JP2010116340A - Biting/stinging arthropod-repelling composition - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To develop a composition repelling a biting/stinging arthropod such as a mosquito. <P>SOLUTION: The biting/stinging arthropod-repelling composition comprises 11-82% of lactic acid and 1-36% of gluconic acid or gluconolactone, and is impregnated in a nonwoven fabric. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a composition for repelling blood-sucking insects such as mosquitoes that bite warm-blooded animals such as humans, animals and birds, and arthropods such as ticks.

  Mosquito-borne diseases such as dengue fever, yellow fever, Japanese encephalitis, and filariasis continue to occur in many parts of the world, including malaria, which is extremely affected. Not only in Southeast Asia and Africa, but in New York, where public health has developed in the fall of 1999, many people with West Nile fever have occurred due to the transmission of West Nile virus in the cuttlefish and others. It is a situation. In autumn 2000, mosquito-borne Rift Valley fever prevailed in Saudi Arabia, and from March 2005, Chikungunya fever borne by Aedes albopictus was prevalent on Reunion Island, France. Mosquito-borne illness is a serious situation, with 93 people. On the other hand, in Japan, where there are very few mosquito-borne diseases, mosquito bite hypersensitivity, which causes hypersensitivity reactions to mosquito saliva by being bitten by human striped mosquitoes or mosquitoes that do not have viruses or protozoa, has been a patient since the case of 1968. In many cases, the prognosis is poor and fatal. In such patients, mosquito bites should be avoided as much as possible. In addition, biting turtles mediate Chagas disease, flyfish oncocercosis, tsetse flies trypanosomiasis, especially African sleeping sickness and Nagana disease, and ticks are Russian spring-summer encephalitis, Colorado tick fever, Rocky mountain erythema Many diseases have been reported by biting arthropods, such as fever, button fever, Q fever, Lyme disease, and barbarian disease, scrubs mediating tsutsugamushi disease rickettsia, fleas carrying plague and rash fever. ing.

  Even if hygiene is better than in the past, mosquito-borne diseases can continue to plague humans and animals in the future. In addition, as the automobile industry develops and the number of cars owned by the public increases, the number of tires also increases significantly and the number of used tires after replacement also increases. However, a lot of Aedes mosquitoes occur in the rainwater that accumulates in the piled waste tires, annoying local residents and workers, reducing work efficiency, threatening comfortable living, and industrial development. It is inhibiting. In addition, by exporting waste tires from Japan to countries that originally did not have human tiger mosquitoes, human tiger tiger mosquitoes settled in the country to which they were exported, spread dengue fever together with Aedes aegypti, worsening the country's hygiene, and international Has become a serious problem.

  In addition, with the global warming, dengue fever may spread due to the invasion and establishment of Aedes aegypti in Japan. Also, due to the development of transportation means such as airplanes, Anopheles possessing malaria parasites invades Japan, and even people who have no travel experience such as residents near the airport are at risk of suffering from malaria. This is called airport malaria, and several cases have actually been reported.

  On the other hand, from the past to the present, animals such as dogs and cats have been good companions for human beings, and support the owner's heart as pets, and many roles such as guide dogs and care dogs are not limited to pets Some animals play a role. However, animals such as dogs are also often affected by filariasis (filariasis) mediated by, for example, the mosquito, which is one of the biting arthropods, and often lose their lives. The sadness of an owner who has lost a good companion is greater than expected. In addition, it is necessary to purchase preventive drugs from animal hospitals for the prevention of filariasis and keep their dogs taking drugs, which is expensive to purchase drugs and takes time to administer the drugs. Therefore, it is very important to avoid biting by biting arthropods such as mosquitoes.

  Research has been conducted on insecticides such as organophosphates, carbamates, and synthetic pyrethroids, and repellents that contain diet as a countermeasure against biting arthropods such as mosquitoes that bite humans and animals. However, the high use of insecticides may cause resistance to insecticides, such as a population that develops high resistance to organophosphates in Culex pipiens.

Globally, diet (N, N-diethyl-m-toluamide) has been used as a blood-sucking insect repellent, but there are reports that it may be dangerous to cause brain damage if used continuously (Robbins, PJ and MG Cherniack 1986.
Review of the biodistribution and toxicity of the insect repellent N,
N-Diethyl-m-toluamide (DEET). J. Toxicology Environ. Health 18: 503-525).

When doing outdoor camping, sports, leisure, gardening, visiting graves, etc., you may be stung by Aedes aegypti such as Aedes albopictus, and you are worried about itching or even a secondary infection such as bacterial infection. . In this regard, Diet (N,
Repellent containing N-diethyl-m-toluamide) has been used, but in view of the side effects of Diet, according to the recent notification from the Ministry of Health, Labor and Welfare (No. 0824003, August 24, 2005) , Especially for infants.

