Detergent product for cosmetic use

Abstract

The detergent product for cosmetic use, comprises: a base compound having a detergent action; spores of probiotic bacteria mixed with the base compound; bacteriophage elements mixed with the base compound and having bactericide activity on predetermined undesired bacterial species present, the bacteriophage elements, in cooperation with the spores of probiotic bacteria, being able to carry out a combined and synergic action against damaging micro-organisms. Use of the detergent product is also described, for cleansing of the skin, skin adnexa (hair, nails, body hair, beard), of the oral cavity, mucosa or the teeth.

Claims

1. A detergent product for cosmetic use, comprising: a base compound having a detergent action selected from the group consisting of PEG-6-caprylic/capric glycerides, sodium laureth sulfate, sodium lauryl sulfate, acrylates/steareth-20 methacrylate copolymer, phenoxyethanol, ethylhexylglycerin, potassium hydroxide or a mixture thereof; spores of probiotic bacteria of the Bacillus genus mixed with the base compound wherein the spores are at a concentration of 10.sup.3 PFU/ml; and bacteriophage elements selected from the group consisting of Caudoverales family, Microviridae family, Leviviridae family, Inoviridae family, Tectiviridae family, Corticoviridae family and mixtures thereof mixed with the base compound at a concentration of 10.sup.4 PFU/ml and having bactericide activity on predetermined undesired bacterial species present, the bacteriophage elements, in cooperation with the spores of probiotic bacteria, providing a synergistic action against damaging micro-organisms.

2. The product of claim 1, wherein the base compound is in a solid, liquid or gaseous state.

3. The product of claim 1, wherein the probiotic bacteria are of a species selected from the group consisting of Bacillus subtilis, Bacillus megaterium and Bacillus pumilus.

4. The product according to claim 1 which is formulated as a toothpaste, a soap, a beauty soap, a deodorant soap, a depilating soap, a shaving soap or foam, a make-up removing product for the face and/or eyes, a foam bath, a shower bath, an intimate detergent for external use, a liquid shampoo, a powder shampoo, a hair conditioner balsam, a deodorant, an anti-perspirant product or a bath salt.

5. A method of cleansing a surface of a subject, wherein said surface is skin, skin adnexa, hair, nails, body hair, beard, oral cavity, mucosa or teeth of said subject comprising exposing said surface to the detergent product of claim 1.

6. A method of shaving or removing hair of a subject comprising exposing hair of said subject to a depilation or shaving soap or foam according to claim 4.

7. A method for cleansing make-up from the face and/or the eyes of a subject comprising exposing said face and/or eyes to said make-up removing product of claim 4.

8. A method for cleansing a surface of a subject for external intimate hygiene, wherein said surface is skin, skin adnexa, hair, nails, beard or body hair comprising exposing said surface to the intimate detergent of claim 4.

Description

BREVE DESCRIPTION OF THE DRAWINGS

(1) FIGS. 1-3 are graphs relating to colonisation over time, respectively to Staphylococcus aureus, Enterobacteriaceae spp. Gram negative) and Candida albicans, on surfaces treated with probiotic bacteria.

(2) FIGS. 4-6 are graphs relating to colonisation over time, respectively to Staphylococcus aureus, Enterobacteriaceae spp. Gram negative) and Candida albicans, on surfaces treated with bacteriophages.

(3) FIGS. 7-9 are graphs relating to colonisation over time, respectively to Staphylococcus aureus, Enterobacteriaceae spp. Gram negative) and Candida albicans, on surfaces treated with bacteriophages and with probiotic bacteria.

(4) FIG. 10 is a graph relating to colonisation over time, with respect to Staphylococcus aureus on surfaces treated with probiotic bacteria and with bacteriophages, with respect to surfaces treated only with probiotic bacteria and only with bacteriophages.

(5) The proposed detergent product for cosmetic use innovatively comprises: a base compound having a detergent action; spores of probiotic bacteria mixed with the base compound; bacteriophage elements mixed with the base compound and having bactericide activity on predetermined undesired bacterial species present, the bacteriophage elements, in cooperation with the spores of probiotic bacteria, being able to carry out a combined and synergic action against damaging micro-organisms.

