Abstract: Disclosed herein are spatial insect repellent compositions comprising pyrethrins and about 5% to about 20% by weight p-menthane-3,8-diol.

Abstract: The present invention is directed to pesticidal mixtures comprising sabadilla alkaloids and pyrethrum esters and methods of controlling pests including insects and mites by application of pesticidal mixtures comprising sabadilla alkaloids and pyrethrum esters.

Abstract: The present invention is directed to pesticidal mixtures comprising sabadilla alkaloids and azadirachtin and methods of controlling pests including insects and mites by application of pesticidal mixtures comprising sabadilla alkaloids and azadirachtin.

Abstract: The inventors provide a composition comprising an antimicrobial polypeptide comprising Blad or an active variant thereof for use in a method of treatment of the human or animal body by therapy or prophylaxis, such as for use in a method of treating or preventing an infection in or on a subject by a microorganism. Also provided is the use of a composition comprising an antimicrobial polypeptide comprising Blad or an active variant thereof to kill, or inhibit the growth of, a microorganism that is pathogenic to a human or an animal at a site that is not on or in the human or animal body.

Abstract: The inventors provide the use of a chelating agent and an antimicrobial agent that is effective against a plant pathogenic microorganism to inhibit the growth of and/or kill a plant pathogenic microorganism on a plant; the use of a chelating agent to increase the activity of an antimicrobial that is effective against a plant pathogenic microorganism; a method of inhibiting the growth of and/or killing a plant pathogenic microorganism comprising administering to a plant in need thereof a chelating agent and an antimicrobial agent that is effective against a plant pathogenic microorganism; and a method of increasing the activity of an antimicrobial that is effective against a plant pathogenic microorganism comprising using said antimicrobial with a chelating agent.

Abstract: Disclosed are insecticidal compositions and associated methods that comprise an insecticide, C2-4 alkylene carbonate, C2-6 polyalkylene glycol, and a block co-polymer of C2-5 polyalkylene glycol and C3-6 polyalkylene glycol.

Abstract: Disclosed are insecticidal compositions and associated methods that comprise an insecticide, C2-4 alkylene carbonate, C2-6 polyalkylene glycol, and a block co-polymer of C2-5 polyalkylene glycol and C3-6 polyalkylene glycol.

Abstract: The present invention is directed to pesticidal mixtures comprising sabadilla alkaloids and a pyrethroid and methods of controlling pests including insects and mites by application of pesticidal mixtures comprising sabadilla alkaloids and a pyrethroid.

Abstract: The inventors provide a composition comprising an antimicrobial polypeptide comprising Blad or an active variant thereof for use in a method of treatment of the human or animal body by therapy or prophylaxis, such as for use in a method of treating or preventing an infection in or on a subject by a microorganism. Also provided is the use of a composition comprising an antimicrobial polypeptide comprising Blad or an active variant thereof to kill, or inhibit the growth of, a microorganism that is pathogenic to a human or an animal at a site that is not on or in the human or animal body.

Abstract: The present invention describes a synergistic composition comprising of one or more statins, or one or more dipeptidyl peptidase IV (DPP IV) inhibitor or one or more biguanide antihyperglycaemic agent and a PPAR agonist of formula (Ia) for the treatment of diabetes, especially non-insulin dependent diabetes (NIDDM) or Type 2 diabetes and conditions associated with diabetes mellitus and to compositions suitable for use in such method. The invention also describes the preparation of such compositions. The present invention also relates to certain novel salts of the PPAR agonist of formula (I), processes for the preparation of these novel salts and use thereof.

Abstract: The inventors provide the use of a chelating agent and an antimicrobial agent that is effective against a plant pathogenic microorganism to inhibit the growth of and/or kill a plant pathogenic microorganism on a plant; the use of a chelating agent to increase the activity of an antimicrobial that is effective against a plant pathogenic microorganism; a method of inhibiting the growth of and/or killing a plant pathogenic microorganism comprising administering to a plant in need thereof a chelating agent and an antimicrobial agent that is effective against a plant pathogenic microorganism; and a method of increasing the activity of an antimicrobial that is effective against a plant pathogenic microorganism comprising using said antimicrobial with a chelating agent.

