Drug – bio-affecting and body treating compositions – Designated organic active ingredient containing – Having -c- – wherein x is chalcogen – bonded directly to...
Reexamination Certificate
1999-03-23
2001-03-06
Clardy, S. Mark (Department: 1616)
Drug, bio-affecting and body treating compositions
Designated organic active ingredient containing
Having -c-, wherein x is chalcogen, bonded directly to...
C514S557000
Reexamination Certificate
active
06197784
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to a process for controlling and destroying pathogenic small creatures, in particular insects and worms.
BACKGROUND OF THE INVENTION
For as long as anyone can remember, humans and animals and also plants have been plagued or harmed by a variety of pathogenic small creatures from the groups of insects and worms. Mosquitoes, such as malaria-carrying anopheles mosquitoes, and the larvae of schistosoma (trematodes) which cause bilharziasis may be mentioned by way of example.
There has been no lack of effort to eradicate malaria. Thus, the insecticide DDT was previously sprayed in large amounts in order to control the mosquitoes. However, the good effects had to be balanced against damage to the ecological equilibrium and the use of DDT has now been banned.
The use of chlorine-releasing agents, such as sodium hypochlorite, has also been tried. Again, this agent did not gain general acceptance because it is difficult to handle and, when used in inland waters, it inevitably leads to undesirable salt production and the formation of undesirable chlorinated organic compounds. In tropical and sub-tropical countries, attempts have also been made to lower the surface tension of waters by using surfactants in order to prevent the larvae remaining below the surface of the water. The disadvantages of this technique, these being responsible for the limited use of this method, are that some of the mosquitoes can escape from the range of spread of the surfactants and/or too large an amount of surfactant is required.
U.S. Pat. No. 5,393,781 discloses controlling zebra mussels in cooling circuits by using a peracetic acid solution. This document does not mention any other classes of animals which could be controlled using peracetic acid. The use of peracetic acid as a microbicide for controlling bacteria, viruses, yeasts, algae and moulds has been known for a long time.
SUMMARY OF THE INVENTION
The object of the invention is to provide a process for controlling and destroying disease-causing and/or troublesome insects which does not have the disadvantages inherent in the methods used hitherto, or exhibits them to a much smaller extent.
The object is achieved by a process for controlling and destroying small creatures from the group of insects and worms which are pathogenic to humans, animals and plants, by the application or introduction of a liquid controlling agent to surfaces and/or in waters, which is characterised in that an aqueous percarboxylic acid solution, containing one or more percarboxylic acids with 1 to 6 carbon atoms, is used as the controlling agent.
The small creatures to be controlled, wherein “controlled” is understood to mean a reduction in the population, are small creatures from the classes of insects and worms which are pathogenic to humans and animals. The process according to the invention relates in a particular manner to the control of pathogenic insects by destroying the larvae in their preferred habitat. The preferred habitat of larvae is a moist medium, in particular substantially stagnant, shallow waters such as near the banks of lakes, ponds, paddy-fields, swamps and the like. Pathogenic worms can be controlled in the same way, wherein application in shallow waters is of special importance. Examples of insects which are present in tropical and sub-tropical areas and which can be controlled according to the invention are mosquitoes, flies and bugs which transfer unicellular organisms, threadworms and viruses by stinging or on contact and may thus cause serious illnesses. Examples are, when they sting, anopheles mosquitoes that introduce plasmodia which lead to malaria; sandflies that introduce leishmania which causes kala-azar skin disease; tse-tse flies that transfer trypanosoma which initiates sleeping sickness; certain mosquitoes that transfer viruses which cause dengue fever; other mosquitoes that transfer the agent which causes yellow fever; finally the midges which are present in particular in the vicinity of paddy-fields and which cause Japanese encephalitis, should be mentioned.
Among the pathogenic worms which need to be controlled, the schistosoma (trematodes, leeches) which cause bilharziasis are of particular importance. Infection takes place through contact of humans with freshwater and brackish water in which schistosoma larvae are present. To control the larvae, it is expedient to treat shallow, stagnant waters, in particular in the vicinity of the bank, with a solution of percarboxylic acid. Tapeworms and threadworms which are pathogenic to fish and which live in water can be controlled in a similar manner.
To control larvae of, for example, worms which live in the vicinity of the surface of soil, such as hookworms which can lead to ancylostomiasis following contact with the skin, percarboxylic acid solution can be applied to the soil at an effective concentration.
An effective concentration of percarboxylic acid(s) in the medium being treated is normally in the range from 1 to 5000 ppm, in particular in the range from 10 to 500 ppm. The treatment of surfaces, such as soil or water surfaces, can be achieved by means of spraying equipment which is conventionally used for agricultural purposes, such as large spray guns or vehicles with wide booms which are provided with nozzles. For the treatment of surface layers of water, percarboxylic acid solution may also be introduced directly into the water and distributed by means of appropriate mixing devices such as pumps or ship's propellers.
The percarboxylic acids to be used, which are also called peroxycarboxylic acids, may be monoperoxy-C
1
-C
6
-monocarboxylic acids, monoperoxy- or diperoxy-C
4
-C
6
-dicarboxylic acids or monoperoxyhydroxycarboxylic acids with 2 to 6 carbon atoms and 1 or 2 hydroxyl groups. Examples are performic acid, peracetic acid, perpropionic acid, mono- and diperoxysuccinic acid, mono- and diperoxyglutaric acid, peroxylactic acid, peroxyglycolic acid and peroxytartaric acid. Peracetic acid, performic acid and solutions containing peracetic acid and performic acid are preferred.
In general, as a result of the method of preparation, the solutions contain hydrogen peroxide and the carboxylic acid(s) from which the percarboxylic acid(s) is/are derived. In addition, the solutions generally contain a mineral acid catalyst which accelerates establishment of the equilibrium. The highest peracid concentration which can be achieved during reaction of hydrogen peroxide with a carboxylic acid in the aqueous phase with a given ratio by weight of the reaction partners, is the equilibrium concentration. Accordingly solutions in or close to the equilibrium state or dilute solutions which have been obtained therefrom by diluting with water before use are used. The undiluted solutions to be used expediently contain about 0.1 to about 5 moles, in particular 0.2 to 2 moles, of percarboxylic acid per liter.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
In accordance with a preferred embodiment, a percarboxylic acid solution is used which contains, as a result of the method of preparation, orthophosphoric acid, pyrophosphoric acid and/or polyphosphoric acid of the formula H
n+2
P
n
O
3n+1
, wherein n is an integer equal to or greater than 3, in particular 3 to 10. The concentration of these types of phosphoric acids is generally in the range from about 0.1 to about 3 wt. %, in particular about 0.5 to about 1 wt. %. These types of solutions preferably contain peracetic acid or performic acid or both carboxylic acids as the percarboxylic acid, wherein this combination has preferably been produced in situ prior to use, for example by mixing a peracetic acid solution and a source of formic acid, such as formic acid or a water-soluble formate, and allowing the mixture to stand for from a few minutes up to a few hours.
An advantage of this type of solution is regarded as the fact that the phosphoric acid component is more beneficial from an ecological point of view than the conventionally used sulfuric acid, when introducing the percarboxylic a
Fuchs Rainer
Huss Michael
Clardy S. Mark
Degussa-Huls AG
Pillsbury Madison & Sutro LLP
Pryor Alton
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