Title of Invention	COMPOSITIONS IN THE FORM OF FINELY DIVIDED DRIED POWDERS
Abstract	The present invention relates to compositions in the form of finely divided dried powders, characterised in that they are quaternary and comprise an active substance, propolis, a hydrophilic carrier and two co-grinding auxiliary substances, of which one is an aminoacid and one is a sweetening agent, glycyrrhizate, having said compositions a greater solubility than the corresponding ternary compositions in which the sole auxiliary substance consists of aminoacids, wherein: -the weight ratio between the active substance and the carrier is between 1: 1 and 1 :20; -the weight ratio between the active substance and the aminoacidic auxiliary substance is between 1 :0.1 and' 1 :2; -the weight ratio between the active substance and the second glycyrrhizate co-grinding auxiliary substance is of between 1 :0.5 and 1 :2.

Title of Invention

COMPOSITIONS IN THE FORM OF FINELY DIVIDED DRIED POWDERS

Abstract

The present invention relates to compositions in the form of finely divided dried powders, characterised in that they are quaternary and comprise an active substance, propolis, a hydrophilic carrier and two co-grinding auxiliary substances, of which one is an aminoacid and one is a sweetening agent, glycyrrhizate, having said compositions a greater solubility than the corresponding ternary compositions in which the sole auxiliary substance consists of aminoacids, wherein: -the weight ratio between the active substance and the carrier is between 1: 1 and 1 :20; -the weight ratio between the active substance and the aminoacidic auxiliary substance is between 1 :0.1 and' 1 :2; -the weight ratio between the active substance and the second glycyrrhizate co-grinding auxiliary substance is of between 1 :0.5 and 1 :2.

