CA1096771A - Complexes insectifuges - Google Patents

Abstract

ABSTRACT DESCRIPTION New insect repellent complexes combining a wetting agent with 2 to 12% by volume of acetic acid, 0.5 to 3% by volume of citronella and 0.5 to 1.5% by volume of camphor. Use of complexes in shampoo against lice and fleas.

Description

10 "6771 The invention relates to an insect repellent complex used sand especially in the form of shampoo, specially intended born to the destruction and prevention of particular insects-resistant, such as lice and fleas.
We know different constituents likely to destroy this type of insect like DDT, hexachloro-cyclohexane or lindane. However, these products are present generally try in powder form and their high toxicity makes their use dangerous by direct contact with the skin of mammals.
Now, if we take the example of lice and fleas, these plagues preferably reach young individuals, (children, puppies, kittens), therefore particular individuals-sensitive to toxic substances.
On the other hand, it is known that certain constituents aci-in liquid form such as acetic acid, are ac-against insects and parasites, especially when these products are used in concentrated solution at a pH close to

2.
Toutefoi ~, at these pHs, liquid products attack make sensitive skin of individuals so that is obliged to use them in dilute solution, which decreases notably their effectiveness.
The object of the present invention relates to a complex insect repellent to overcome these drawbacks and including the action allows on the one hand to effectively remove the in-sects and parasites and secondly to prevent their return on the treated parts.
This complex, which can be used in particular in the form of shampoo, includes a high proportion of wetting agent, such as sodium lauryl sulfate, ammonia or tri-ethanolamine, and is remarkable in that it comprises from 1 to , ~
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25% by volume of at least one organic acid having from 2 to 8 carbon atoms so as to bring the pH of the whole to a value less than 4.5 and preferably less than

3.5.
In particular, the complex objects of the invention tion may contain from 2 to 12% by volume of acetic acid, as well as 0.5 to 20%, more particularly 0.5 to 3%, by volume insecticidal and / or parasiticidal substances from natural or synthetically obtained substances, such as extracts or essences of cloves, lavender, mint peppery, oregano, rosemary, linden, juniper, lemon, lemongrass, thyme, Datura Stramonium, pine, pyrethrum, pyrethrin and essential oils Ceylon bark or cinnamon leaves.
In addition, they can advantageously contain a insect repellant and healing substance such as camphor natural or synthetic in proportions by volume com ~
taken between 1.5 and 5% and preferably between 0.5 and 1.5%.
To better understand the benefits and put in value the mode of action of the complexes according to the invention, we will describe below without limitation ~ examples of formulation corresponding to the main applications of complexes as well as examples of treatments performed.
For each formulation, we will see that the proportion of wetting agent is important.
Indeed, it was found in a surprisingly con that the insecticidal effect of acetic acid is considerable-increased by the addition of wetting agents such as sodium lauryl sulphates, ammonia or triethanol-amine, conventional cationic bases or nonionic products conventionally used in the field of shampoos. -lOq6771 This can be verified using the following test performed on weevils, ants, ear clips, lice and fleas. We dilute in thirds by volume the product produced in the examples described below then place a few drops on each insect caught between strips of fa, so that the body of the insect is impregnated about three-quarters.
We then measure the time necessary for the insect is no longer traversed by movements. We compare this time to that obtained using an aqueous acid solution acetate equivalent pH.
The results observed show that the times are on average two to five times less in the case of sham-pooing that in the case of pure acetic acid (20 to 50 se-condes instead of 1 to 3 minutes).
First example: effective hygienic shampoo against lice for adults and children. The proportions are indicated in volume.
-Wetting agent Texapant ~ 3 ~ 40 (HENKEL) diluted to 30%., 75 to 95%
- Synthetic camera .......................................... .0.5 to 1.5% - ~
-Citronella .., ....................., ....... '. ,,, ........... ......... .0.5 ~ 1.5%
-Acetic acid................. .........,.................... ,. 5 to 10%
-pH .........., ...., ................... ,,,,,,. ,,.,., ...... ,, ....., .. .1.8 to 2.3.
Case 1: Two elderly children were treated respectively 11 and 13 year olds with significant hair colony of adult lice and nits using shampoo containing 1% synthetic camphor, 1% lemon essence-nelle, 5% acetic acid and 93% Texapant ~ diluted ~ 30%
(pH adjusted to 2.1), Washing with shampoo is done a ma-tin at 9 a.m. The shampoo is used in activity during . ~