Abstract: The present invention is directed to pesticidal mixtures comprising sabadilla alkaloids and pyrethrum esters and methods of controlling pests including insects and mites by application of pesticidal mixtures comprising sabadilla alkaloids and pyrethrum esters.

Abstract: The present invention relates to a method for stabilizing rotigotine, the method comprising providing a solid dispersion comprising polyvinylpyrrolidone and a non-crystalline form of rotigotine, wherein the weight ratio of rotigotine to polyvinylpyrrolidone is in a range from about 9:3.5 to about 9:6. The present invention also relates to a solid dispersion comprising a dispersing agent and a dispersed phase, said dispersed phase comprising rotigotine and polyvinylpyrrolidone, wherein the weight ratio of rotigotine to polyvinylpyrrolidone is in a range from about 9:3.5 to about 9:6, a pharmaceutical composition comprising such a solid dispersion, in particular a transdermal therapeutic system, as well as a method for the preparation thereof.

Abstract: The present invention provides an agricultural pesticide formulation of reduced toxicity and high dispersibility, and a process for making the same.

Abstract: Pesticidal compositions that improve soil residual efficacy of sulfoxaflor are disclosed.

Abstract: Methods of controlling the feeding and/or breeding behavior of a target insect are disclosed in which a host plant is provided a substantial distance from a plant of interest, chemical attractant that induces the target insect to lay eggs on the host plant is applied to the host plant, application of the chemical attractant to the host plant is repeated as required to induce residual target-insect populations to lay eggs on the host plant, and wherein the behavior is controlled when a substantial number of off-spring belonging to subsequent generations themselves mature and display a preference for laying eggs on the same type of host plant on which they were reared without further application of the chemical attractant is provided. Also disclosed are methods of deterring target insect feeding and breeding on plants of interest by applying toxic plant extract to the plants of interest.

Abstract: The present invention relates to method of manufacturing a prytheroid-treated fabric and manufactured products created thereby. Through the development and application of prytheroid nanocapsules to a fabric, the fabric exhibits insecticidal properties, even following successive washings and solar exposure.

Abstract: Compounds of formula (I) wherein the symbols have the meaning given in the specification, as well as processes for preparing the compounds (I), pesticidal compositions and synergistic mixtures comprising compounds (I), methods for the control of insects, acarids or nematodes by contacting the pests or their food supply, habitat or breeding grounds with a pesticidally effective amount of compounds formula (I), and a method for treating, controlling, preventing or protecting animals against infestation or infection by parasites which comprises orally, topically or parenterally administering or applying to the animals a parasiticidally effective amount of compounds of formula (I).

Abstract: An insecticidal composition comprising stabilized pyrethrins or pyrethroids is provided. Such composition includes stabilizing effective amount of N,N-dialkyl fatty acid amide solvents and certain ultraviolet-light absorbers. In such composition, the pyrethrins or pyrethroid can retain their insecticidal activity for an acceptably long period of time. Therefore, an advantage of this invention is to provide a topical pyrethrins or pyrethroid based insecticide which can remain effective in light over a long time period. Another advantage of this invention is to provide a stabilized topical pyrethrins or pyrethroid insecticide insecticidal formulation containing a high concentration of the active pyrethrins or pyrethroid ingredient to minimize the volume of formulation required.

Abstract: Insecticidal compositions having insecticide and disinfectant activity are provided. Preferably, the insecticidal composition contains both an insect control agent and a disinfectant. Particularly low levels (i.e., below 20%) of at least one hydrocarbon are introduced as a solvent. The insecticidal compositions further comprise an emulsifier, buffer and antifoaming agent. These insecticidal compositions are particularly suitable for delivery in a spray for non-industrial environments. In use, the present insecticidal compositions may be applied directly to or in or around any area where it is desired to control pestiferous insects and the fungi, bacteria, viruses and other contaminants associated with them.

