The present invention relates to a cosmetic product enriched with bioactive components of propolis and to a method of extracting bioactive components of propolis in cosmetic products by immersing and extracting apiculture products (propolis and beeswax) in the cosmetic product. In particular, a piece of beeswax of specific dimensions is incorporated into the cosmetic product after having been sprayed with propolis tincture. The extraction of the propolis bioactive components (terpenes, phenolic components) takes place in the cosmetic product assisted by the surfactants of the cosmetic product.
Until now, no such product has been known to have been produced using this particular method.
In particular, propolis is one of the apiculture products whose ingredients are used in cosmetic products and dietary supplements due to their beneficial, to the health, properties. It is a sticky and resinous mixture resulting from the mixing of plant secretions collected from bees (Apis mellifera L.) which is mixed with pollen and enzymes. The composition of propolis depends mainly on its geographical and botanical origins, on the collection season and climatic conditions. In general, it consists of 50% resins, 30% waxes, 5% pollen and 10% essential oils. Its beneficial properties are due to its bioactive components, which are mainly phenolic acids, flavonoids, terpenoids and their derivatives.
The main beneficial effects of propolis are anti-inflammatory and reconstructive, while the photo-protection that it can also provide to the skin is important. The application of propolis products induces skin detoxification and the extinction of free radicals which is a result of ultraviolet radiation, while at the same time it regulates collagen production and antiaging mechanisms (Saewan et al, 2015, Olczyk et al, 2013, Kim & Yoo, 2016). At the same time, its antimicrobial properties, which help maintain tissue homeostasis and are due to phenolic and terpenoid components, are also important. For all these reasons, propolis is considered to be by many researchers among the possible ingredients of pharmaceutical cosmetics, with an effect against radiation, aging, inflammation and against micro-organisms, and also as a means of preventing skin homeostasis.
Propolis is generally incorporated into products in the form of propolis extracts, with most common the propolis tincture (ethanolic extract). During the last years, extraction solvents which are more environmentally friendly, such as glycols (butylene glycol, propylene glycol, glycerol) and water have been used as extractors. The extraction process involves maceration of the propolis in the solvent and then filtering in order to remove the insoluble propolis. The extraction process may include heating and/or energy transfer using techniques such as microwaves or ultrasounds. When aiming at the production of the final extract in solid powder form, then the drying stage is carried out either by spray-drying or by freeze-drying.
A major disadvantage of extractions production is that it involves many stages such as maceration with or without the use of energy, filtration as well as drying when we wish to produce the extract in the form of solid powder. All these methods include energy-consuming processes and the use of chemical additives such as maltodextrins in the case of spray-drying. All the above considerably increase the cost of the production process while burdening both the environment and the product itself.
All the above disadvantages have prompted us to find a solution, the result of which is the object of the present invention. With our invention the above disadvantages are eliminated. Because no prior treatment of the sample or the use of special pharmaceutical processes is required in order to obtain the bioactive components of propolis. The addition of the wax-propolis system to a cosmetic product is sufficient to enrich the product, since the product includes surfactants which promote the transfer of phenolic and terpene components. In this way, the use of chemical processes is avoided. Furthermore, the avoidance of the use of organic solvents, and energy in any form, makes the production method of the invented products environmentally friendly and ecological. In addition, the invented method is the simplest method of enriching cosmetics with natural components of the hive, where there is no use of high temperatures, ultrasounds or microwaves, methods that require energy consumption and vertically increase the production costs, while the final product has specific specifications regarding the total polyphenols and the antioxidant capacity.
Finally, the process of transferring bioactive components of propolis from the piece of beeswax to the cosmetic product is an active process that takes place throughout the life of the cosmetic product within its packaging and the proposed method does not affect the pH of the product which is a critical physicochemical parameter of a cosmetic.
The confirmation of the transfer of bioactive components of propolis to the cosmetic system is made by measuring the antioxidant capacity in terms of radical scavenging.
Therefore, the basic purpose of the present invention is the production of cosmetic products, such as shower gel and shampoo, with a high concentration of bioactive components of propolis obtained by incorporating wax sprayed with propolis tincture into each packaging of the cosmetic product. In this way, throughout the life of the cosmetic product, bioactive components of propolis are transferred from the surface of the wax to the mass of the cosmetic product.
In order to make our invention understood by those skilled in the art, the method of enriching a cosmetic product with active components of propolis by directly extracting them from beeswax sprayed with propolis tincture and incorporated into the mass of the cosmetic product is described below.
The process begins with the treatment of the beeswax. At the first stage, the production of high quality and purity of wax is ensured by placing it in a special proving oven of constant temperature ranging from 60 to 70 degrees Celsius. Then in the second stage of the process, the melted wax is collected and washed with running water in order to be washed from honey residues. In the third stage of the process, the wax is repositioned in warm water in order to remove any debris (parts of stones, sticks, leaves, cocoons, etc.). In the fourth stage of the process, the wax which has already been cleared is collected, re-melted and placed in a manually-operated machine in order to prepare the wax sheets which are cut into a 5 cm×0.8 cm dimension or into any other desired dimension and then, in the fifth stage of the process, they are sprayed with propolis tincture, which has been produced by blending biological propolis with ethanol (96°) in a proportion of 1:1. Then, in the sixth stage of the process, the wax is allowed to dry for at least 8 hours at room temperature (15-25° C.) in order for the ethanol to be evaporated and alcohol-free product to be produced. In the final stage, the piece of wax which has received the above treatment is incorporated into the cosmetic product (shampoo, shower gel) in a specific proportion: 1 piece of wax (5 cm×0.8 cm) in 40 mL of product.
In this way, the antioxidant capacity of the products is increased due to the transfer of bioactive components of propolis, eventually aiming at their transfer to the skin. The beneficial ingredients of propolis protect the skin from negative environmental factors
The confirmation of transfer of phenolic components is made by measuring the antioxidant capacity which is achieved by measuring the radical scaveging of 2,2-diphenyl-1-picrylhydrazyl (DPPH) radical and the values are compared with the values of the measurements of ethanol and water mass where the beeswax is added. Measurements take place over a period of fifteen days after the preparation of the solutions.
The following examples are given in order to explain the present invention:
Beeswax of specific dimensions sprayed with propolis tincture is incorporated into a shower gel in a proportion of: 1 piece of honeycomb per 40 mL of shower gel. After 20 days, the antioxidant capacity is measured
The value of antioxidant capacity is shown in Table 1.
Beeswax of specific dimensions sprayed with propolis tincture is incorporated into a shampoo in a ratio of: 1 piece of honeycomb per 40 mL of shower gel. After 20 days, the antioxidant capacity is measured.
The value of antioxidant capacity is shown in Table 2.
Filing Document | Filing Date | Country | Kind |
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PCT/GR2019/000045 | 6/28/2019 | WO |