(6) The field of the invention also includes the use of the detergent product for cosmetic use for cleansing of the skin, skin adnexa (hair, body hair, keratin fibres, nails, beard), of the oral cavity, mucosa (in particular of the oral cavity) and the teeth. It is particularly advantageous for the cleansing of the skin, skin adnexa, hair, nails, body hair, beard, for external intimate hygiene.

(7) The base compound can comprise one or more of the following: PEG-6-caprylic/capric glycerides; Sodium laureth sulfate; Sodium lauryl sulfate; Acrylates/steareth-20 methacrylate copolymer; phenoxyethanol; ethylhexylglycerin, potassium hydroxide. To these can also be added cocamidopropyl betaine and dodecyl-betaine.

(8) The spores of probiotic bacteria can be present in the detergent product of the invention, at a concentration comprised between 10.sup.2-10.sup.9 spore/ml, preferably from 10.sup.5-10.sup.9 spore/ml, more preferably 10.sup.6-10.sup.8 spore/ml.

(9) The bacteriophage elements specifically directed against bacteria potentially able to cause infection/inflammation of the skin or adnexa can be present in the detergent product of the invention, at a concentration comprised between 10.sup.3-10.sup.9 spore/ml, preferably from 10.sup.5-10.sup.9 spore/ml, more preferably 10.sup.6-10.sup.8 spore/ml.

(10) By way of non-limiting example, the probiotic bacteria can be of the Bacillus genus, including the species Bacillus subtilis, Bacillus megaterium and Bacillus pumilus.

(11) This does not exclude the possibility that further probiotic bacteria can be used, as a function of the undesired bacterial species to be compared and contrasted.

(12) The bacteriophage element can advantageously be selected, alternatively or in combination, according to the bacterial species to be compared, from among the following families: Caudovirales, Microviridae, Leviviridae, Inoviridae, Tectiviridae, Corticoviridae.

(13) As is known, the bacteriophage elements of the Caudovirales family also comprise the Myoviridae, Siphoviridae, Podoviridae families.

(14) The detergent product of the invention for cosmetic use, in the preferred embodiments as indicated in the foregoing, is particularly suitable for cleansing of the skin, skin adnexa (hair, body hair, keratin fibres, nails), the oral cavity, the mucosa (in particular of the oral cavity) and teeth.

(15) It can be produced in the solid state (for example for soaps, powders etc.) or in the liquid state (for example creams, lotions, gels, foams etc.) or in the gaseous state (for example for sprays etc.) or an emulsion or a suspension or a paste (for example a toothpaste).

(16) The detergent product for cosmetic use can be advantageously a toothpaste, a soap, a beauty soap, a deodorant soap, a depilating soap, a shaving soap or foam, a make-up removing product for the face and/or eyes (for example a detergent milk, micellar water, tonic), a foam bath, a shower bath, an intimate detergent for external use, a liquid shampoo, a powder shampoo, a hair conditioner balsam, a deodorant, an anti-perspirant product, or a bath salt. Preferably the detergent product for cosmetic use is a toothpaste, a soap, a beauty soap, a deodorant soap, a depilating soap, a shaving soap or foam, a make-up removing product for the face and/or eyes (for example a detergent milk, micellar water, tonic), a foam bath, a shower bath, an intimate detergent for external use, a liquid shampoo, or a powder shampoo. In particular, bath and/or shower products can be in liquid form, such as a liquid detergent product, a foam, oils, gels, or they can be in the form of salts and are preferably a liquid detergent, and oil or a gel.

(17) In a preferred embodiment of the invention, the detergent product for cosmetic use of the invention is a product for shaving such as, for example, a shaving cream, foam or lotion, or a depilating soap, and more preferably it is a cream, a shaving foam or a depilating soap. Note that where there is a beard or profuse body hair there is a greater colonisation of numerous micro-organisms and a tendency to inflammation of the shaven and/or depilated skin and that the shaving creams or foams and the depilating soaps of known type comprise a base compound having a detergent activity and in fact once rinsed they cleanse the skin and the adnexa.

(18) Therefore the use of the detergent product for cosmetic use according to the invention for shaving or depilation is preferred.

(19) In a further aspect of the invention, the detergent product for cosmetic use of the invention is a product for oral hygiene, in particular a toothpaste, in particular if in paste, gel or powder form. The use thereof for cleaning the teeth and/or the mucous membranes of the oral cavity is consequently advantageous.

