DE10008837A1 - Dental cleaner containing propellant gas - Google Patents

Abstract

The invention relates to dental cleaning agents containing polishing agents, humectants and tensides combined with liquid oils or wax components, which are fed into a dispenser system with propellant gases, said dispenser system having a valve.

Description

The invention relates to a gas cleaning tooth cleaning and care product in one Dispenser system, which is released as a paste or gel strand when a valve is actuated is and then swells slowly by the release of the propellant gas and a fine blow stable foam developed.

Dental cleaners are available in various forms and serve primarily Line of cleaning the tooth surface and prevention of tooth and tooth meat diseases. They usually contain a combination of polishing agents, Humectants, surfactants, binders, flavors and fluoride and anti microbial agents. In addition to tooth powders, which due to their increased abrasiveness play a minor role, dentifrices are mainly used in paste, cream and translucent or transparent gel form. In recent years, too Liquid or liquid toothpastes and mouthwashes are becoming increasingly important. A disadvantage of the products in paste, cream or gel form is their comparatively high level Viscosity and the resulting poor spreadability and slow release of the Active ingredients and flavorings.

Improved distributability can be achieved by foamed toothpastes, the usual are usually dispensed from aerosol dispensers. Such formulations are from the WO 99/22704, WO 82/03975, EP 0 208 009, AU 8542824, DE 22 17 953, DE 36 23 934, JP 5714520 A and JP 5714521 A known. CFCs, carbon dioxide,  Oxygen and low-boiling hydrocarbons are used. The use of Fluorochlorine hydrocarbons (CFCs) is because of their environmental concern not allowed in many countries. Generally it is toothpaste foam emulsions or dispersions from the dispensers in already foamed Form are given. This has the disadvantage that the amount of active ingredient is often far too low is. Such toothpaste foams are usually only stable for a short time. Beyond that pure hydrocarbon propellants with the usual toothpaste formulations mostly not compatible, since they are insoluble in them, so that there is a phase separation.

The task was therefore to create a tooth cleaning and care product with improved distributability to develop that initially as a non-or only slightly foamed, gel-like strand is donated to a donor and then gradually - especially when applied to Mouth - a mousse-like, "tingling" foam with a completely new sensor technology and intensified aroma release. Another task was to optimize the composition so that propellant and toothpaste base a stable dis Train people who do not separate or block the donor's piping system.

This object was achieved according to the invention by a tooth cleaning agent containing

• a) at least one polishing agent
• b) at least one humectant
• c) at least one surfactant
• d) at least one oil / fat and / or wax component

characterized in that together with a propellant or propellant mixture in a dispenser system is filled with a manually operated valve.

By combining components a) and b) with wax and / or oil components ten as well as surfactants or emulsifiers is a stable dispersion of the blowing agent gas / propellant mixture in the compositions of the invention. Also when stored for longer periods, the compositions according to the invention are against a sepa ration of the propellant gas / propellant gas mixture stable. Blockage of the pipe system of the Donor does not enter. The composition according to the invention is obtained from the donor in Form given a gel-like, not or only slightly foamed strand, the  by gradually escaping the propellant / propellant mixture an extremely stable, fine blistered mousse. This ensures a higher amount of active ingredient in comparison to preparations that are taken directly from the donors as voluminous foam. Due to the delayed foaming, especially when the agent is applied in the mouth space, however, also results in a compared to the usual tooth cleaning agents in Cream, gel or paste form improved distribution of the active ingredients, an optimized Active ingredient release as well as an intensified aroma development. The proportion of water the composition according to the invention is 1-60% by weight, preferably 5-50% by weight and especially 30-50% by weight. The dentifrice usually has a pH of 5.5-9, preferably 6.5-8.0 and in particular 7.0-7.3.

The compositions according to the invention are suitable for cleaning and caring for the teeth and for preventing gum and gum diseases. Preferably, the agent according to the invention without propellant gas has a viscosity of at least 10,000 mPa.s at 25 ° C. (Brookfield rotational viscometer RVF, spindle 3 or 4 at 4 rpm), which ensures the dimensional stability after removal of the agent from the dispenser, ie in particular a Prevents deliquescence. The agent can directly, e.g. B. be applied with a toothbrush, but is also particularly suitable as a mouthwash when diluted with water, since the fine foam is very easily dispersible in water. So that he compositions according to the invention can be filled together with the propellant using commercially available filling systems through the valve head opening of the dispenser, it is advantageous that the viscosity of the agent without propellant at 25 ° C is not higher than 100,000 mPa.s, which is a range of 10000-80000 mPa.s and in particular between 10000 and 50,000 mPa.s is preferred (Brookfield rotational viscometer RVF, spindle 3-5 at 4 rpm).

Another object of the invention is a method for dental care and cleaning, characterized in that from a dispenser system by manual operation of a valve a toothpaste strand that is not or only slightly foamed towards one mechanical cleaning of the teeth applies a suitable object, the tooth pasta strand at 20 ° C and normal pressure an expansion rate of not more than 100 vol. % in 5 seconds and then not in a time span of 10-100 seconds  expands more than 6 times its volume, and the gas-containing toothpaste Mousse for cleaning the tooth surfaces, interdental spaces and the oral cavity used.

1. Polish

As a polishing agent, cleaning material or abrasive, water-insoluble ones are usually used organic substances are used that mechanically remove the plaque without the tooth enamel or damage the dentin. The use can be particularly advantageous finely divided polishing agent with an average grain size of 1-200 µm, preferably 1-50 µm and in particular 1-10 µm. The polishing agent is in the invention compositions in an amount of 5-50 wt .-%, preferably 8-30 wt .-% % and in particular 10-20 wt .-% based on the total composition used. It is often particularly advantageous to use a combination of polishing agents.

In addition to silicas, water-insoluble metaphosphates such as e.g. B. sodium metaphosphate, calcium phosphates such. B. tricalcium phosphate, calcium hy drug phosphate, calcium hydrogen phosphate dihydrate and calcium pyrophosphate, calci umcarbonate (chalk), magnesium carbonate, magnesium dihydrogen phosphate, Trimagnesi umphosphate, aluminum oxide, calcined aluminum oxide, aluminum hydroxide and aluminum Minium oxide hydrates, hydroxylapatite and various silicates. Also sodium hydro Gene carbonate can be used as a polishing agent according to the invention, especially in a mixture with other polishes.

The composition preferably contains at least one compound as a polishing agent from the group of silicas or silicates. Among the silica polishes are Precipitated and gel silicic acids are particularly suitable as they are used in their egg production properties can be varied widely and are particularly good with fluoride active ingredients are inert. They are also particularly suitable for the production of gel or liquid Toothpastes.  