According to Patent Document 1, a mosquito repellent containing lactic acid was invented. According to Non-Patent Document 1, it was reported that the mosquito repellent effect increased or decreased depending on the lactic acid concentration. According to Patent Document 2, A mosquito repellent containing gluconic acid was invented. Thus, research has been conducted on mosquito repellents that do not contain diet. Accordingly, the inventors have further conducted experiments and examinations on the mosquito repellent composition, repeated experiments on the optimum concentration, and reached the present invention having a remarkable inventive step.
JP 2000-119109 A JP 2002-179512 A Yoshikazu Shirai, Kiyoshi Kamimura, Taisuke Seki and Masaaki Morohashi L-lactic acid as a mosquito (Diptera: Culicidae) repellent on humanand mouse skin J. Med. Entomol. 38: 51-54 2001

  Therefore, an object of the present invention is to provide a mosquito repellent composition that does not contain diet and is safe for the human body.

  In order to solve the above problems, according to the invention described in claim 1 of the present invention, a biting arthropod repellent composition containing 11 to 82% by weight of lactic acid is provided. By applying this biting arthropod repellent composition to the skin of a person or an animal or treating it on clothes, it can be prevented from being bitten by biting arthropods such as mosquitoes during outdoor activities.

  As mentioned in Reference Example 3, 10% by weight of lactic acid had a low repellent effect on mosquitoes, so lactic acid needs to be 11% by weight or more. Further, since it is applied to the skin, it is necessary to keep it weakly acidic. In order to maintain pH 4, the upper limit of lactic acid is 82% by weight. Therefore, the concentration of lactic acid of 11 to 82% by weight is appropriate for application to the skin and can also exert a high repellent effect against mosquitoes. According to Japanese Patent Application Laid-Open No. 2000-119109 of Patent Document 1, in claim 3, a mosquito repellent containing 1 to 10% of L (+)-lactic acid is mentioned. Is a biting arthropod repellent composition having a high mosquito repellent effect of 11 to 82% by weight, and has an inventive step from the invention described in the publication.

  According to invention of Claim 2 among this invention, it is set as the biting arthropod repellent composition which contains 1 to 36 weight% of at least one among gluconic acid and gluconolactone. If comprised in this way, the said composition can be applied to the skin of a person or an animal, or can be made to prevent biting arthropods such as mosquitoes from being stabbed more effectively.

  Gluconic acid and gluconolactone are precipitated when the amount exceeds 36% by weight. Therefore, gluconic acid and gluconolactone can exhibit a high repellent effect against mosquitoes without depositing when the content concentration is 1 to 36% by weight.

  According to invention of Claim 3 among this invention, it is set as the biting arthropod repellent composition impregnated with a nonwoven fabric. It is constructed in this way, impregnated with a dry non-woven fabric, and applied as a wet sheet to the skin of humans and animals, so that it can be bitten by biting arthropods such as mosquitoes in an effective and simple manner. You can get away from.

  The wet sheet is also called a wet wiper or a wet tissue, and examples of the material include rayon, 100% cotton nonwoven fabric, 100% cupra nonwoven fabric, and cellulosic material.

  The base sheet manufacturing method using nonwoven fabric is the spunlace method, spunbond method, heat bond method, melt blown method, flash spinning method, dry chemical bond method, dry needle punch method, dry thermal bond method, dry stitch bond. Method, airlaid method, wet method and the like.

  By impregnating the base sheet with at least one of lactic acid, gluconic acid, and gluconolactone, a wet sheet having a repellent effect on biting arthropods such as mosquitoes can be produced. When gluconic acid is dissolved in water, a part becomes gluconolactone, and when gluconolactone is dissolved in water, a part becomes gluconic acid. Therefore, gluconic acid and gluconolactone are in equilibrium in water, and if only gluconic acid is added together with water, the solution contains gluconic acid and gluconolactone, and if only gluconolactone is added together with water, the solution Among them are gluconic acid and gluconolactone. To the liquid to be impregnated, wetting agents such as propylene glycol, preservatives such as sodium benzoate and paraoxybenzoic acid ether, pH adjusting agents such as sodium hydroxide, anti-inflammatory agents such as peach leaf extract, purified water, etc. are added. be able to. In addition, it is desirable to adjust this composition to pH 4.0-4.5 with a pH adjuster. As lactic acid isomers, L-lactic acid, D-lactic acid and DL-lactic acid can be used, and L-lactic acid is preferred.

  Moreover, it can be set as the composition which added these functions by adding the compound which has an antibacterial effect, a moisturizing effect, and a sunscreen effect, and the powder for preventing a sticky feeling.

