GR20150100516A - A skin composition of cosmetic or pharmaco-cosmetic formula containing mud from messologhi - production method thereof - Google Patents

Abstract

Novelty: a skin composition of cosmetic or pharmaco-cosmetic formula containing mud from Messologhi is disclosed. Purpose: to be applied to the skin as an antioxidant, anti-ageing and hydrating agent. Components: 0.1-50% mud from Messologhi, chelating agents και more precisely Alkyl-Substituted Amino Acid or/and Phosphorous Compounds (including salts) in a rate ranging from 0.01 to 1%, Emulsifying Agents and more precisely Esters or/and Glyceryl Esters & Derivatives or/and Alcoxylated Alcohols at a rate ranging from 01% to 20%, Emulsion Stabilizers and more precisely Gums, Hydrophilic Colloids & Derivatives (including salts) or/and Polymers (including salts) at a rate ranging from 0.01% to 5%, Viscosity Increasing Agents and more precisely Alcoxylated Alcohols or/and Inorganic Salts at a rate of 0.01% to 5%, Dispersing Agents and more precisely Quaternary Ammonium Compounds at a rate of 0.01% to 10%, Humectants and more precisely Polyols at a rate ranging from 0.1% to 20% Emollients and more precisely Esters or/and Ethers or/and Fats & Oils at a rate ranging from 1% to 20%, Antioxidants and more precisely Esters or/and Heterocyclic Compounds at a rate ranging from 0.1% to 5%, Preservatives and more precisely Alcohols or/and Ethers or/and Organic Acids & Salts at a rate ranging from 0.01% to 2%, Fragrance & Fragrance Ingredients and more precisely Material or combination of materials to produce or to mask particular odor at a rate ranging from 0.01% to 5% και water at a rate ranging from 40% to 80%.

Description

DESCRIPTION

COSMETIC OR PHARMACEUTICAL FORMULA COMPOSITION CONTAINING MESSOLOGY MUD FOR SKIN USE AND METHOD

PRODUCTION OF

Technical field

The present invention refers to the production method and the composition of a cosmetic or pharmaco-cosmetic formula containing mud from the area of Mesolongio (0.1-50 % by weight) as an active ingredient, intended for local dermal administration either as a cosmetic or as a pharmaco-cosmetic product, and characterized from the fact that its use combines a multitude of properties such as antioxidants, anti-aging and moisturizing with visible effects of brightness, uniformity and firmness on the human skin. Said composition includes ingredients suitable for the preparation of cosmetic or pharmaco-cosmetic formulas.

Technological background

The skin is the largest organ of the human body, serving as a protective barrier from the external environment. For this reason it is susceptible to various disorders and diseases caused by micro-organisms, radiation exposure and water loss. To date, no similar product has been reported worldwide, which contains mud from the area of Messolonghi as an active ingredient.

In particular, references are made in the literature about mud from the Dead Sea which is known for its therapeutic and cosmetic properties (Ma'or Z. and Yehuda S., 1997). The Dead Sea Mud contains high levels of Magnesium, Potassium, Calcium, Bromine, as well as trace elements such as Lithium, Strontium, Iodine, Chlorine, which are effective in cleaning and rejuvenating the skin. This mud is known for its healing properties in various skin diseases such as psoriasis. Also in the literature is silica mud from Blue Lagoon in Iceland. This geothermal basin contains water that comes from underground reservoirs. The salinity of this water shows that it consists of 65% seawater and 35% fresh water. The lake water has an average temperature of 37°C, PH = 7.5 and a salt content of 2.5% by weight. Both mud from the lake and swimming have beneficial effects in patients with psoriasis, atopic dermatitis as well as in people with normal-normal skin (Matz H. et al., 2003, Olafsson JH. et al., 1996) .

Nevertheless, none of the above-mentioned muds present the composition and properties of Messolonghi mud.