Gel silicas are obtained by reacting sodium silicate solutions with strong aq gene mineral acids to form a hydrosol, aging to the hydrogel, washing and then drying. Dries under gentle conditions conditions on water contents of 15-35 wt .-%, so-called hydrogel pebbles Acids obtained, as are known for example from US 4,153,680. By drying to water contents below 15% by weight, irreversible shrinkage occurs before loose structure of the hydrogel to the dense structure of the so-called xerogel. Such Xerogel silicas are e.g. B. described in US 3,538,230.

Precipitated silicas are made from aqueous alkali silicate solutions by precipitation Mineral acids produced and under conditions in which an aggregation to Sol and gel cannot occur. Suitable processes for the production of precipitated pebbles acids are e.g. B. in DE-OS 25 22 486 and described in DE-OS 31 14 493.

Silicic acid polishing agents suitable according to the invention are, for example, under the designation Sident® 8, Zeodent® 113 and 623, Sorbosil® AC39, Tixosil® 123 and 73 in stores.

Among the silicates are various aluminum silicates and zirconium silicates as a bottom liermittel known. Sodium aluminum silicates can also be suitable as polishing agents, such as B. synthetic zeolites, in particular zeolite A.

Particulate organic polymers, e.g. B. polymethacrylate or Po polyethylene and polypropylene with an average particle size of approx. 5-15 µm and one average molecular weight of 3000 g / mol can be used as a cleaning body.

2. Humectant

Moisturizers are not only added to toothpastes to prevent them from drying out protect, they also serve to provide consistency and cold stability. As damp holding agents can be used toxicologically harmless polyols, such as. B. Sor bitol, xylitol, glycerin, mannitol, 1,2-propylene glycol or mixtures of these polyols. Also Polyethylene glycols with molecular weights of 400-2000 can be used proportionately as humectant components  be included. In a preferred embodiment, this contains Agents according to the invention as humectants at least sorbitol, glycerin or xylitol or any mixture of these substances. The humectant or mixture from humectants is in the total composition in an amount of 15-85 wt .-%, preferably contain 20-70 wt .-% and in particular 30-50 wt .-%. Before the composition according to the invention preferably contains a mixture of moist holding agents, especially with a proportion of sorbitol / polyethylene glycol in the weight ratio Half 10: (0.1-1).

3. Surface-active substances

A further improvement in the cleaning effect of the tooth cleaning according to the invention detergent is added by adding a suitable surfactant or surfactant mixture achieved. A detailed list of suitable surfactants is given in U.S. 3,988,433 included, which are intended to be part of the disclosure of the present application. The addition of surfactants also serves to generate a foam when brushing teeth and thus for better distribution of active ingredients, for stabilizing the polishing agent and propellant disper sion and for emulsifying or solubilizing the fats, oils, waxes and Am Maöle. The surfactant or surfactant mixture is used in the compositions of the invention gen in an amount of 0.1-10 wt .-%, preferably 0.3-7 and in particular 1-5 wt .-% based on the total composition used. Preferably, the Composition a surfactant from the group of anionic surfactants, the zwitterionic, the Amphoteric surfactants and the non-ionic surfactants or any mixture of these surfactants.

Anionic surfactants

Suitable surfactants with good foaming action are anionic surfactants, which also have a certain enzyme-inhibiting effect on the bacterial metabolism of the plaque. These include alkali or ammonium salts - especially sodium salts of C ₈ -C ₁₈ alkane carboxylic acids, of alkyl polyglycol ether sulfates with 12-16 C atoms in the linear alkyl group and 2-6 glycol ether groups in the molecule, of linear alkane (C ₁₂ -C ₁₈ ) - sulfonates, sulfosuccinic acid monoalkyl (C ₁₂ -C ₁₈ ) esters, sulfated fatty acid monoglycerides, sulfated fatty acid alkanolamides, sulfoacetic acid alkyl (C ₁₂ -C ₁₆ ) esters, acyl sarcosines, acyl taurides and acyl isethionates each with 8-18 C atoms in the acyl group . Preferred is the use of at least one anionic surfactant, in particular a sodium alkyl sulfate with 12-18 C atoms in the alkyl group. One such surfactant is sodium lauryl sulfate, which is commercially available, for example, under the name Texapon® K1296.

Zwitterionic and ampholytic surfactants

Zwitterionic and ampholytic surfactants can also be used, preferably in combination with anionic surfactants. To the Ampho usable according to the invention tensides belongs e.g. B. alkylaminopropane carboxylic acid. The most famous and the farthest widespread group of zwitterionic surfactants is that of betaine surfactants, such as. B. Al kyldimethylcarboxymethylbetaine and acylaminoalkyldimethylcarboxymethylbetaine. Be cocosacylaminopropyldimethylammoniumglycinate, which are suitable under the INCI name Cocamidopropylbetaine are known. Such products are exemplary as Tego-Betain® BL 215 and ZF 50 as well as Genagen® CAB in Trade.

Nonionic surfactants

Nonionic surfactants are particularly suitable for supporting the cleaning action, among which the addition products of ethylene oxide with fatty alcohols, with fatty acids, with fatty acid monoglycerides, with sorbitan fatty acid monoesters or with methylglucoside fatty acid monoesters are preferred. The amount of ethylene oxide added should be so high that the surfactants are water-soluble, ie at least 1 g of the product should be clearly soluble in 1 liter of water at 20 ° C. Preferred as nonionic surfactant according to the invention are ethoxylated glyceryl monoalkyl esters with a degree of ethoxylation of 20-60 and a C ₈ -C ₁₈ alkyl chain, such as PEG-30 glyceryl stearate, which, for. B. is commercially available under the name Tagat® S, and also acts as a solubilizer.

Also suitable as nonionic surfactants are alkyl (oligo) glycosides with 8-16 carbon atoms in the alkyl group and a degree of oligomerization of the glycoside residue of 1-4 alkyl (oligo) glycosides. Their preparation and use as surface-active substances are e.g. . B. from US-A-3,839,318, DE-A-20 36 472, EP-A-77 167 or WO-A-93/10132 known. With regard to the glycoside residue, both monoglycosides (x = 1), in which a monosaccharide residue is glycosidically bonded to a fatty alcohol having 10 to 16 carbon atoms, and oligomeric glycosides with a degree of oligomerization x to 10 are suitable. The degree of oligomerization is a statistical mean value which is based on a homolog distribution customary for such technical products. Preference is given to the alkyl (oligo) glycoside being an alkyl (oligo) glucoside of the formula RO (C ₆ H ₁₀ O) _x -H, in which R is an alkyl group with 12 to 14 C atoms and x is one Has a value from 1 to 4. Amine oxides can also be used as surfactants.

For an intensive cleaning effect in combination with good foaming and a to achieve sufficient solubilization of the oils and waxes as well as the propellant gases in the compositions according to the invention preferably a mixture of anion and nonionic surfactant or a mixture of anionic surfactant, nonionic surfactant and betaine for example sodium lauryl sulfate / PEG-30 glyceryl stearate / cocamidopropyl betaine.