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15 minutes then washing with water is carried out.
Examination of the head shows that it no longer remains no adult lice and the proportion of nits has decreased. A
new shampoo is performed 2, 4, then 6 days later although no adult louse is observed. The number of nits is in regular regression.
New washes are performed every week.
After 3 weeks the nits have completely disappeared.
Case 2: A 15-year-old girl discovered seen while taking a bath that lice were swimming near her. It was treated each evening with a 0.8% lindane powder, wearing a cap all night and then washing with a sham-ordinary fist every morning and combed with a fine comb. At after five days, nits were still in the hair.
A single shampoo with the product indicated in the case 1 was enough to rid the hair of all parasites and stop the tedious and unpleasant treatment. ;
Case 3: A five-year-old girl for three semalnes, had nits and was treated each evening with a powder based on 0.4% lindane and 10% DDT. She kept these insecticides in their hair overnight with a hat and in the morning received an ordinary shampoo followed by a fine comb passage.
This little blond girl had parti-especially fine and numerous nits were fixed very solidly on the hair.
A first treatment with the product of case 1 does not gave only a partial result. We had to do two more product applications to achieve total elimination nits.

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Second example: treatment of fleas, lice and ticks in dogs.
A shampoo containing 6% acetic acid was used tick, 1.5% lemongrass and 1.5% clove essence and 91%
Texapant ~ diluted to 30% (pH adjusted to 2).
An adult Dachshund dog infested with fleas.
Washing with a veterinary shampoo ~ -above is practiced one morning at 8 o'clock. At 12 noon on; ~
dog no longer has fleas and is no longer contaminated during -for 3 days despite an unfavorable environment.
A maintenance treatment consisting of spraying -a lotion consisting of a solution of thyme coction to 25%, 73% apple cider vinegar and 2% lemon grass allows avoid any return of parasites until disinfection of the environment (premises and fabrics) using of Example 3.
Third example: Treatment of premises and fabrics.
We used a shampoo composed of 10% acid acetic, 2% citronella essence and 2% camphor (pH
adjusted to 1.8).
'' In a room that has been vacant for some time closed, with disparate objects and fabrics, a pro-flea longevity has been noted.
After storing the objects, the carpet covering a part of the floor and tiles are sprayed with shampoo diluted in twice its volume of water. Two hours later, fleas no longer give any sign of life.
Likewise, we have successfully treated dogs, blankets and baskets by treating them with solutions of 5 cm3 of shampoo for one liter of water.

,, ~. ._. AT 5 In general, the mode of action of the products objects of the invention is as follows: a shampoo is practiced parts to be treated using the complexes described above, the products are left to act for a duration generally taken between one to ten minutes for individuals and between five twenty minutes for objects.
Rinse thoroughly which results in acetic acid or its equivalents as well as insects and parasites.
After washing, we see that the. repul-insects stay in sufficient quantity to protect ~
against new infections. ;
In many cases, however, there is interest in con-continue treatment by successive washes spaced until until the larvae have completely disappeared and apply a maintenance treatment including sprays or sprays different species of insecticide or parasitic products:
cides mentioned above, with or without camphor but preferably ~
without acetic acid, i.e. lemon grass, essence.
cloves, lavender, peppermint, oregano, romax, lime, juniper, lemon, thyme, Datura Stra-monium, pyrethrum or Cey cinnamon essential oil::
lan.
These sprays permanently protect the suje s between each shampoo. .
We also compared the insecticide action of shampoo in accordance with that used in case 1 of the example 1, compared to a 15% powdered lindane preparation in weight as follows::
1. Tests on adult louse:
In a cup, put 5 cm3 of pure shampoo, then 5 lice (pediculus humanus) are deposited there. Death is im-... . ... ... . .. ... ...

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mediate. In order to be certain of the result, another test was been done leaving only 10 seconds the lice in the shampoo, removing them with a wooden stick. We put them under a magnifying glass and we observe the actual death of lice.
We operate in the same way with the shampoo di- ~ - * -50% and then 25% in order to get closer to the concentrations of use which vary from 25 to 100%.
Lice death is slower with these two di-lutions and the lice recovery test shows that after;
30 seconds, lice do not come back to life.
The same tests are performed on the phtiriuspubis species with the same percentage mortality of 100% after 30 seconds. These tests are repeated in comparison with a pre-15% lindane powder coating. -The table below summarizes the results obtained:
Adult pediculus humanus trials:
Percentage of mortality:

After after after - 0 seconds 30 seconds 2 hours RS 206 * pure 100% 100% 100%
RS 206 diluted to 50% 20% 100% 100%
RS 206 diluted to 25% 0% 100% 100%
Lindane powder 15% 0% 0% 50%
The same test was carried out on adults of phtirius pubis with identical results.
2. Tests on nits of pediculus humanus: ~ -It was very difficult to know whether the nits had well been you ~ are by the product because to be certain of their * RS 206 means Rabi and Solabo ~ o. 206 which is a number in the series of products developed by Laboraboires Rabi and Solabo.