The lagoon of Messolonghi is the largest in Greece and is an outwash of the sea from the alluvium of Achelous and joins the lagoon of Aitolikos. The seawater of the area shows increased salinity due to the microclimate of the area and for this reason the largest salt pans in Greece were developed there. Also due to these conditions and the appropriate configuration of the lagoon's landscape, significant reserves of mature mud (silt - clay: Agia Triada, Tourlida, Finikia) have been formed. The transport of suitable transported materials from the adjacent mountain masses, in contact with the salt water, formed the substrate for the creation of mud. These transported materials were enriched with organic components from the rotting of algae and with the participation of microorganisms they transformed the transported materials into mature mud, which due to its composition acts therapeutically in three ways at the same time: thermal, mechanical and chemical. During application, due to its heat and texture, it creates local hyperemia, as well as excellent cleanliness and a tender touch of the skin. Its black color is due to sulphide salts, which are an important therapeutic component, because when the mud comes into contact with the human skin, they react with its acidic components, releasing sulphide ions (Korovessis N et al., 2014). These, in turn, are absorbed by the skin, contributing to the treatment of dermatological diseases. The action is due to the abundance of metals such as Magnesium, Potassium, Phosphorus, Calcium, Bromine as well as trace elements such as Zinc and Iodine, which have proven soothing or healing properties (Korovessis N et al., 2014). Two clinical studies proved the beneficial effect of Mesolongi medicinal mud patches in relieving the symptoms of osteoarthritis and in treating cellulite (Pnevmatikakos et al., 201 1 , Pnevmatikakos et al., 2013).

Messollogi mud, in relation to other similar muds, has the special characteristic of presenting a significant phenolic load, which is probably due to its antioxidant capacity. In addition, the mud from the area of Messolonghi contains lower concentrations of SiO2, which is considered toxic at high concentrations, compared to the mud that comes from many regions of Greece and the world. Finally, it presents a complete absence of heavy metals and toxic elements, which are common in muds of various regions of the world, which makes it safe and usable.

In addition to all the above, the importance of the lagoon of Messolonghi has been recognized internationally and is protected by the well-known RAMSAR treaty, constituting a unique environmental park and ecosystem (Mpali et al., 1986).

Despite the beneficial properties of Messolonghi mud, its cosmetic use has not been investigated until now. In addition, its use presents many difficulties and disadvantages. In particular, the direct supply of raw sludge is practically difficult due to the large quantities that must be applied for each individual treatment, while at the same time it is prohibitive due to the high concentration of the sludge in pathogenic microorganisms that makes its use dangerous. In fact, during its storage, the concentration of pathogenic microorganisms increases to irreversible toxic levels for humans. An important disadvantage is also the cost of its use, since mud treatment in specialized beauty salons can be particularly expensive. Another problem related to the nature of mud as a material is the inhomogeneity it presents, which makes it difficult to use it as a raw material, as it exhibits very easy agglomerations when incorporated into final formulations providing an unacceptable texture as well as an inhomogeneous therapeutic effect. Finally, the treatment with mud cannot last for a long time, since it cannot stay in the body for a long time, due to the discomfort caused to the user by using it directly on the skin and also for aesthetic reasons.

Taking into account all the above disadvantages, the primary purpose of the present invention is to formulate a cosmetic or pharmaco-cosmetic formula in order to overcome the problems associated with mud treatments by providing an easy and pleasant use while maintaining all the therapeutic benefits of mud.

In particular, the present invention focuses on:

- in the stabilization of the mud so that it can be incorporated homogeneously in final shaping,

- in the formulation that can provide physicochemical and microbiological stability to the sludge,

- in proving the action of mud as an antioxidant, antiaging and moisturizing bioactive agent and

- in the use of shaping that includes it as an enhancer of radiance, uniformity and firmness of the human skin.

In particular, until today, the composition of a cosmetic or pharmacollinic formula with Messolonghi mud as an active substance has not been described in the literature, even though in terms of safe use and effectiveness it is a very important option.

Disclosure of Invention

In order for our invention to be understood by those skilled in the art, we proceed next to describe the composition of a cosmetic or pharmaco-cosmetic formula with Messolonghi mud as an active substance.

The formula includes as the main active ingredient 0.1-50% w/w mud.