(20) In a further embodiment of the detergent product of the invention, the detergent product for cosmetic use of the invention is a make-up removal detergent for the face and/or eyes. It is consequently advantageous to use the product for cleansing the face and/or the eyes of make-up.

(21) The action of the bacteriophages is specific, as specific types of lithic bacteriophages kill specific types of bacteria, and therefore perform a potentially very effective and specific action in the direct battle against undesired bacteria.

(22) It is further evidenced how the use of specific bacteriophages prevents the risk of damage to the probiotic Bacillus, which can therefore be kept intact and effective in their activity.

(23) The use of bacteriophages in detergent products for cosmetic use is particularly indicated as they are rather stable in differing temperature conditions, pH and salinity of the environment, and can therefore be added to base compounds without suffering in terms of activity and without the base compound losing detergent activity.

(24) As the Applicant is not at present empowered to carry out laboratory testing on animals or human beings, it has used alternative methods to carry out experimental testing on inert surfaces.

(25) These laboratory test give evidence of the synergic effect deriving from the combined use of probiotic bacteria and bacteriophage elements with respect to the single use of probiotic bacteria or bacteriophage elements.

(26) Test n° 1 (Use Only of Probiotic Bacteria)

(27) The activity of PCHS detergents containing probiotics has been amply evaluated on inert surfaces, where they have shown themselves to be able to destroy the microbial load by about 90% more with respect to traditional detergents, with protracted use for about one month.

(28) After a period of two months destruction, the contaminant load is stably low regarding both the bacteria and the fungi [Caselli et al., 2016].

(29) FIGS. 1-3 illustrate the antimicrobial action (bacteria and fungi) of detergent product based only on probiotics.

(30) The trend of contamination by Staphylococcus aureus (taken as an example of Gram positive bacteria), Enterobacteriaceae spp. (as an example of Gram negative bacteria) and Candida albicans (as an example of fungi), was measured on the field, with application of Rodac plates of specific media for the indicated bacteria and fungi species.

(31) Test n° 2 (Use Only of Bacteriophages)

(32) FIG. 4-6 illustrate the anti-bacterial action of the bacteriophages on an inert surfaces contaminate by specific target bacteria.

(33) The trend of contamination by Staphylococcus aureus (taken as an example of Gram positive bacteria), Pseudomonas aeruginosa (as an example of Gram negative bacteria) and Candida albicans (as an example of fungi), was measured in vitro, on experimental models of inert surfaces having an area of 24 cm.sup.2.

(34) The surfaces were contaminated with a known quantity of micro-organism (10.sup.2 CFU/24 cm.sup.2) and then treated by application of growing concentrations of specific bacteriophages (respectively 10.sup.3, 10.sup.4, 10.sup.5 PFU), therefore in ratios of 10:1, 100:1 and 1000:1 with the seeded target bacteria.

(35) For the fungi a combination of the bacteriophages used against the Gram positive and Gram negative bacteria was used.

(36) The residual contamination was evaluated after 1, 3, 6 hours by application of Rodac plates of specific medium for the indicated bacterial and fungi species.

(37) The results are expressed as mean values±S.D. of samples in duplicate in three independent experiments.

(38) It can be noted that already after one hour, and at the lower concentration, the bacteriophages are able to remove more than 90% of the bacterial cells against which they are specifically directed.

(39) The treatment with only bacteriophages has the limitation of being directed only against the bacteria specifically recognised by the bacteriophages, and therefore in a case of contamination by bacterial species different from those against which the bacteriophages are specifically directed, the surface treated is contaminated by the species not attacked by the bacteriophages, as the bacteriophages are by definition specific for a bacterial species, and therefore not able to attack other bacterial species, not are they able to attack species of fungi.

(40) These limitations of the bacteriophages are overcome by the addition of the probiotics, which instead have a slower action, but generalised and independent of the bacterial or fungi species present.

(41) Test n° 3 (Combined Use of Probiotic Bacteria/Bacteriophages)

(42) FIGS. 7-9 illustrate the effect of the combined and synergic antimicrobial action obtained with the contemporary presence of probiotic bacteria and bacteriophages on surfaces contaminated by the specific microbes illustrated.

(43) The trend of contamination by Staphylococcus aureus (taken as an example of Gram positive bacteria), Pseudomonas aeruginosa (as an example of Gram negative bacteria) and Candida albicans (as an example of fungi), was measured in vitro, on experimental models of inert surfaces of non-porous and sterile material having an area of 24 cm.sup.2.