Abstract: The invention relates to a lure for attracting, and in some circumstances, killing dust mites, especially house dust mites. The lure comprises neryl formate and/or limonene and is usually arranged in powder form to allow it to be shaken over an area containing the mites. What about liquid that dries.

Abstract: The invention provides a specially designed headband saturated with a chemical solution that deters lice infestations. The invention provides an effective means of preventing lice from infesting the head and scalp, sparing a user the hassle and discomfort associated with eradicating lice with stringent shampoo. The Preventive 30 Day Lice Activated Headband is a gentle yet effective formula that repels lice, prevents infestations from occurring and controls the spread of lice.

Abstract: The present invention relates to a wool care composition comprising pyrethroid insecticide, a copolymer and a solvent wherein the said copolymer binds with the solvent and pyrethroid insecticide. This composition can be an improved aerosol spray formulation for treating of pure or blended woollen clothing and textile, fur and feather lined garments and other keratinous items for protection or insect proofing from various types of insect pests both clothes moths and carpet beetles during their storage, transport and use. Wool care aerosol solution can be sprayed with pressurized container having either a propellant as ready-to-use aerosol or manually operated sprayers. The aerosol spray composition may also contain fragrance and solvent. The other components in the composition are at least one copolymer/emulsifier and/or dispersant.

Abstract: The present invention provides a concentrate for dilution with water in the preparation of an agricultural composition for application to crops, soil or animals. The concentrate is recommended for use with agricultural chemicals whose agricultural activity varies with the pH of the water. It comprises an active ingredient and a combination of pH indicators for coloring the water, the pH indicators being selected so as to indicate different colors of spray water at different pH levels. The proportions of active ingredient and pH indicators are selected so that when the concentrate is added to water, the pH indicators indicate visually upper and lower pH limits for optimum activity of the agricultural chemical.

Abstract: The present invention provides a new insecticide formulation based on cyclodextrin characterized in that the active substance (insecticide and/or insect growth regulator), and a compound synergistic with the active substance, are complexed simultaneously with cyclodextrin. The formulation presents as a solid or as a solid/oil composition, and is soluble or completely emulsifiable in water or in aqueous mixtures of water miscible solvents. The activity of the present formulations was found to be greater than that of a mixture of the two active components each complexed separately with cyclodextrin, for the same dose. The preparation process of said formulation and its use as an insecticide in agriculture, for veterinary use or to eliminate household insects, are further aspects of the present invention.

Abstract: A composition includes an agricultural component in an amount of at least about 27% by weight and a solvent composition in an amount not greater than about 55% by weight. The solvent composition includes an amide having a structure of Formula I: wherein R1 comprises a C3 to C15 hydrocarbon group, and wherein R2 and R3 comprise a C1 or higher hydrocarbon group.

Abstract: Disclosed herein are insect repellant formulations and dispensing systems which avoid the need for synergists while still using highly effective pyrethrin repellant compounds. The formulations preferably are presented in aerosol form.

Abstract: The present invention deals with an alternative interfacial polymerization process of microencapsulation, microcapsule's produced thereof, microencapsulated agrochemicals, pharmaceuticals, catalysts and phase transfer materials, and formulations thereof, by means of microcapsules and starting materials with much lower toxicological profile than customary microencapsulation materials, and with the participation of acetylene carbamide derivatives in the final structure of the microcapsules' wall.

Abstract: The present invention relates to novel skin-friendly dermally applicable liquid formulations comprising a pyrethrin or pyrethroid and MGK 264 in a ratio of at least 1:20 and a further insecticide, preferably from the group of the neonicotinoids, for controlling parasitic arthropods on animals.