  The biting arthropod repellent composition according to the present invention can be formulated by incorporating it into a lotion, powder, emulsion, gel, cream, mousse or mist, as well as impregnating the wet sheet.

  The biting arthropod repellent composition according to the present invention may be contained in a bath agent, shampoo, rinse or the like. By using these bath salts, shampoos, and rinses for animals and birds such as dogs, cats, rabbits, guinea pigs, hamsters, ferrets, prairie dogs, cows, horses, pigs, sheep, mice, parakeets, buns, and birds You can avoid repelling by biting arthropods such as mosquitoes.

  In addition to lactic acid, gluconic acid, and gluconolactone, an effective bite arthropod repellent composition with a reduced content of diet as compared to a formulation containing only diet You can also

  Examples of mosquitoes that are effective in the present invention include, Anopheles Quadrata, Anofeles Farauti, Anofeles Atropal Bath, Anofeles Albimanus, Anofeles Funestas, Kinparagahashika, Ashimada Nomadaka, Inatomisioka, Yamatohaboshika, Misutohabuka , Shirokata Yabuka, Hatori Yabuka, Sesjiyabuka, Kobayashi Yabuka, Esthe Buka, Okinawa Aedes, Muneshiroyabuka, Seboriyabuka, Wataseyabuka, Chishimayabuka, Sakhalin Aedes, Hamabeyabuka, Sapporo Aedes, Daisetsuyabuka, Kitayabuka, Hakusan Aedes, Akan'yabuka, Tokachiyabuka, Hisagonumayabuka, Kin'iroyabuka, Oomurayabuka, small Kin Gray Aedes, Ezoyabuka, Hokkokuyabuka, Akaezoyabuka, Akafutooyabuka, Croft Oyabuka, Edesta Eniolinks, Edes Solicitance, Edes Scantator, Edes Tricerietas, Aedes aegypti, Miss Shimaka, Downs Shimaka, Rivers Shimaka, Yamada Shimaka, Takahashi Shimaka, Edesca Terraris, Kinirosuka Ika , Hamadaragas neka and the like.

  The bite arthropods other than mosquitoes effective in the present invention include Aokitsugebubuyu, Nipponyamabuyu, Himeshima-Dayuyu, Kiashiobuyu, Ionukaka, Tokunagaronukaka, Ishioobiabu, Nipponshirofubu, Gomafubu, Mekurabubu , Sand flies, tsetse flies, red-faced turtles, Brazilian turtles, bed bugs, human lice, head lice, leaf lice, white lice, human fleas, cat fleas, dog fleas, keops mud mines, snails, house mites, tick mites, tick mites, tick mites Tsutsugamushi, Futsutsutsugamushi, Vertical Tsutsugamushi etc. are mentioned.

  According to the biting arthropod repellent composition of the present invention, by containing lactic acid, gluconic acid and gluconolactone that are safe for the human body, it effectively repels biting arthropods such as mosquitoes. And can spend time without stinging biting arthropods in outdoor activities and daily life.

  Hereinafter, the present invention will be described in detail with reference to examples. The present invention is not limited to these examples.

Example 1
A wet sheet impregnated with a biting arthropod repellent composition was prepared according to Formula C shown below.
Lactic acid 20.00% (w / w%)
Propylene glycol 5.00% (w / w%)
Sodium benzoate 0.50% (w / w%)
Paraoxybenzoic acid ether 0.07% (w / w%)
Gluconolactone 5.00% (w / w%)
Sodium hydroxide proper amount peach leaf extract 0.10% (w / w%)
Purified water remaining

Example 2
According to the following formulation B, a wet sheet impregnated with a biting arthropod repellent composition was prepared.
Lactic acid 10.00% (w / w%)
Propylene glycol 5.00% (w / w%)
Sodium benzoate 0.50% (w / w%)
Paraoxybenzoic acid ether 0.07% (w / w%)
Gluconolactone 5.00% (w / w%)
Sodium hydroxide proper amount peach leaf extract 0.10% (w / w%)
Purified water remaining

Example 3
A wet sheet impregnated with a biting arthropod repellent composition was prepared according to the following formulation D.
Lactic acid 82.00% (w / w%)
Propylene glycol 0.50% (w / w%)
Paraoxybenzoic acid ether 0.07% (w / w%)
Sodium hydroxide 17.00% (w / w%)
Peach leaf extract 0.10% (w / w%)
Purified water remaining

Example 4
A wet sheet impregnated with a biting arthropod repellent composition was prepared according to Formula E shown below.
Gluconolactone 36.00% (w / w%)
Propylene glycol 5.00% (w / w%)
Sodium benzoate 0.50% (w / w%)
Paraoxybenzoic acid ether 0.07% (w / w%)
Sodium hydroxide proper amount peach leaf extract 0.10% (w / w%)
Purified water remaining