Solution broker

For better solubilization of the predominantly water-insoluble oil and wax components and the propellant gases, in addition to ethanol, non-ionic solubilizers from the group of surface-active substances are used. As already mentioned, this includes in particular ethoxylated compounds with a degree of ethoxylation of 20-60. Particularly suitable for this purpose are ethoxylated fatty acid glycerides, ethoxylated fatty acid sorbitan partial esters or fatty acid partial esters of glycerol or sorbitan ethoxylates. Solubilizers from the group of ethoxylated fatty acid glycides mainly include addition products of 20 to 60 moles of ethylene oxide with mono- and diglycerides of linear fatty acids with 12 to 18 carbon atoms or with triglycerides of hydroxy fatty acids such as oxystearic acid or ricinoleic acid. Other suitable solubilizers are ethoxylated fatty acid sorbitan partial esters, e.g. B. Adducts of 20 to 60 moles of ethylene oxide with sorbitan monoesters and sorbitan diesters of fatty acids with 12 to 18 carbon atoms. Also suitable solubilizers are fatty acid partial esters of glycerol or sorbitan ethoxylates; these are preferably mono- and diesters of C ₁₂ -C ₁₈ fatty acids and addition products of 20 to 60 moles of ethylene oxide with 1 mole of glycerol or with 1 mole of sorbitol.

Cationic surfactants

Furthermore, some cationic surfactants such as. B. alkyl-trimethylammonium chloride, Alkyldimethylbenzylammonium chloride, alkylpyridinium chloride, alkyldimethylhy droxyethylammonium chloride, acylimidazolinium methosulfate and acyloxyethyltri methylammonium chloride is suitable as a surfactant in the agents according to the invention.

4. Oil / fat and wax components

The oil / fat and wax components are essential components of the invention Composition. In combination with the surfactants, they enable partial solu bilization of the propellant gas or propellant gas mixture, stabilization of the foam and give the toothpaste base mass shine and smoothness. According to the invention natural, chemically modified and synthetic waxes, fats and oils alone or in any combination can be used. The oil / fat and wax components are in an amount of 0.1 to 10 wt .-%, based on the total composition, preferably as 0.5 to 5 wt .-% and in particular 0.8-3 wt .-% contain.

Oils / fats

For the purposes of the invention, these include di- and triglycerides with liquid to solid cones and hydrocarbons and silicone oils understood, the natural or synthetic table of origin. The together according to the invention preferably contain Compositions as oil components triglycerides and / or a paraffin oil. these can of vegetable, animal or synthetic origin.  

Di- and triglycerides are the di- and triester of fatty acids with glycerin, ie acylglycerols, where the glycerin can be esterified with the same or with different fatty acids or fatty acid derivatives (e.g. lecithin). The fatty acids are preferably C ₆ -C ₃₀ fatty acids, which can be saturated or unsaturated and branched or unbranched. These include the products of esterification of glycerol with naturally occurring fatty acids such as caproic acid, oenanthic acid, caprylic acid, pelargonic acid, capric acid, undecanoic acid, lauric acid, tridecanoic acid, myristic acid, pentadecanoic acid, palmitic acid, margaric acid, stearic acid, nonadecanoic acid, arachic acid, arachic acid, arachic acid, arachic acid, arachic acid, Cerotinic acid, melissic acid, 2-ethyl hexanoic acid, isotridecanoic acid, isostearic acid, palmitoleic acid, oleic acid, elaidic acid, petrolseic acid, elaeostearic acid, erucic acid, linoleic acid, linolenic acid, arachidonic acid, clupanodonic acid, docosahexaenoic acid and gadoleic acid, as well as their technical. B. in the pressure splitting of natural fats and oils or dimerization of unsaturated fatty acids. The use of natural fats and oils such as e.g. B. beef tallow, peanut oil, rape oil, cottonseed oil, soybean oil, sunflower oil, palm oil, palm kernel oil, linseed oil, almond oil, castor oil, corn oil, olive oil, rapeseed oil, sesame oil, cocoa butter and coconut oil and the like. The hydrogenated or hardened oils, e.g. B. hydrogenated soybean oil, castor oil and peanut oil can be used.

Thin to viscous silicone oils or natural and synthetic hydrocarbons such as, for example, thin to viscous paraffin oils, isohexadecane, isoeicosane or polydecenes, which, for. B. are available under the name Emery® 3004, 3006, 3010, Ethylflo® or Nexbase® 2004G. The use of so-called inverse fats (e.g. esters of vicinal tricarboxylic acids with C ₆ -C ₃₀ fatty alcohols) or glyceryl trialkyethers is also conceivable here.

Waxes

Under waxes, naturally or artificially obtained substances have the following properties understood: they are from firm to brittle hard consistency, coarse to fine crystalline, translucent to opaque, but not glassy, and melt above  35 ° C without decomposition. They are low viscosity a little above the melting point and not stringy and show a strongly temperature-dependent consistency and dissolving possibility. From a chemical point of view, the most common representatives from the wax group are esters from fatty acids and higher fatty alcohols that are of animal and vegetable origin. Natural vegetable waxes, such as, for example, B. jojoba oil, Can delilla wax, carnauba wax, japan wax, esparto grass wax, cork wax, guaruma wax, rice germ oil wax, sugar cane wax, ouricury wax, montan wax, sunflower men wax, fruit waxes such as orange waxes, lemon waxes, grapefruit wax, laurel wax (= Bayberry wax) and animal waxes, such as B. beeswax, shellac wax, Walrus, wool wax and pretzel fat. It can also be advantageous to use hydrogenated or hardened ones Use waxes. The natural waxes which can be used according to the invention include also the mineral waxes, such as B. ceresin and ozokerite or the petrochemical guard such as paraffin waxes (e.g. petroleum jelly) and micro waxes. As a wax component also chemically modified waxes, such as. B. Montanester waxes, Sasol waxes and hy third jojoba wax can be used. To the synthetic waxes according to the invention Wax-like polyalkylene waxes and silicone also count, for example grow.

Synthetic waxes can also be used according to the invention, in particular the esters of C ₆ -C ₃₀ fatty acids with C ₆ -C ₃₀ fatty alcohols, which can be of natural or synthetic origin. Both the fatty acid component and the fatty alcohol component can be straight-chain or branched and saturated or mono- or polyunsaturated.

The wax component is preferably selected from the group of vegetable or animal and / or paraffin waxes or any mixture of these waxes.