Abstract: A microcapsule comprising a core material containing pyrethrin and a capsule shell wall which surrounds said core material, said shell wall material comprises gelatin and at least one polysaccharide selected from the group consisting of gum arabic and pectin is effective for controlling insects.

Abstract: Insecticidal compositions suitable for use in preparation of insecticidal liquid fertilizers comprising a pyrethroid, a hydrated aluminum-magnesium silicate, and at least one dispersant selected from the group consisting of a sucrose ester, a lignosulfonate, an alkylpolyglycoside, a naphthalenesulfonic acid formaldehyde condensate and a phosphate ester are disclosed.

Abstract: A structure comprises at least a porous body holding a substance releasably, comprising a capping member for keeping the substance inside the pore and/or on at least a part of the entire surface of the porous body, and a connecting member for connecting the porous body and the capping member separably, the connecting member comprising a biopolymer compound. A method for releasing a substance from the structure set forth comprises the steps of applying stimulation from outside to the structure, and cleaving at least one of the bonding between the connecting member and the capping member and the bonding between the connecting member and the porous member to make the substance releasable from the structure.

Abstract: It is intended to provide novel amine compounds which are efficacious against diseases such as infection with HIV virus, rheumatism and cancer metastasis. Namely, amine compounds represented by the following general formula (1): In a typical case, A1 and A2 represent each an optionally substituted monocyclic or polycyclic aromatic heterocycle; W represents cyclic C3-10 alkylene, an optionally substituted monocyclic or polycyclic aromatic heterocycle, a monocyclic or polycyclic aromatic ring or a partly saturated polycyclic aromatic ring; X represents O, CH2, C(?O) or NR11; and D is a group represented by the following general formula (4) or (6). In the formula (6), Q represents a single bond, S, O or NR12; and Y is a group represented by the following general formula (7). z represents an optionally substituted monocyclic or polycyclic aromatic ring. In the formula (6), B represents NR25R26. In the above formulae, R1 to R26 each represents hydrogen, alkyl, alkenyl or alkynyl.

Abstract: A carpenter bee trap having at least one entrance hole, at least one plenum section connecting the at least one entrance hole to at least one receptacle adapter coupling, and least one removable receptacle attached to at least one receptacle adapter coupling, the at least one removable receptacle made of a material that admits ambient light to a greater extent than the material forming the plenum such that insects entering the trap follow a path of increasing intensity of ambient light that leads them to the receptacle. Various embodiments employ one or more preferred carpenter bee habitat features including an overhanging roof protecting the entrance hole from the weather, an entrance hole that slopes upward from horizontal, entrance holes surrounded by wood, and an opaque material forming the plenum regions such that the interior in the vicinity of the entrance holes is relatively dark.

Abstract: Disclosed are substrates suited for dispensing air treatment chemicals upon being heated. Granular particles, preferably sand with a phenolic binder, are adhered together to form a substrate body having a network of pores. A volatile air treatment chemical is disposed in the pores. The particle size and pores are such that the smaller particles of the substrate are grouped at one end, preferably an end adjacent to a projecting nose. This structure tends to wick the volatile air treatment chemical towards the nose, and heating that area can lead to efficient, and rechargeable, dispensing. Methods for using such substrates, and methods for forming such substrates, are disclosed.

Abstract: A mixture for application on an animal to provide barrier protection against insects, parasites, arachnids and/or other arthropods, and ectoparasites, and in general viruses, bacteria and/or other microorganisms is provided. The mixture includes a carrier or combination of carriers, especially mineral oil, that at least after application has an absolute or resultant viscosity of from 100 to 1200, and especially greater than 120, and especially 300 to 650 S.U.S. The mixture also includes an insecticide, ectoparasitide, insect or other arthropod growth regulator (IGR), viricide, bacteriacide and/or bacteriostatic compound that is blended with the carrier and that acts non-systemically. The mixture contains essentially no surfactant, emulsifier, or emulsifying agent, either in solution or suspension.