In addition, the specific composition contains the following ingredients (characterized in terms of their cosmetological function and the chemical class they belong to as defined by the International Cosmetic Ingredient Dictionary & Handbook) which act as carriers and stabilizers of the active ingredient.

In order to achieve a physicochemical control of the Messolonghi mud, the dried sample is diluted by 10% w/w with deionized water and stirred until completely homogenized. In the homogenized sample, the antioxidant capacity is checked with the method of binding the free radical 1,1-diphenyl-2-picryihydrazine (DPPH) as described by Brand-Williams et al. (1995) and for the phenolic content with the Folin-Ciocalteu method as described by Arnous et al. (2002). Then the sample remains at rest for one (1) hour and the density, pH and Refractive Index (Rl) are checked by the supernatant of the biphasic system.

The Messolonghi mud used in the present invention has a density of 1.03±0.03 g/mL, pH 8.18±0.12, Rl 1.67±0.16% Brix, water concentration 30 - 40 % w/w and less than 1000 cfu/gr in pathogens and non-pathogens microorganisms. The homogenized sludge has a phenolic content of 216 ± 30.59 mg GA/L and an antioxidant capacity of 0.19 ± 0.01 mM Trolox equiv.

The main components of Messolonghi mud are:

Cl % 1 39 1.44

Al % 5 33 7.00

Ca % 3 55 6.55

Fe % 242 4.88

K % 0 95 1.47

Mn ppm 600-692

Na % 3.93 5.40

Mg % 4 22 6.01

S % 1 10 2.38

Zn ppm 45-59

0         % 5080 52.04

Si % 1602 19.74

Br ppm 300-340

I ppm 27 -29

Its particle size ranges from 0.8 µm to 20.5 µm, with an average size of 6.2 µm, according to electronic scanning photographs (solid samples, unsieved).

The thermogravimetric analysis (TGA) showed that the mud from the area of Messolonghi contains very low concentrations of SiO2 (0.24-0.31 %). Finally, the elemental analysis did not show the presence of toxic elements and heavy metals.

The method of preparing a cosmetic or pharmaco-cosmetic formula of the present invention is carried out based on the following stages:

In the first stage, the sludge is dried either naturally (by exposure to the sun for 5 days) or by lyophilization, while in the second stage, the dried sludge is dispersed in deionized water at a ratio of 60% by weight. under vigorous stirring and then the suspension is mixed with dispersing agents in a ratio by wt. 10/1 to 5/1. The dispersing agents may belong to the class of Quaternary Ammonium compounds and may be Disteardimonium Hectorite and/or Quaternium-18 Hectorite and/or Benzalkonium Sepiolite and/or Benzalkonium Montmorillonite. The mixture is then processed in a planetary mill at a speed of 250-400 rpm.

In the third stage of the method, all the hydrophilic and non-thermosensitive components of the composition are mixed in a special container which is heated to 80-85 °C.

In the fourth stage of the method, all the lipophilic components of the composition (except the fragrance) are mixed in a second vessel and heated to 80-85 °C until the mixture is completely homogenized.

In the fifth stage of the method, the mixture of lipophilic components is transferred to the container with the hydrophilic components and, in parallel with special homogenization equipment, high shear mixing is applied to reduce the surface tension between the two heterogeneous systems and to create a stable dispersion of micelles of one within the other. The homogenization process is carried out at a shear speed of 3000-4500 rpm and lasts 10-30 minutes at a constant temperature of 80-85 °C and with regular microscopic observation of the mixture. This is followed by cooling of the homogenized mixture using only peripheral stirring

In the sixth step of the method, the thermosensitive hydrophilic components and the aroma are added at ambient temperature with gentle peripheral agitation.

In the seventh stage of the method, control is carried out, in principle, of the resulting pH and adjusted accordingly by the addition of buffers - 20% w/w sodium caustic (NaOH) solution or 20% w/w citric acid (C6H8O7) solution in pH =7.00, then the viscosity of the resulting product is checked, which should be between 300000 and 600000 cps (BROOKFIELD RV, spindle/speed: SA25/3rpm).