5. Treibas and donors

The propellant gas or propellant gas mixture is preferably present in the compositions according to the invention in an amount of at least 1% by weight. A content of 1-10% by weight and in particular 3-4% by weight is particularly preferred. The propellant gas or propellant gas mixture preferably contains at least one component which has a boiling point in the range from 0-40 ° C., preferably 15-35 ° C. and in particular 20-30 ° C. at normal pressure. In this way, a "post-foaming" effect can be generated in combination with the dispenser systems described below, hydrocarbon-containing propellant gases being particularly advantageous. The propellant gas preferably contains a C ₅ alkane. Among these - n-pentane, 2-methylbutane (= isopentane) and neopentane - the 2-methylbutane with a boiling point of 29 ° C. is preferably suitable. A mixture of a C ₄ alkane and a C ₅ alkane is preferably used as the propellant, 1: 3-3: 1 mixtures (weight ratio) of isopentane / isobutane being particularly suitable according to the invention in order to increase the time-delayed foaming of the tooth cleaning agent guarantee. Such formulations are still gel-like immediately after delivery from the dispenser and then gradually swell on the toothbrush to form a foam that develops relatively quickly, particularly at body temperature, that is to say when the composition is applied in the interior of the mouth.

The tooth cleaning agents are filled in commercial filling systems together with the liquefied propellant or propellant mixture in dispenser systems which are sufficiently pressure-resistant that the propellant is liquefied in the composition. As a dispenser for the composition, for example, a container with a valve made of a rigid material is suitable, which is equipped with a device that ejects the contraction force of an expanded rubber tube and / or an expanded Pro to expel the composition stored in it (i.e. dentifrice and propellant) product container uses. Such a dispenser is described for example in EP 69699. The containers offered by 3D Dispenser-Distributions GmbH under the name FlexPack® also use the restoring force of a stretched rubber to eject the composition. According to the invention, preference is given to containers which contain a folded, essentially gas-impermeable, flexible inner bag made of a chemically inert plastic (for example PET) which is surrounded by an elastic, thick-walled rubber tube. Such dispensers are described, for example, in US 5,927,551, US 4,964,540 and EP 69738 and are sold by Exxel Container under the name Atmos ^™ Dispensing System. In combination with such dispensers, pure butane as the propellant gas can already produce a "post-foaming" effect.

Likewise, two-chamber aerosol cans with inner bags are preferably suitable as dispensers. These contain the contents in the inner bag (tooth cleaning agent with liquefied gas) and in the outer chamber another propellant gas that is used to expel the assembly serves when actuating the valve. Such systems can either by a public on the bottom of the can or - as with the so-called "under cup system" - by lifting of the valve are filled.

Binder / thickener

In a preferred embodiment, the agent according to the invention additionally contains at least one binding or thickening agent. Binders or thickeners have a consistency-regulating effect and help to prevent separation of the liquid and solid components. They are contained in the compositions according to the invention in a total amount of 0.1-5% by weight, preferably 0.1-3% by weight and in particular 0.5-2% by weight. For example, natural and / or synthetic water-soluble polymers such as alginates, carragenes, agar agar, guar gum, arabic gum, succinoglycan gum, guar flour, locust bean gum, tragacanth, karaya gum, xanthan, pectins, cellulose and their ionogenic and non-ionic derivatives such as B. carboxymethyl cellulose, hydroxyethyl cellulose or methyl hydroxypropyl cellulose, hydrophobically modified celluloses, starch and starch ethers. Water-soluble carboxyvinyl polymers (e.g. Carbopol® types), polyvinyl alcohol, polyvinylpyrrolidone and higher molecular weight polyethylene glycols (in particular those with molecular weights of 10 ² -10 ⁵ D) are also suitable as binders and thickeners. Layered silicates and fine-particle silicas (airgel silicas and pyrogenic silicas) can also fulfill this function. Powdered cellulose, which is offered, for example, by J. Rettenmaier & Sons under the name Arbocel® or Vitacel®, is particularly suitable. Ar bocel® CGP 5000, a highly viscous paste made from powder cellulose with thixotropic properties, is particularly preferred in accordance with the invention. Arbocel® celluloses are extremely effective thickeners, which considerably increase the viscosity of the compositions even at low use concentrations, are inert to ionic components and can be easily combined with other thickeners.

Additional active ingredients

A further preferred embodiment of the tooth cleaning agent is thereby characterized records that it acts as an additional active anti-caries, antimicrobial substances, tartar inhibitors, remineralizing agents, flavorings or a contains any combination of these substances.

Anti-caries agents

To combat and prevent tooth decay, fluorine compounds are particularly suitable, preferably from the group of fluorides or monofluorophosphates in an amount of 0.1-0.5% by weight of fluorine. Suitable fluorine compounds are e.g. As sodium fluoride, potassium fluoride, tin fluoride, disodium monofluorophosphate (Na ₂ PO ₃ F), dipotassium monofluorophosphate or the fluoride of an organic amino compound.

Antimicrobial agents

As an antimicrobial component are, for. B. phenols, resorcinols, bisphenols, salicyl anilides and amides and their halogenated derivatives, halogenated carbonilides and p-hydroxybenzoic acid esters. Among the antimicrobial components, those which inhibit the growth of plaque bacteria are particularly suitable. For example, halogenated diphenyl ethers such as 2,4-dichloro-2'-hydroxydiphenyl ether, 4,4'-dichloro-2'-hydroxydiphenyl ether, 2,4,4'-tribromo-2'-hydroxydiphenyl ether, 2,4,4'- Trichlor-2'-hydroxydiphenyl ether (triclosan) suitable as antimicrobial agents. In addition to bromochlorophene, bisbiguanides such as chlorhexidine and alexidine, phenylsalicylic acid esters and 5-amino-1,3-bis ( 2- ethylhexyl) hexahydro-5-methylpyrimidine (hexetidine), zinc and copper ions also have an antimicrobial effect, with synergistic effects especially in combination occur with hexetidine and triclosan. Quaternary ammonium compounds, such as. B. cetylpyridinium chloride, benzalkonium chloride, domiphen bromide and dequalini umchloride can be used. Octapinol, octenidine and sanguinarine have also been shown to be antimicrobial. The antimicrobial active ingredients are preferably used in amounts of 0.01-1% by weight in the agents according to the invention and can also be used in the form of nanoparticles. Irgacare® MP is particularly preferably used in an amount of 0.01-0.3% by weight.

Tartar inhibitors

Tartar is mineral deposits that are very similar to natural tooth enamel. In order to inhibit tartar formation, substances are added to the tooth cleaning agents according to the invention which specifically intervene in crystal nucleation and prevent existing germs from continuing to grow. These are, for example, condensed phosphates, which are preferably selected from the group of tripolyphosphates, pyrophophates, trimetaphosphates or mixtures thereof. They are used in the form of their alkali or ammonium salts, preferably in the form of their sodium or potassium salts. Aqueous solutions of these phosphates typically have an alkaline reaction, so that the pH of the dentifrices according to the invention is adjusted to values of 7.5-9, if necessary by adding acid. As acids z. B. citric acid, phosphoric acid or acid salts, e.g. B. NaH ₂ PO ₄ can be used. The desired pH of the dentifrice can also by adding acidic salts of the condensed phosphates, ie z. B. K ₂ H ₂ P ₂ O ₇ can be set.