Abstract: A semi-flexible insecticide strip is removably attached to the belt of a pelt collar to regenerate a pest-killing medicament and increase its efficacy. The strip is secured to the belt surface that faces the animal skin or fur by attachment loops or edged retainers that are generally perpendicular to the length direction of the belt. Due to the geometry and elasticity of the semi-flexible insecticide strip, and its attachment method, the strip contacts the skin or fur of the animal despite movement of the pet collar when the animal is being exercised with a pet leash attached thereto. The contact effectively transfers the insecticide and kills ticks and fleas or retards development of mature flea adults. The insecticide is contained within a plurality of plastic pores of the insecticide strip or in a sponge affixed thereto.

Abstract: A material having insecticidal and acaricidal properties comprising: A) From 99.95 by weight to 70.0% by weight a propylene based polymer obtainable by using a catalyst system comprising a metallocene compound having the following properties: i) a Melt Flow Rate (MFR) (ISO 1133) comprised between 2 and 100; ii) A distribution of molecular weight Mw/Mn lower than 4; iii) Isotactic pentads (mmmm) comprised between 90% and 99%; B) From 0.05% to 30% by weight of an adduct of formula T1-T2 resulting from the condensation of T1 and T2, wherein T1 comprises at least one pyrethroid substance, which is substantially stable up to a temperature of at least 150° C.; T2 is an ethylenically unsaturated substance chooses from the group consisting of: (a) a surfactants, (b) vinyl phospates and (c) mixtures thereof.

Abstract: Nanoemulsions and processes for their preparation, and their use as formulations of plant protection products and/or pesticides and/or cosmetic preparations.

Abstract: Volatile impregnated substrates, such as wicks and mats, that can be used in a dispensing device that uses a heat source or otherwise uses active means to promote the release of the volatile material from the substrate are disclosed. The preferred substrate has a structure including sand particles adhered together by a binder to form a network of pores and passages. The binder is selected from thermoset polymeric materials and mixtures thereof. A volatile material is disposed in the pores before the substrate is installed in the dispensing device. The impregnated substrate is positioned in the dispensing device on or near the heat source of the dispensing device. The heat source is activated thereby elevating the temperature of the substrate such that volatile material is released from the pores. In one embodiment, the sand particles comprise silica sand and the binder is a cured novolac resin.

Abstract: Volatile impregnated substrates, such as wicks and mats, that can be used in a dispensing device that uses a heat source or otherwise uses active means to promote the release of the volatile material from the substrate are disclosed. The preferred substrate has a structure including sand particles adhered together by a binder to form a network of pores and passages. The binder is selected from thermoset polymeric materials and mixtures thereof. A volatile material is disposed in the pores before the substrate is installed in the dispensing device. The impregnated substrate is positioned in the dispensing device on or near the heat source of the dispensing device. The heat source is activated thereby elevating the temperature of the substrate such that volatile material is released from the pores. In one embodiment, the sand particles comprise silica sand and the binder is a cured novolac resin.

Abstract: Volatile impregnated substrates, such as wicks and mats, that can be used in a dispensing device that uses a heat source or otherwise uses active means to promote the release of the volatile material from the substrate are disclosed. The preferred substrate has a structure including sand particles adhered together by a binder to form a network of pores and passages. The binder is selected from thermoset polymeric materials and mixtures thereof. A volatile material is disposed in the pores before the substrate is installed in the dispensing device. The impregnated substrate is positioned in the dispensing device on or near the heat source of the dispensing device. The heat source is activated thereby elevating the temperature of the substrate such that volatile material is released from the pores. In one embodiment, the sand particles comprise silica sand and the binder is a cured novolac resin.