Finally in the eighth stage, a microbial control is carried out, where the total microbial load of the resulting product should be less than 100 cfu/gr, the total load of yeasts and fungi should be less than 100 cfu/gr and they should be absent microorganisms such as: Coliforms, Escherichia coli, Staphylococcus aureus, Candida albicans, Pseudomonas aeruginosa.

Experimental documentation of mud action.

Despite the beneficial properties of mud there are a limited number of reports on the biological action of mud on human skin (Susanne Grether-Beck et al., 2009, Portugal-Cohen et al., 2009). In order to document the action of Messolonghi mud on human skin, we conducted a study of its interaction with human skin cells, specifically with the human NHDK cell line. NHDK (primary Human Dermal Keratinocytes), derived from human primary normal dermal keratinocytes, isolated from an adult. The specific cell line was cultured in the recommended nutrient material, KGM-Gold™ BulletKit which contains 2% serum while the necessary conditions are: 95% humidity, 5% CO2 and a temperature of 37°C.

The initial objective was to assess the cell viability/vitality of the above skin keratinocytes after 48 hours incubation of the mud extract at two different concentrations (1%, 10%) in them. For this purpose, the mud extract was created as follows:

• The dried sludge is dispersed in deionized water at a ratio of 60% by weight. under vigorous stirring and then the suspension is mixed with dispersing agents in a ratio by wt. 10/1 to 5/1.

• The sludge is centrifuged at 4000rpm for 20 minutes (HERMLE Labortechnik GmbH, Wehingen)

• The supernatant is introduced into the skin keratinocytes in two concentrations of 1%, 10%.

Assessment of cell viability/viability of the above dermal keratinocytes was based on the detection of ATP levels (Crouch SPM et al.). ATP levels were measured with a fluorometer and using a kit (ViaLight™ Plus Cell Proliferation and Cytotoxicity). ATP molecules are characterized as the energy currency in intracellular energy transfers from one biochemical molecule to another (Crouch SPM et al.).

The mud extract did not show cytotoxicity to skin keratinocytes at either concentration. In contrast, at the 1% concentration, a significant increase in keratinocyte viability (increase in ATP) over 200% (p<0.05) was observed with mud extract compared to keratinocytes without extract (bar graph 1). This result is shown in the following bar graph (bar graph 1).

Bar graph 1. ATP levels in keratinocytes (Untreated cells) and in keratinocytes to which two concentrations of mud extract have been added (cells Mud 1%, cells Mud 10%). * Statistically significant difference, Student's ttest (p<0.05).

Also, the changes caused by the effect of the 1% concentration mud extract on the gene expression of skin keratinocytes were studied. For this purpose, real-time polymerase chain reaction RT-PCR technique was used (Giulietti A et al., 1993). From the gene study, it emerged that keratinocytes with 1% mud extract showed overexpression (p<0.05) of the aquaporin-3 (AQP3) gene compared to keratinocytes without extract (bar graph 3). The same result was obtained for the 10% concentration mud extract. Hydroporins are a group of proteins thought to create channels that facilitate the massive influx of water molecules into the cell (Draelos Z, 2012). Hydroporin-3 is abundant in human skin and overexpression of the AQP3 gene has been linked to skin hydration (Hara-Chikruma M and Verkman AS, 2008, Fluhr JW et al.,2008, Boury-Jamot et al., 2009).

Bar graph 2. AQP3 gene expression levels are depicted in keratinocytes without or with 1% mud extract (untreated cells, cells 1% Mud respectively).<*>Statistically significant difference is shown, Student's t-test (p<0.05).

The anti-aging effect of the mud extract was investigated based on the expression levels of the SIRT1 gene which encodes the corresponding protein at the mRNA level. SIRT1 is a protein whose activity has been linked to the antiaging protection of skin cells (Moreau M et al., 2007; Michishita E et al. , 2005). Overexpression of SIRT1 gene was observed indicating antiaging protection of 1% mud extract in human dermal keratinocytes. The same result was obtained for the 10% concentration mud extract.

Bar graph 3. SIRT1 gene expression levels are depicted in keratinocytes without or with 1% mud extract (untreated cells, cells Mud 1% respectively).<*>Statistically significant difference is shown, Student's t-test (p<0.05).