Mixtures of various condensed phosphates and / or hydrated salts of Condensed phosphates can be used according to the invention. Tartar inhibitors usually in amounts of 0.1-5% by weight, preferably 0.1-3% by weight and in particular 0.1-2% by weight used in the agents according to the invention.

Other suitable tartar inhibitors are organophosphonates such as 1-azacycloheptane 2,2-diphosphonate (Na salt) or 1-hydroxyethane-1,1-diphosphonate (Na salt) and zinc citrate.

Reminerals

The agents according to the invention preferably also contain substances that are reminerali Promote enamel enamel and close dental lesions. These are usually in a total amount of 0.1-10% by weight, preferably 0.1-5% by weight and in particular contain 0.1-3% by weight. These include e.g. B. fluorides, phosphate salts  of calcium such as B. calcium glycerol phosphates, calcium hydrogen phosphate, Hy droxyapatite, fluoroapatite, F-doped hydroxyapatite, dicalcium phosphate dihydrate and Calcium fluoride. But also magnesium salts such as. B. magnesium sulfate, magnesium fluoride or magnesium monofluorophosphate have a remineralizing effect.

Flavorings

The agents according to the invention preferably contain flavorings, to which e.g. B. Sweeteners and / or aromatic oils. Suitable sweeteners are, for example Saccharinates (especially sodium saccharinate), cyclamates (especially sodium cyclamate) and sucrose, lactose, maltose or fructose. Aroma oils are all for Oral and dental care products in natural and synthetic flavors Question. Natural flavors can be found both in the form of etheri isolated from the drugs Use oils (mixture) as well as in the form of the individual components isolated from it be det. At least one aromatic oil from the group peppermint oil, krau should be preferred mint oil, anise oil, star anise oil, caraway oil, eucalyptus oil, fennel oil, cinnamon oil, clove oil, Geranium oil, sage oil, allspice oil, thyme oil, marjoram oil, basil oil, citrus oil, Gaulthe ria oil or one / more components of these oils isolated or synthetically produced therefrom be included. The most important components of the oils mentioned are e.g. B. Menthol, Car of, anethole, cineol, eugenol, cinnamaldehyde, caryophyllene, geraniol, citronellol, lina lool, salve, thymol, terpinene, terpinol, methylchavicol and methyl salicylate. Further suitable flavors are e.g. B. menthyl acetate, vanillin, jonone, linalyl acetate, rhodinol and Piperiton.

A particularly preferred embodiment of the tooth cleaning agent contains a) 5-30% by weight of a polishing agent; b) 20-85% by weight of a humectant; c) 0.3-5% by weight of a surfactant or surfactant mixture; d) 0.1-40% by weight of an oil, fat and / or wax, e) 0.05-0.5% by weight of a fluoride; f) 5-50% by weight of water g) 1-10% by weight of a C ₄ and / or C ₅ -containing propellant gas or propellant gas mixture and in a dispenser system with a manually operable valve. This combination enables a particularly good post-foaming effect and very easy distribution.

Other common ingredients

The agent according to the invention can preferably contain a number of other toothpaste contents. These include:

• Vitamins, e.g. B. retinol, biotin, tocopherol, ascorbic acid and their derivatives (e.g. esters, salts);
• - pigments, e.g. B. titanium dioxide or zinc oxide;
• - bleach;
• - dyes;
• - pH adjusting agents and buffer substances, e.g. As sodium citrate, sodium bicarbonate or potash um and sodium phosphates,
• - sodium benzoate;
• - Wound healing and anti-inflammatory substances such as B. Allantoin, urea, pan thenol, azulene or chamomile extract, acetylsalicylic acid derivatives, rhodanide; Water fabric peroxide
• - zinc and manganese sulfate

Examples according to the invention

The dentifrice was prepared with degassing, i.e. H. in moderate vacuum (≦ 50 mbar) at room temperature.

General rule

The humectants, silicas and possibly other polishing agents were used together with demineralized water homogenized in vacuo with stirring. Then the added soluble salts and dyes. Cellulose, if used, was made into something Suspended water and incorporated into the mass. Organic binders (e.g. xanthan gum etc.) were dispersed in PEG and then incorporated into the mass with stirring works. After swelling of the mass, the oil components and surfactants that were previously with emulsified at 60-85 ° C, then added the flavorings, and stirring continued until a homogeneous mass with a smooth structure was obtained.

The paste mass (90-99% by weight) together with 1-10% by weight of the propellant / propellant mixture was placed in the Atmos ^TM Dispensing System (70 or 140 mL) from Exxel Container Inc. or in a two-chamber aerosol Can filled under the usual conditions for such systems (filling pressure: approx. 40 bar).

The quantities in the following examples relate, unless stated otherwise give, by weight of active substance of the total composition without propellant.  

example 1 Composition without propellant

12.0% by weight of silica (e.g. Sident® 8)
60.0% by weight of sorbitol (e.g. Neosorb® 70/70 B; 70% by weight in water)
1.2% by weight sodium lauryl sulfate (e.g. Texapon® 1296)
1.0% by weight cocamidopropylbetaine (e.g. Tego-Betain® BL 215; 30% by weight in water)
0.5% by weight of PEG-30 glyceryl stearate (e.g. Tagat® S)
3.0% by weight beeswax (e.g. beeswax type 8100 DAB)
1.0% by weight polyethylene glycol MG = 1550 (e.g. Polywachs® 1550)
0.55% by weight carboxymethyl cellulose (e.g. Cekol® 2000 H)
0.2% by weight Na ₂

HPO ₄

0.32 wt% NaF
0.21 wt% MgSO ₄

, 7H ₂

O
0.09 wt% ZnSO ₄

, 7H ₂

O
0.01 wt% MnSO ₄

, 1H ₂

O
0.2% by weight sodium saccharinate
0.49% by weight sodium benzoate
2.0 wt% ethanol
0.2% by weight triclosan (e.g. Irgacare® MP)
0.1% by weight dye solution (e.g. Brillant Blue FCF, 1% by weight in water)
1.1% by weight of aromatic oil
ad 100 wt .-% water VE

94% by weight of toothpaste was mixed with 6% by weight of a 3: 1 mixture (parts by weight) filled from isopentane and isobutane into a two-chamber aerosol can.  