Abstract: A method of preparation of a fungal glucane hydrogel having antibacterial and immunostimulant activity by alkaline deproteination and subsequent elimination of water-soluble components consists in that the obtained insoluble glucan is subsequently hydrated by wet grinding at a rotational speed of 3000 to 9000 rpm for 10 to 20 min. to a swelling volume in water of 50 to 500 ml/g. Then it is adjusted by heat sterilization at a temperature of 90 to 110° C. for 20 to 30 min., what results in a gel which is formed by fungal polysaccharide with the ?-(1,3)-D-bond in the principal chain, with a concentration of 0.5 to 3% by weight. The fungal glucane hydrogel may be utilized for preparation of cosmetical, pharmaceutical and foodstuff products.

Abstract: Synergistic and residual pesticidal compositions containing synergistic and residual mixtures of plant essential oils and/or their constituents, plant essential oils and/or their constituents in admixture with known active pesticidal compounds or plant essential oils and/or their constituents in admixture with other compounds not previously used as active ingredients in pesticidal formulations, such as, for example, so called signal transduction modulators. In addition, the present invention is directed to a method for controlling pests by applying a pesticidally effective amount of the above synergistic and residual pesticidal compositions to a locus where pest control is desired.

Abstract: The use of dill oil or a mixture of two or more components thereof as a potentiator for a pesticide, such as an insecticide and in particular a pyrethroid is described, together with compositions containing dill oil, and their use in agriculture and in veterinary applications.

Abstract: A method of manufacturing an insect coil includes the steps of feeding a sheet of dough material which includes an active insect control ingredient dispersed therein in a first direction, cutting the sheet of dough material with a die to form an insect coil, ejecting the insect coil from the die, and applying an extra dose of active to a specific location on the coil while the coil is being ejected from the die. Preferably, the extra dose of active is applied as a droplet using capillary forces that develop between the upper surface of the insect coil and the droplet itself and is forced through a tube located above the desired location. The insect coil may be tip treated only or may be zone treated at a plurality of spaced locations.

Abstract: A composition includes an agricultural component in an amount of at least about 27% by weight and a solvent composition in an amount not greater than about 55% by weight. The solvent composition includes an amide having a structure of Formula I: wherein R1 comprises a C3 to C15 hydrocarbon group, and wherein R2 and R3 comprise a C1 or higher hydrocarbon group.

Abstract: Synergistic and residual pesticidal compositions containing synergistic and residual mixtures of plant essential oils and/or their constituents, plant essential oils and/or their constituents in admixture with known active pesticidal compounds or plant essential oils and/or their constituents in admixture with other compounds not previously used as active ingredients in pesticidal formulations, such as, for example, so called signal transduction modulators. In addition, the present invention is directed to a method for controlling pests by applying a pesticidally effective amount of the above synergistic and residual pesticidal compositions to a locus where pest control is desired.

Abstract: The present invention relates to a new formulation characterised by the presence of two components, one of which (A) possesses insecticidal, acaricidal, fungicidal, snailcidal or vermicidal activity and the other (B) exhibits synergistic activity with the first by enhancing its effectiveness, and in which the average release time of component (A) is 1 to 12 hours later than the average release time of component (B). The formulation is obtained by: a) separate microencapsulation of both components (A) and (B) within a multilayer system of specific polymers in which component (A) is in a more interior portion of the capsule than component (B), being separated from component (B) by a polymer layer of suitable thickness (FIG. 1); b) microencapsulation of both components within a single layer system (FIG. 2), combined with an immediate-release emulsion/microemulsion containing an additional amount of component (B).

Abstract: Synergistic and residual pesticidal compositions containing synergistic and residual mixtures of plant essential oils and/or their constituents, plant essential oils and/or their constituents in admixture with known active pesticidal compounds or plant essential oils and/or their constituents in admixture with other compounds not previously used as active ingredients in pesticidal formulations, such as, for example, so called signal transduction modulators. In addition, the present invention is directed to a method for controlling pests by applying a pesticidally effective amount of the above synergistic and residual pesticidal compositions to a locus where pest control is desired.