Bar graph 4. SOD1 gene expression levels are depicted in keratinocytes without or with 1% mud extract (untreated cells, cells Mud 1% respectively). * Statistically significant difference is shown, Student's t-test (p<0.05).

The antioxidant activity of the mud extract was investigated based on the expression levels of the SOD1 gene, which encodes the corresponding protein at the mRNA level. SOD1 is a protein whose activity has been linked to the antiaging protection of skin cells (Gruber JV and Holtz R., 2009). Overexpression of SOD1 gene was observed indicating antioxidant protection of 1% mud extract in human dermal keratinocytes.

Based on all the above experimental applications, the following were confirmed:

That the invented composition of cosmetic or pharmaco-cosmetic formula has an anti-aging, moisturizing and antioxidant effect. This action was confirmed through the biological action of the mud extract on human keratinocytes through an in vitro study. Mud extract enhances the vitality of human skin keratinocytes mainly at the concentration of 1%, mud extract has a protective role in cell aging specifically with its use increased SIRT1 gene expression in keratinocytes with mud extract confirming its anti-aging effect, while at the same time an increased expression of the AQP3 gene was observed in the keratinocytes with mud extract highlighting its role in their hydration mechanism, finally the mud extract exhibits antioxidant properties since an increase in the SOD1 gene was observed in the keratinocytes with the mud extract

Clinical study

The clinical efficacy of the formulation described in Table 1 was evaluated.

In a group of 20 people with normal/dry skin, strictly selected by a dermatologist, 5 applications of the mask were performed on the face, every 4 days.

7 action criteria evaluated by a dermatologist: emollient, anti-wrinkle, uniformity, firming, radiance, moisturizing and rejuvenating. The scale used was from 1 to 10, after the first application and at the end of the fifth application.

The results showed the following:

1. No allergic symptoms or irritations occurred

2. The 3-week treatment improved the condition of the skin in all the criteria examined. In most cases the improvement was significant

3.  Immediately after application there was an improvement, according to the statistical processing of the results: 30%(p<0.07) in radiance and 42%(p<0.02) in skin firmness

4.   After 5 applications there was an improvement, according to the statistical processing of the results: 50% (p<0.05) in softness, 42% (p<0.02) in the reduction of wrinkles, 66% (p<0.008) in the uniformity of the face , 65% (p<0.02) in firmness, 55% (p<0.05) in radiance, 88% (p<0.005) in hydration and 80% (p<0.05) in rejuvenation.

References (In order according to the manuscript)

1. Korovessis N., Pnevmatikatos S., Georgiadis G. (2014) Solar saltworks a multi exploitable-profitable wetland. Solar Conference June 3-4, Trapani, Sicily.

2. Pnevmatikakos S., Kintziou H., Varvaresou A., Papageorgiou S., Protopappa E., Kefala V. (2011). The efficacy of Sea mud compresses from Messologhi Lagoon as a treatment for Osteoarthritis symptoms on Neck, Shoulder, Arm, Lower Back, Hip and Knee joints. Journal of Clinical Pharmacology and Pharmacokinetics. 29 (2) 159-68.

3. Pnevmatikakos S., Kintziou H., Varvaresou A., Papageorgiou S., Protopappa E., Kefala V. (2013). Effect of sea mud compresses from Messologhi Lagoon as a treatment for cellulite. (Experimental study). 9<th>World Congress of Cosmetic Dermatology, June 27-30, Athens, Greece.