Example 2 Composition without propellant

12.0% by weight of silica (e.g. Sident® 8)
30.0% by weight of sorbitol (e.g. Neosorb® 70/70 B; 70% by weight in water)
33.0% by weight glycerin (86% by weight in water)
1.5% by weight sodium lauryl sulfate (e.g. Texapon® K 1296)
0.6% by weight cocamidopropyl betaine (e.g. Tego-Betain® BL 215, 30% by weight in water)
0.5% by weight of PEG-30 glyceryl stearate (e.g. Tagat® S)
1.0% by weight paraffin oil, low viscosity (e.g. Paraffinum perliquidum P 130)
1.0% by weight polyethylene glycol MG = 1550 (e.g. Polywachs® 1550)
0.55% by weight xanthan gum (e.g. Keltrol® F)
0.5% by weight Na ₂

HPO ₄

0.32 wt% NaF
0.21 wt% MgSO ₄

, 7H ₂

O
0.09 wt% ZnSO ₄

, 7H ₂

O
0.01 wt% MnSO ₄

, 1H ₂

O
0.2% by weight sodium saccharinate
0.49% by weight sodium benzoate
2.0 wt% ethanol
0.2% by weight triclosan (e.g. Irgacare® MP)
0.1% by weight dye solution (e.g. Brillant Blue FCF, 1% by weight in water)
1.1% by weight of aromatic oil
ad 100 wt .-% water VE

96% by weight of toothpaste was mixed with 4% by weight of a 3: 1 mixture (parts by weight) filled from isopentane and isobutane into a two-chamber aerosol can.  

Example 3 Composition without propellant

12.0% by weight of silica (e.g. Sident® 8)
46.0% by weight of sorbitol (e.g. Neosorb® 70/70 B; 70% by weight in water)
10.0% by weight of xylitol
1.2% by weight sodium lauryl sulfate (e.g. Texapon® K 1296)
1.0% by weight cocamidopropylbetaine (e.g. Tego-Betain® BL 215; 30% by weight in water)
0.5% by weight of PEG-30 glyceryl stearate (e.g. Tagat® S)
3.0% by weight beeswax (e.g. beeswax type 8100 DAB)
1.0% by weight polyethylene glycol MG = 1550 (e.g. Polywachs® 1550)
0.55% by weight carboxymethyl cellulose (e.g. Cekol® 2000 H)
0.2% by weight Na ₂

HPO ₄

0.32 wt% NaF
0.21 wt% MgSO ₄

, 7H ₂

O
0.09 wt% ZnSO ₄

, 7H ₂

O
0.01 wt% MnSO ₄

, 1H ₂

O
0.2% by weight sodium saccharinate
0.49% by weight sodium benzoate
2.0 wt% ethanol
0.2% by weight triclosan (e.g. Irgacare® MP)
0.1% by weight dye solution (e.g. Brillant Blue FCF, 1% by weight in water)
1.1% by weight of aromatic oil
ad 100 wt .-% water VE

95% by weight of toothpaste was placed in a two-chamber aerosol with 5% by weight of butane can filled.  

Example 4 Composition without propellant

12.0% by weight of silica (e.g. Sident® 8)
16.0% by weight of sorbitol (e.g. Neosorb® 70/70 B; 70% by weight in water)
10.0% by weight of xylitol
33.0% by weight glycerin (86% by weight in water)
1.5% by weight sodium lauryl sulfate (e.g. Texapon® K 1296)
0.6% by weight cocamidopropylbetaine (e.g. Tego-Betain® BL 215; 30% by weight in water)
0.5% by weight of PEG-30 glyceryl stearate (e.g. Tagat® S)
1.0% by weight paraffin oil (e.g. Paraffinum perliquidum P 130)
1.0% by weight polyethylene glycol MG = 1550 (e.g. Polywachs® 1550)
0.55% by weight xanthan gum (e.g. Keltrol® F)
0.5% by weight Na ₂

HPO ₄

0.32 wt% NaF
0.21 wt% MgSO ₄

, 7H ₂

O
0.09 wt% ZnSO ₄

, 7H ₂

O
0.01 wt% MnSO ₄

, 1H ₂

O
0.2% by weight sodium saccharinate
0.49% by weight sodium benzoate
2.0 wt% ethanol
0.2% by weight triclosan (e.g. Irgacare® MP)
0.1% by weight dye solution (e.g. Brillant Blue FCF, 1% by weight in water)
1.1% by weight of aromatic oil
ad 100 wt .-% water VE

97% by weight of toothpaste was filled with 3% by weight of a 3: 1 mixture (parts by weight) of isopentane and isobutane in the Exxel Atmos ^™ dispensing system.

Example 5 Composition without propellant

12.0% by weight of silica (e.g. Sident® 8)
30.0% by weight of sorbitol (e.g. Neosorb® 70/70 B; 70% by weight in water)
33.0% by weight glycerin (86% by weight in water)
1.5% by weight sodium lauryl sulfate (e.g. Texapon® K 1296)
0.6% by weight cocamidopropylbetaine (e.g. Tego-Betain® BL 215; 30% by weight in water)
0.5% by weight of PEG-30 glyceryl stearate (e.g. Tagat® S)
1.0% by weight jojoba oil
1.0% by weight polyethylene glycol MG = 1550 (e.g. Polywachs® 1550)
0.55% by weight xanthan gum (e.g. Keltrol® F)
0.5% by weight of N ₂

HPO ₄

0.32 wt% NaF
0.21 wt% MgSO ₄

, 7H ₂

O
0.09 wt% ZnSO ₄

, 7H ₂

O
0.01 wt% MnSO ₄

, 1H ₂

O
0.2% by weight sodium saccharinate
0.49% by weight sodium benzoate
2.0 wt% ethanol
0.2% by weight triclosan (e.g. Irgacare® MP)
0.1% by weight dye solution (e.g. Brillant Blue FCF, 1% by weight in water)
1.1% by weight of aromatic oil
ad 100 wt .-% water VE

98% by weight of toothpaste was filled with 2% by weight of a 3: 1 mixture (parts by weight) of isopentane and isobutane in Exxel's Atmos ^™ dispensing system.

