineral origin, biological or mixtures thereof.