(44) The surfaces were contaminated with a known quantity of micro-organism (10.sup.3 CFU/24 cm.sup.2) and then treated by application of a solution containing probiotic bacteria growing concentrations of (10.sup.3 CFU/ml) and specific bacteriophages (10.sup.4 PFU/ml).

(45) For the fungi a combination of the bacteriophages used against the Gram positive and Gram negative bacteria was used.

(46) The residual contamination was evaluated after 1, 2, 3 and 4 hours by application of Rodac plates of specific medium for the indicated bacterial and fungi species. The results are expressed as mean values±S.D. of samples in duplicate in three independent experiments.

(47) Comparison of the Tests Carried Out

(48) FIG. 10 illustrates the direct comparison between the antimicrobial action of the no. 3 treatments on the contamination by Staphylococcus aureus, measured in vitro on experimental models of inert surfaces of 24 cm.sup.2.

(49) The surfaces were contaminated with a known quantity of micro-organism (10.sup.3 CFU/24 cm.sup.2) and then treated by application of a solution containing probiotic bacteria growing concentrations of (10.sup.3 CFU/ml), only specific bacteriophages (10.sup.4 PFU/ml), or the combination of probiotics and bacteriophages at the indicated concentrations.

(50) The residual contamination was evaluated after 1, 2, 3 and 7 hours by application of Rodac plates of specific medium for Staphylococcus aureus.

(51) The results are expressed as mean values±S.D. of samples in duplicate in three independent experiments.

(52) From the experimental tests carried out, it can easily be noted how the contemporaneous presence of Bacillus probiotics and anti-pathogen bacteriophages significantly increases the effectiveness of the detergent product for cosmetic use, thanks to the synergic action carried out against the various damaging micro-organisms.

(53) On the one hand the bacteriophages destroy the contaminant load extremely rapidly, but have a limited action over time and do not succeed in preventing re-contamination, nor can they attack bacterial species that are different from those specifically recognised.

(54) On the other hand the probiotics reduce the contaminant load slowly but constantly, thanks to the competitive mechanisms, inhibiting the recontamination and with an action that is independent of the microbial species present.

(55) The contemporaneous presence of probiotics and bacteriophages guarantees the rapidity of the specific antimicrobial action and contemporaneous inhibition of recontamination, ensuring destruction of the pathogen that is rapid and stable over time.

(56) The realising of a product for cosmetic use containing at the same time Bacillus probiotics and anti-pathogen bacteriophages has the obvious advantage, with respect to traditional products, of ensuring and extremely rapid and immediate destruction of the contaminant bacterial load.

(57) This is thanks to the combined action performed by the bacteriophages which are able, in a few hours, to kill the target bacteria, and by the probiotic bacteria, which are able to persistently colonise the cutaneous surface, replacing the pathogens.

(58) The presence of the bacteriophages thus represents an empowering of the anti-bacterial action of the product bases on only probiotic Bacillus as it facilitates and increases the action of the probiotics, which are also active on fungi.

(59) This guarantees an immediate sanitising effect during the initial step of the cosmetic treatment, enabling the probiotic bacteria to maintain a stably low presence over time of potentially pathogenic bacteria.

(60) The addition of specific bacteriophage elements to the base compound mixed with spores of probiotic Bacillus advantageously enables using the product in a directed way, responding to specific needs and/or situations of particular interest, such as for example the destruction of one or more specific bacterial species that are particularly prevalent and/or damaging.

(61) The presence in the product of the invention of a greater number of families of bacteriophage families (Caudovirales, Microviridae, Leviviridae, Inoviridae, Tectiviridae and Corticoviridae) enables the product itself to have a bactericide activity on a broader group of treatable bacterial species.

(62) The predetermined families of bacteriophage elements can be present in the product that is the object of the invention, both singly and in combination, so as to include the possibility of diversified treatments according to the specific need.

(63) From the above it is clear that the detergent product for cosmetic use of the invention is able to active in a particularly rapid and effective way against any potentially-dangerous microbial species, including those of the multi-resistant type (superbugs). The product is particularly effective for cosmetic treatment of the skin and skin adnexa, hair, nails, and the oral cavity, mucosa or teeth, i.e. for cleansing thereof.