Example 6 Composition without propellant

12.0% by weight of silica (e.g. Sident® 8)
30.0% by weight of sorbitol (e.g. Neosorb® 70/70 B; 70% by weight in water)
33.0% by weight glycerin (86% by weight in water)
1.5% by weight sodium lauryl sulfate (e.g. Texapon® K 1296)
0.6% by weight cocamidopropylbetaine (e.g. Tego-Betain® BL 215; 30% by weight in water)
0.5% by weight of PEG-30 glyceryl stearate (e.g. Tagat® S)
1.0% by weight paraffin oil, viscous (e.g. BP-Energol® WM-6)
1.0% by weight polyethylene glycol MG = 1550 (e.g. Polywachs® 1550)
0.55% by weight carboxymethyl cellulose (e.g. Cekol® 2000H)
0.5% by weight Na ₂

HPO ₄

0.32 wt% NaF
0.21 wt% MgSO ₄

, 7H ₂

O
0.09 wt% ZnSO ₄

, 7H ₂

O
0.01 wt% MnSO ₄

, 1H ₂

O
0.2% by weight sodium saccharinate
0.49% by weight sodium benzoate
2.0 wt% ethanol
0.2% by weight triclosan (e.g. Irgacare® MP)
0.1% by weight dye solution (e.g. Brillant Blue FCF, 1% by weight in water)
1.1% by weight of aromatic oil
ad 100 wt .-% water VE

97% by weight of toothpaste was mixed with 3% by weight of a 3: 1 mixture (parts by weight) filled from isopentane and isobutane into a two-chamber aerosol can.  

Example 7 Composition without propellant

12.0% by weight of silica (e.g. Sident® 8)
30.0% by weight of sorbitol (e.g. Neosorb® 70/70 B; 70% by weight in water)
33.0% by weight glycerin (86% by weight in water)
1.5% by weight sodium lauryl sulfate (e.g. Texapon® K 1296)
0.6% by weight cocamidopropylbetaine (e.g. Tego-Betain® BL 215; 30% by weight in water)
0.5% by weight of PEG-30 glyceryl stearate (e.g. Tagat® S)
1.0% by weight paraffin oil, viscous (e.g. BP-Energol® WM-6)
0.25% by weight glycerol monostearate (e.g. Cutina® GMS-V)
1.0% by weight polyethylene glycol MG = 1550 (e.g. Polywachs® 1550)
0.45% by weight xanthan gum (e.g. Keltrol® F)
0.5% by weight Na ₂

HPO ₄

0.32 wt% NaF
0.21 wt% MgSO ₄

, 7H ₂

O
0.09 wt% ZnSO ₄

, 7H ₂

O
0.01 wt% MnSO ₄

, 1H ₂

O
0.2% by weight sodium saccharinate
0.49% by weight sodium benzoate
2.0 wt% ethanol
0.2% by weight triclosan (e.g. Irgacare® MP)
0.1% by weight dye solution (e.g. Brillant Blue FCF, 1% by weight in water)
1.1% by weight of aromatic oil
ad 100 wt .-% water VE

96% by weight of toothpaste was filled with 4% by weight of a 3: 1 mixture (parts by weight) of isopentane and isobutane in Exxel's Atmos ^™ dispensing system.

Example 8 Composition without propellant

12.0% by weight of silica (e.g. Sident® 8)
30.0% by weight of sorbitol (e.g. Neosorb® 70/70 B; 70% by weight in water)
33.0% by weight glycerin (86% by weight in water)
1.5% by weight sodium lauryl sulfate (e.g. Texapon® K 1296)
0.6% by weight cocamidopropylbetaine (e.g. Tego-Betain® BL 215; 30% by weight in water)
0.5% by weight of PEG-30 glyceryl stearate (e.g. Tagat® S)
1.0% by weight paraffin oil, viscous (e.g. BP-Energol® WM-6)
0.35% by weight glycerol monostearate (e.g. Cutina® GMS-V)
1.0% by weight polyethylene glycol MG = 1550 (e.g. Polywachs® 1550)
0.45% by weight xanthan gum (e.g. Keltrol® F)
0.5% by weight Na ₂

HPO ₄

0.32 wt% NaF
0.21 wt% MgSO ₄

, 7H ₂

O
0.09 wt% ZnSO ₄

, 7H ₂

O
0.01 wt% MnSO ₄

, 1H ₂

O
0.2% by weight sodium saccharinate
0.49% by weight sodium benzoate
2.0 wt% ethanol
0.2% by weight triclosan (e.g. Irgacare® MP)
0.1% by weight dye solution (e.g. Brillant Blue FCF, 1% by weight in water)
1.1% by weight of aromatic oil
ad 100 wt .-% water VE

95% by weight of toothpaste was mixed with 5% by weight of butane in a two-chamber Bottled aerosol can.  

Example 9 Composition without propellant

12.0% by weight of silica (e.g. Sident® 8)
60.0% by weight of sorbitol (e.g. Neosorb® 70/70 B; 70% by weight in water)
1.5% by weight sodium lauryl sulfate (e.g. Texapon® K 1296)
0.6% by weight cocamidopropylbetaine (e.g. Tego-Betain® BL 215; 30% by weight in water)
0.5% by weight of PEG-30 glyceryl stearate (e.g. Tagat® S)
1.0% by weight jojoba oil
1.5% by weight polyethylene glycol MG = 1550 (e.g. Polywachs® 1550)
1.0% by weight cellulose (e.g. Arbocel® CGP 5000; 5% by weight in water)
0.55% by weight xanthan gum (e.g. Keltrol® F)
0.2% by weight Na ₂

HPO ₄

0.32 wt% NaF
0.2% by weight sodium saccharinate
0.49% by weight sodium benzoate
0.1% by weight triclosan (e.g. Irgacare® MP)
0.26% by weight dye solution (e.g. combination of: Brilliant Blue FCF, 1% by weight in water and black CI 27755, 0.1% by weight in water)
1.0% by weight of aromatic oil
ad 100 wt .-% water VE

97% by weight of toothpaste was filled with 3% by weight of a 3: 1 mixture (parts by weight) of isopentane and isobutane in the Exxel Atmos ^™ dispensing system.

Example 10 Composition without propellant

12.0% by weight of silica (e.g. Sident® 8)
0.5% by weight layered silicate (e.g. Laponite® DF)
60.0% by weight of sorbitol (e.g. Neosorb® 70/70 B; 70% by weight in water)
1.5% by weight sodium lauryl sulfate (e.g. Texapon® K 1296)
0.6% by weight cocamidopropylbetaine (e.g. Tego-Betain® BL 215; 30% by weight in water)
0.5% by weight of PEG-30 glyceryl stearate (e.g. Tagat® S)
1.0% by weight jojoba oil
1.5% by weight polyethylene glycol MG = 1550 (e.g. Polywachs® 1550)
0.55% by weight xanthan gum (e.g. Keltrol® F)
0.2% by weight Na ₂

HPO ₄

0.32 wt% NaF
0.2% by weight sodium saccharinate
0.49% by weight sodium benzoate
0.1% by weight triclosan (e.g. Irgacare® MP)
0.26% by weight dye solution (e.g. combination of: Brilliant Blue FCF, 1% by weight in water and black CI 27755, 0.1% by weight in water)
1.0% by weight of aromatic oil
ad 100 wt .-% water VE

95% by weight of toothpaste was filled with 5% by weight of a 3: 1 mixture (parts by weight) of isopentane and isobutane in Exxel's Atmos ^™ dispensing system.