4. Ma'or Z. and Yehuda S. (1997). Skin smoothing effects of Dead Sea minerals: comparative profilometric evaluation of skin surface. International Journal of Cosmetic Science. 19(3): 105-110

5. Matz H, Orion E, Wolf R (2003). Balneotherapy in dermatology. Dermatology Therapy. 16 (2): 132-140.

6. Olafsson JH (1996). The Blue Lagoon in Iceland and psoriasis. Clinical Dermatology. 14 (6): 647-651

7.  International Cosmetic Ingredient Dictionary & Handbook. (Fifteen Edition 2014), Personal Care Products Council, 1620 L Street, NW, Suite 1200, Washington, D.C. 20036

8. Brand-Williams, W., Cuvelier, M.E., Berset, C. (1995) Use of a free radical method to evaluate antioxidant activity. LWT - Food Science and Technology. 28: 25-30. Arnous, A., Makris, D.P., Kefalas, P., 2002. Correlation of pigment and flavanol content with antioxidant properties in selected aged regional wines from Greece. Journal of Food Composition and Analysis. 15, 655-665. 9. Grether-Beck S, Miihlberg K, Brenden H, Felsner I, Brynjolfsdottir A, Einarsson S, Krutmann J (2008). Bioactive molecules from the Blue Lagoon: in vitro and in vivo assessment of silica mud and microalgae extracts for their effects on skin barrier function and prevention of skin aging. Experimental Dermatology. 17(9):771-779.

10. Crouch SP, Kozlowski R, Slater KJ, Fletcher J (1993). The use of ATP bioluminescence as a measure of cell proliferation and cytotoxicity. J Immunol Methods. 160(1):81-88

Giulietti A, Overbergh L, Valckx D, Decallonne B, Bouillon R, Mathieu C. (2001). An overview of real-time quantitative PCR: applications to quantify cytokine gene expression. Methods. 25(4): 386-401. Review

11. Draelos Z. (2012). Aquaporins: an introduction to a key factor in the mechanism of skin hydration. J Clin Aesthet Dermatol. 5(7):53-6

12. Hara-Chikuma M, Verkman AS. (2008) Roles of aquaporin-3 in the epidermis. J Invest Dermatol. 128(9):2145-51. Review.

13.  Fluhr JW, Darlenski R, Surber C. (2008) Glycerol and the skin: holistic approach to its origin and functions. Br J Dermatol. 159(1):23-34

14.  Boury-Jamot M, Daraspe J, Bonte F, Perrier E, Schnebert S, Dumas M, Verbavatz JM. (2009) Skin aquaporins: function in hydration, wound healing, and skin epidermis homeostasis. Handb Exp Pharmacol. 190:205-17.

15.   Moreau M, Neveu M, Stephan S, Noblesse E, Nizard C, Sadick NS, Schnebert S, Bonte F, Dumas M, Andre P, Perrier E. (2007) Enhancing cell longevity for cosmetic application: a complementary approach. J Drugs Dermatol. 6(6): 14-19.

16.   Michishita E, Park JY, Burneskis JM, Barrett JC, Horikawa I. (2005) Evolutionary conserved and nonconserved cellular localizations and functions of human SIRT proteins. Mol Biol Cell. 16(10):4623-4635.

17. Gruber JV, Holtz R. (2009) Examining communication between ultraviolet (UV)-damaged cutaneous nerve cells and epidermal keratinocytes in vitro. Toxicol Ind Health. 25(4-5):225-230.

18.  Fluhr JW, Darlenski R, Surber C. (2008) Glycerol and the skin: holistic approach to its origin and functions. Br J Dermatol. 159(1):23-34

Claims (5)