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.,. ~. , ~

~ Q "6771 dead, wait 2 to 5 weeks; separating the the hair on which it is stuck may be the factor of destruction.
The following test was performed: On a child bearing 10 hairs with nits were removed and placed in cups with; test or water, for a period of 15 minutes and then stored at temperature of 22.
Some nits in the shampoo are separated from the hair, others remain glued. The observations focused on over five weeks and the results were as follows:
Observations on the hatching of nits:
1st week 2nd 3rd 4th 5th RS 206 pure 0 0 0 0 0 RS 206 diluted to 50% 0 0 0 0 0 Lindane 15% powder 0 0 0 0 0 The same test was carried out on nits of phtirius pubis with identical results.
The product is therefore more active than a formulation of 15% lindane, 0.4 and 0.8% Lindane formulations have an insufficient to be used as a comparison element;
ralson.
On the other hand, the bacteriostatic action of the products according to the invention has been verified and this although they do not none of the bacteria commonly used, such as as methyl paraoxybenzoate but various tests have shown that no bacteria were growing in the pure product or diluted to 50%.
The study made to verify that the preparation was bacteria-free has been sued in front of the results interesting obtained.
The technique used was the following with the shampoo from Example 1:
1) Inoculation on ordinary agar, 2) Storage in an oven at 37 for 48 hours then for seven days.
Results:
After 48 hours After 7 days Pure shampoo 0 colony 0 colony Shampoo diluted to 50% 0 colony 0 colony After seeding with escherichia coli:
After 48 hours After 7 days -Pure shampoo 0 colony 0 colony - ~
Shampoo diluted to 50% 0 colony 0 colony Finally, the toxicities noted can vary in a way -~ important con, which strengthens the int ~ stop acetic acid associated in synergy with a wetting agent giving it a increased insecticidal power while maintaining its toxicity in limits entirely compatible with its use, in 20 contact with sensitive epidermis.
In fact, the PO toxicity obtained by administra- -tion of the shampoo according to Example 1 to RIVER mice males of average weight 25 grams, indicated for maximum dose tolerated 24 ml / kg and for lethal dose 100, a value of 40 ml / kg.
The results do not allow to assess a dose lethal 50. By comparison, it can be recalled that the dose lethal 50 for lindane observed with aqueous preparations given orally to mice is approximately 300 mg / kg.
Finally, the study of local skin tolerance has helped . .. ~
~ '.
_g _ lOq6771 put to determine the primary irritation index of 0.3 so weak, repeated application tests on the ear of sou-ris allowed to conclude that the shampoo was not irri-so many and repeated applications on the rabbit's coat have showed excellent tolerance.
Only eye level tests suggest that the shampoo can be irritating but that this irritating action tive is very weak after a dilution corresponding to the use of the product.
Other applications and variants of the invention are will easily be made by those skilled in the art without doing so depart from the scope of the invention, in particular by substituting equivalent with different products described above, by example by replacing acetic acid with homolo-but it was found that the results obtained could be significantly lower, especially with propionic and caprilic acids.

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Claims (8)

The embodiments of the invention, about which an exclusive right of property or privilege is claimed, are defined as follows: 1. Insecticide and insect repellant complex usable under form of shampoo characterized in that it comprises as insecticide and insect repellent from 1 to 25% by volume of minus one organic acid having 2 to 8 carbon atoms so as to bring the pH of the whole to a lower value to 3.5 associated with a wetting agent. 2. Complex according to claim 1, characterized in that that it comprises from 2 to 12% by volume of acetic acid so to bring the pH of the whole to a value lower than 3.2. 3. Complex according to claim 1, characterized in that that it further comprises from 0.5 to 20% by volume of substances, natural or synthetic, insecticides and parasiticides of type belonging to the class constituted by the essences of cloves, lavender, peppermint, oregano, rosemary, lime, juniper, lemon, lemongrass, thyme, of datura stramonium, pyrethrum and essential oils Ceylon bark or cinnamon leaves. 4. Complex according to claim 3 characterized in that that it comprises from 0.5 to 3% by volume of lemongrass. 5. Complex according to claim 1, characterized in what it further includes an insect repellent substance and catalytic of the synthetic or natural camphor type according to proportions between 0.5 to 5% by volume. 6. Complex according to claim 5 characterized in that that it comprises from 0.5 to 1.5% by volume of camphor. 7. Complex according to one of claims 1 to 3, charac-terized in that the wetting agent is lauryl sulfate sodium. 8. Essentially characterized insecticide shampoo by the fact that it comprises 75 to 95% by volume of an agent diluted wetting agent, and 2 to 12% by volume of acetic acid, the pH
shampoo being less than 3.5.