Example 11 Composition without propellant

12.0% by weight of silica (e.g. Sident® 8)
60.0% by weight of sorbitol (e.g. Neosorb® 70/70 B; 70% by weight in water)
1.5% by weight sodium lauryl sulfate (e.g. Texapon® K 1296)
0.6% by weight cocamidopropylbetaine (e.g. Tego-Betain® BL 215; 30% by weight in water)
0.5% by weight of PEG-30 glyceryl stearate (e.g. Tagat® S)
1.0% by weight jojoba oil
1.0% by weight cellulose (e.g. Arbocel® CGP 5000; 5% by weight in water)
0.65% by weight xanthan gum (e.g. Keltrol® F)
1.5% by weight polyethylene glycol MG = 1550 (e.g. Polywachs® 1550)
0.2% by weight Na ₂

HPO ₄

0.32 wt% NaF
0.2% by weight sodium saccharinate
0.49% by weight sodium benzoate
0.1% by weight triclosan (e.g. Irgacare® MP)
0.26% by weight dye solution (e.g. combination of: Brilliant Blue FCF, 1% by weight in water and black CI 27755, 0.1% by weight in water)
1.0% by weight of aromatic oil
ad 100 wt .-% water VE

98% by weight of toothpaste was filled with 2% by weight of a 3: 1 mixture (parts by weight) of isopentane and isobutane in Exxel's Atmos ^™ dispensing system.

attachment

1) Arbocel® CGP 5000
Cellulose paste (5% by weight in water)
Manufacturer: J. Rettenmaier & Söhne GmbH + CO
2) Beeswax type 8100 DAB
INCI: Cera alba
Manufacturer: Kahl & Co
3) Brilliant Blue® FCF
INCI: Acid blue 9 / CI 42090
Manufacturer: Fiorio Colori S. p. A. (Pharmorgana)
4) BP-Energol® WM-6
Paraffin oil, viscous
Manufacturer: BP
5) Cekol® 2000 H
INCI: Cellulose (Na-Carboxymethylcellulose)
Manufacturer: Metsa (Nordmann Rassmann)
6) Cutina® GMS-V
INC1: Glyceryl stearate
Manufacturer: Cognis Deutschland GmbH (Henkel)
7) Irgacare® MP
INCI: Triclosan
Manufacturer: Ciba
8) Keltrol® F
INCI: Xanthan Gum
Manufacturer: Kelco
9) Laponite® DS
Sodium magnesium lithium layered silicate
Manufacturer: Laporte
10) Neosorb® 70/70 B
INCI: sorbitol (70% by weight in water)
Manufacturer: Roquette
11) Paraffinum perliquidum P 130
Paraffin oil, viscosity: 17 m ²

/ s according to DIN 51562/1
Manufacturer: Parafluid Mineralölgesellschaft
12) Polywachs® 1550
Polyethylene glycol, MW = 1550
Manufacturer: RWE / DEA (Contensio, formerly Hüls)
13) Sident® 8
INCI: Hydrated silica
Manufacturer: Degussa-Hüls
14) Tagat® S
INCI: PEG-30 glyceryl stearate
Manufacturer: Goldschmidt
15) Tego-Betain® BL 215 (30% by weight in water)
INCI: Cocamidopropyl betaine
Manufacturer: Goldschmidt
16) Texapon® K 1296
INCI: sodium lauryl sulfate
Manufacturer: Cognis Deutschland GmbH (Henkel)

Claims (16)

1. Containing tooth cleaning agents

• a) at least one polishing agent
• b) at least one humectant
• c) at least one surfactant
• d) at least one oil / fat and / or wax component

characterized in that it is filled with a propellant gas or propellant gas mixture in a dispenser system with a manually operable valve. 2. Tooth cleaning agent according to claim 1, characterized in that the polishing agent contains at least one compound from the group of silicas or silicates. 3. Tooth cleaning agent according to claim 1 or 2, characterized in that as Humectant at least sorbitol, glycerin or xylitol or any Ge a mixture of these substances is contained. 4. Tooth cleaning agent according to one of claims 1 to 3, characterized in that the surfactant is selected from the group of anionic surfactants, the zwitterionic and Amphoteric surfactants and the non-ionic surfactants or any mixture of these surfactants. 5. Tooth cleaning agent according to one of claims 1 to 4, characterized in that the wax component is selected from the group of vegetable, tieri or the paraffin waxes or any mixture of these waxes. 6. Tooth cleaning agent according to one of claims 1 to 5, characterized in that the oil component is selected from the group of paraffin oils or triglyce ride. 7. Tooth cleaning agent according to one of claims 1 to 6, characterized in that the propellant gas contains a C ₅ alkane. 8. Tooth cleaning agent according to one of claims 1 to 7, characterized in that the propellant gas contains a mixture of a C ₄ alkane and a C ₅ alkane. 9. Tooth cleaning agent according to one of claims 1 to 8, characterized in that it additionally contains at least one binder or thickener. 10. Tooth cleaning agent according to claim 9, characterized in that it as a binding or thickener contains at least one powdered cellulose. 11. Tooth cleaning agent according to one of claims 1 to 10, characterized in that there are anti-caries agents, antimicrobial agents, Tartar inhibitors, remineralizing agents, flavorings or a be contains any combination of these substances. 12. Tooth cleaning agent according to one of claims 1 to 11, characterized in that it contains at least 1% by weight of a propellant gas or a propellant gas mixture. 13. Tooth cleaning agent according to one of claims 1 to 12, characterized in that the agent without propellant gas at 25 ° C has a viscosity of at least 10,000 mPa.s having. 14. Tooth cleaning agent according to one of claims 1 to 13, characterized in that it is at least

• a) 5-30 wt .-% of a polishing agent
• b) 20-85% by weight of a humectant
• c) 0.3-5% by weight of a surfactant or surfactant mixture
• d) 0.1-40% by weight of an oil, fat and / or wax
• e) 0.05-0.5% by weight of a fluoride
• f) 5-50% by weight of water
• g) 1-10 wt .-% of a C ₄ - and / or C ₅ -containing propellant gas or propellant gas mixture

in a dispenser system with a manually operated valve. 15. Use of a tooth cleaning agent according to one of claims 1 to 14 for Rei Cleaning and care of the teeth and prevention of tooth and gum disease gene. 16. A method for dental care and cleaning, characterized in that one Dispenser system by manual operation of a valve one or only a little foamed toothpaste on a ge for mechanical cleaning of the teeth applies a suitable object, the toothpaste stick at 20 ° C and normal pressure has an expansion rate of not more than 100% by volume in 5 seconds and then in a span of 10-100 seconds to no more than that 6 times its volume expands, and you get the gas-containing toothpaste mousse Cleaning of tooth surfaces, interdental spaces and the oral cavity is used.