Reference example 1
A wet sheet impregnated with a biting arthropod repellent composition was prepared according to Formula A shown below.
Lactic acid 3.00% (w / w%)
Propylene glycol 5.00% (w / w%)
Sodium benzoate 0.50% (w / w%)
Paraoxybenzoic acid ether 0.07% (w / w%)
Sodium lactate 5.00% (w / w%)
Sodium hydroxide 0.50% (w / w%)
Peach leaf extract 0.10% (w / w%)
Trimethylglycine 1.00% (w / w%)
Purified water remaining

Reference example 2
A mosquito repellent test was carried out using a bite arthropod repellent wet sheet prepared according to the formulation C shown in Example 1. One prescription C specimen wet sheet was taken and applied to one forearm (front and back from the elbow to the fingertip) of the subject with the other hand with vinyl gloves applied evenly. The other forearm was defined as an untreated group (control) in which no treatment was performed. Prepare two transparent acrylic containers (300mm x 300mm x 300mm) with nylon goose sleeves containing 20 adults of Aedes albopictus, insert each forearm into each container, and prescription C specimen for 3 minutes every 30 seconds The number of mosquitoes that had absorbed wet blood on the forearm treated with the wet sheet, the number of mosquitoes adsorbed by landing on the untreated forearm, and the number of mosquitoes that had sucked blood for 3 minutes were recorded. This was performed three times immediately after the treatment and 2, 3, and 4 hours after the treatment. The test was performed under conditions of room temperature 27.5 ± 1 ° C. and 66 ± 1% RH. Table 1 shows the number of accretions immediately after treatment, the number of blood sucked for 3 minutes, the blood sucking rate, and the repelling rate.

  Table 2 shows the number of accretions after 2 hours of treatment, the number of blood sucked for 3 minutes, the blood sucking rate, and the repelling rate.

  Table 3 shows the number of accretions after 3 hours of treatment, the number of blood sucked for 3 minutes, the blood sucking rate, and the repelling rate.

  Table 4 shows the number of accretions after 4 hours of treatment, the number of blood sucked for 3 minutes, the blood sucking rate, and the repelling rate.

Reference example 3
Using a bite arthropod repellent wet sheet prepared according to Formula B shown in Example 2 and a bite arthropod repellent wet sheet prepared according to Formula A shown in Reference Example 1, a mosquito repellent test was conducted. It was. A single bite arthropod repellent wet sheet was taken and applied to one subject's forearm (front and back from the elbow to the fingertip) with the other hand, wearing vinyl gloves, evenly. The other forearm was defined as an untreated group (control) in which no treatment was performed. Prepare two transparent acrylic containers (300mm x 300mm x 300mm) with nylon goose sleeves containing 20 adults of Aedes albopictus, insert each forearm into each container, and wet each specimen for 3 minutes every 30 seconds The number of mosquitoes that sucked blood and arrived on the untreated forearm (the number of mosquitoes on the arm) and the number of mosquitoes that sucked blood for 3 minutes were recorded. This was performed 3 times each immediately after the treatment for Formulation B, 2, 3, and 4 hours after the treatment, and 3 times each for the formulation A immediately after the treatment and 2 hours after the treatment. The test was performed under conditions of room temperature 27.5 ± 1 ° C. and 66 ± 1% RH. The results are shown in FIG.

  According to FIG. 1, although the repelling rate immediately after the treatment of Formula A (lactic acid 3%) was high, the effect disappeared after 2 hours of treatment. For Formula B (lactic acid 10%), the repellent rate was generally low. On the other hand, for prescription C (lactic acid 20%), the repellent rate immediately after treatment was 72.8%, 42.4% after 2 hours of treatment, 39.7% after 3 hours of treatment, and 55.1% after 4 hours of treatment. It was shown that the mosquito repellent effect was sustained while relaxing, until 4 hours after treatment. Therefore, it is shown that the prescription C biting arthropod repellent wet sheet containing 20% lactic acid and 5% gluconolactone has a repellent effect on mosquitoes, which is one of the biting arthropods. It was done. That is, the lactic acid needs to be 11% by weight or more exceeding 10% by weight, and the lactic acid is 82% by weight or less in order to maintain a weakly acidic pH of 4. The present invention is excellent in mosquito repellent effect. It has been shown.

It is a figure which shows the mosquito repellent effect of the biting arthropod repellent composition by this invention.

Claims (3)

  A biting arthropod repellent composition comprising 11 to 82% by weight of lactic acid.   A biting arthropod repellent composition comprising 1 to 36% by weight of at least one of gluconic acid and gluconolactone.   The bite arthropod repellent composition according to claim 1 or 2, wherein the composition is impregnated into a nonwoven fabric.

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