1. A cosmetic or pharmaco-cosmetic formula containing Messologia mud for skin use, such as indicative for antioxidant anti-aging and moisturizing use, which is characterized by containing Messologia mud in a percentage of 0.1% to 50%, chelating agents and specifically Alkyl-Substituted Amino Acid and/or Phosphorous Compounds (including salts) at a rate of 0.01% to 1%, Emulsifying Agents and specifically Esters and/or Glyceryl Esters & Derivatives and/or Alkoxylated Alcohols at a rate of 0.1% to 20%, Emulsion Stabilizers and specifically Gums , Hydrophilic Colloids & Derivatives (including salts) and/or Polymers (including salts) in a percentage from 0.01% to 5%, Viscosity Increasing Agents and specifically Alkoxylated Alcohols and/or Inorganic Salts in a percentage from 0.01% to 5%, Dispersing Agents and in particular Quaternary Ammonium Compounds in a percentage from 0.01% to 10%, Humectants and in particular Polyols in a percentage from 0.1% to 20% Emollients and in particular Ester s and/or Ethers and/or Fats & Oils at a rate of 1% to 20%, Antioxidants and specifically Esters and/or Heterocyclic Compounds at a rate of 0.1% to 5%, Preservatives and specifically Alcohols and/or Ethers and/or Organic Acids & Salts in a percentage from 0.01% to 2%, Fragrance & Fragrance Ingredients and specifically Material or combination of materials to produce or to mask particular odor in a percentage from 0.01% to 5% and water in a percentage from 40% to 80%. 2.    A cosmetic or pharmaco-cosmetic formula containing Messologium mud for skin use, according to claim 1, characterized in that the Messologium mud used contains CI in a proportion of from 1.39% to 1.44%, AI in a proportion of from 5.33% to 7%, Ca in a percentage from 3.55% to 5.85%, Fe in a percentage from 2.42% to 4.88%, K in a percentage from 0.95% to 1.47% Mn in a percentage from 600 to 692 ppm, Na in a percentage from 3.93% to 5.40% , Mg in a percentage from 4.22% to 6.01%, S in a percentage from 1.10% to 2.38%, Zi in a percentage of 45-59ppm, O in a percentage of 50.80 to 52.04%, Si in a percentage from 16.02% to 19.74%, Br in a percentage of 300 to 340 ppm & I at a rate of 27 to 29 ppm, 3.    A method for the production of a cosmetic or pharmaco-cosmetic formula containing Messologia mud for skin use, according to claims 1 to 2, which is characterized in that it comprises the following steps: - in the first stage the mud is dried naturally (exposure to the sun) or by freeze-drying, - in the second stage, the dried sludge is dispersed in deionized water at a ratio of 60% by weight. under vigorous stirring and then the suspension is mixed with dispersing agents in a ratio by wt. 10/1 to 5/1 followed by treatment of the mixture in a planetary mill at a speed of 250-400 rpm., - in the third stage of the method, all the hydrophilic and non-thermosensitive components of the composition are mixed in a special container which is heated to 80-85 °C, - in the fourth stage of the method, all the lipophilic components of the composition except the perfume are mixed in a second container and heated to 80-85 °C until the mixture is completely homogenized, -   in the fifth stage of the method, the mixture of lipophilic components is transferred to the container with the hydrophilic components and, in parallel with appropriate homogenization equipment, high shear mixing is applied to reduce the surface tension between the two heterogeneous systems and to create a stable dispersion of micelles of one within the other , while cooling of the homogenized mixture follows using only peripheral stirring - in the sixth stage of the method, the thermosensitive hydrophilic components and the aroma are added at ambient temperature with gentle peripheral stirring - in the seventh stage of the method, a control is carried out, in principle of the resulting pH and adjusted according to the addition of buffers - 20% w/w sodium caustic solution (NaOH) or 20% w/w citric acid solution (C6H807) at pH = 7.00 while the viscosity of the resulting product is then checked, which should range between 300000 and 600000 cps (BROOKFIELD RV, spindle/speed: SA25/3rpm) and - in the eighth stage, a microbial control is carried out, so that the total microbial load of the product is less than 100 cfu/gr, the total load of yeasts and fungi less than 100 cfu/gr, while microorganisms such as: Conforms, Escherichia coli should be absent , Staphylococcus aureus, Candida albicans, Pseudomonas aeruginosa. 4. A method for the production of a cosmetic or pharmaco-cosmetic formula containing Messologia mud for skin use, according to claims 1 to 3, characterized in that the dispersing agents mixed with the suspension may belong to the class of Quaternary Ammonium compounds and may be Disteardimonium Hectorite and/or Quaternium-18 Hectorite and/or Benzalkonium Sepiolite and/or Benzalkonium Montmorillonite. 5. A method for the production of a cosmetic or pharmaco-cosmetic formula containing Messologia mud for skin use, according to claims 1 to 3, characterized in that the homogenization process is carried out at a shear rate of 3000-4500 rpm and lasts for 10 -30 minutes at a constant temperature of 80-85 °C and with regular microscopic observation of the mixture.