Full Text	QUATERNARY COMPOUNDS COMPRISING PROPOLIS AS THE ACTIVE SUBSTANCE Field of the invention The invention relates to a quaternary composition comprising propolis as the active substance, a delivery carrier and two co-grinding auxiliary compounds, and the use thereof as a dietary supplement or in parapharmaceutical and dermocosmetic products. State of the art As is known, propolis is a special wax produced by bees which is widely used in phytotherapy as a dietary supplement, since it has no significant side effects and, on the contrary, has been shown to exert~ beneficial effects in various physiopathological conditions, above all in subjects with immune deficiencies duo to causes of various origins. In addition to immuno-stimulant activities, antibacterial and bacteriostatic activities, antiviral and mycostatic activities, anti-inflammatory and wound healing activities are indeed attributed to propolis. From the physico-chemical point of view, it appears as a yellow-brown resinous substance with a waxy consistency; indeed it contains resins, balsams, wax, essential oils, pollen, organic substances, mineral salts and oligoelements. Although it contains many substances peculiar to its plant origin, such as for example terpenes, polysaccharides, uronic and fatty acids, aminoacids, its many curative activities are predominantly attributed to the presence of numerous flavonoid family compounds, amongst which are chrysin, izalpin, galangin, kaempferide, pinobanksin and others, the various therapeutic effects of which have been known for some time and are undergoing a rediscovery. In view of its nature and the substances contained therein, propolis displays a significant solubility problem and is technologically difficult to handle within the scope of perfecting suitable formulations for its dietary or parapharmaceutical uses. Indeed, various propolis based preparations are commercially available and mostly in the form of a dried extract or a hydroalcoholic solution. The best raw material however is considered to be the dried extract which is titred in rotal flavonoids expressed as galangin. The hydroalcoholic solution also finds extensive use, and in this case, it is also usually titred in total flavonoids, expressed as galangin. In order to solve the problem of the administration of insoluble or poorly soluble active substances, the Applicant has developed a technology which is based on an original, and industrially advantageous co-grinding process of the active substances, with a hydrophilic or hydrophobic carrier and dry co-grinding auxiliary substances (Carli, F. et al. Italian patent N° MI2002A001074). With this process, ternary compositions are obtained, wherein the desired characteristics of amorphisation, solubility and dissolution speed, desired for th purposes of their specific use are conferred to the active substance selected. Tiv* process described in the mentioned patent is characterised in that, besides the active substance and a carrier, the co-grinding mixture also comprises a co- grinding auxiliary substance, thus obtaining the desired composition in very shorter grinding times than required for known binary compositions, and under much milder operative grinding conditions. The process is applicable both with hydrophilic carriers, either linear or cross linked, such as for example cyclodextrin and cyclodextrin derivatives, dextrans. polyvinylpyrrolidone, cellulose and the derivatives thereof, polyacrylic acid;, manno-glucuronans, chitosans, galactomannans and sodium starch giycolate, and with linear and cross-linked hydrophobic carriers (for example ethylceliulose polymethacrylates, polymethylmethacrylates, and polystyrene and others). As co-grinding auxiliary substances, natural aminoacids and derivatives thereat; weak acids, such as for example malic acid, fumaric acid, ascorbic acid, citric acid; polyalcohols and derivatives; chelating agents, such as disodium ethylenediamine tetra acetate; non ionic, anionic or cationic surfactants, as wells as lecithins phospholipids and semisynthetic or synthetic derivatives thereof, may for example be used. Amino acids, and in particular glycine, lysine, serine, and disodium ethytenediamine tetra acetate are the preferred co-grinding auxiliary substances for this ternary composition process. The weight ratio between the active substance and carrier is between 1:0.1 and 1:100 and preferably between 1:0.5 and 1:50. The weight ratio between the active substance and the co-grinding auxiliary substance is between 1:0.1 and 1:20 and preferably between 1:0.2 and 1:10. The co-grinding time is between 0.25 and 24 hours and preferably, the ■;.-.-grinding time is no greater than 10 hours, and the co-grinding may be carried cu; using known means (ball mills, knife mills, vibrational mills, centrifugal mills and planetary mills). The process described in the mentioned patent has various advantages, first of all the possibility of obtaining ternary compositions, comprising an active substance, a hydrophilic or hydrophobic carrier and a co-grinding auxiliary substance wherein the characteristics, such as the solubility, the dissolution speed, the solubilisation kinetics, may be altered to various extent according to the requirements of use Furthermore, additional advantages are represented by the catalysing effect of the co-grinding auxiliary substance, which is also effective in the hydrophilic drug hydrophobic carrier combination and still by the fact that, being able to use lower energy levels and/or shorter grinding times, the process may also be used for substances which are poorly stable from the physico-chemical point of view, for example thermolabile substances. Propolis, as already mentioned, is normally used for the most part as a dietary supplement, either in its dry extract or hydroalcoholic solution forms, however in both cases it has certain application problems, due to its poor solubility in aqueous environments, but also to its poor lipophilicity, which influences the bioavailability of the active ingredients contained therein. . Summary of the invention The Applicant has now surprisingly found that compositions in the form of finely divided dried powders, characterised by being quaternary and by comprising propolis as the active substance, a hydrophilic carrier and two co-grinding auxiliary substances, one of which is an aminoacid and the other is a sweetening agent, glycyntiizate, have greater solubility than the corresponding ternary compositions, where the. sole auxiliary substance is-constituted by aminoacids. * Accordingly, the object of the present invention are said quaternary compositions, comprising propolis as the active substance, and the use thereof for the preparation of dietary supplements or parapharmaceuiical and dermocosmetic products, either as such or with appropriate excipients or diluents. Detailed description of the invention The characteristics and the advantages of the composition according to tho present invention will be illustrated by the following detailed description. By using the process already mentioned previously, and described in the Italian patent N° MI 2002A001074 for the preparation Qf ternary compositions, the Applicant has surprisingly found that the addition of a fourth substance, which is usually used as a sweetening agent, leads to an advantage in terms of solubility with respect to the ternary compositions which do not contain it. Indeed, this unexpectedly behaves as a second co-grinding auxiliary substance, surprisingly improving the characteristics of the composition itself. In particular the quaternary composition* object of the invention, may have the following characteristics. For the quaternary composition comprising propolis, linear or cross-linked hydrophilic carriers, such as for example cyclodextrin and cyclodextrin derivatives, and aminoacid auxiliary substances, preferentially selected from the group consisting of glycine, glutamic acid, lysine and serine are preferred. The weight ratio between the active substance and the carrier may be between 1 1 and 1:20 and preferably between 1:5 and 1:8. The weight ratio between the active substance and the aminoacid co-grinding auxiliary substance may between 1:0.1 and 1:2 and preferably between 1:0.2 and 1:1. The ratio between the active substance and the second glycyrrhizate co-grinding auxiliary substance may be between 1:0.5 and 1:2 and preferably 1:1. The co-grinding time for the preparation of the quaternary composition is usually very short and comprised of between 0.30 and 2.0 hours. The following experimental examples are given as non-exhaustive illustration of the present invention. Example 1 a quaternary composition with propolis, ammonium Qlycvrrhizate \cyclodextrin and L-dvcine 2 Kg of a propoflavis, ammonium glycyrrhizate, (3 cyclodextrin and L-giycine mixture, in the ratio of 1:1:7.5:0.5 w/w, are homogenised for 10 minutes in a rotating body powder mixer. The mixture is loaded into a vibrational mil! equipped with sintered alumina cylindrical milling means and subjected to grinding with a vibrational amplitude comprised of between 6 and 10 mm for 1 hour. The product obtained, with a yield of 98.9%, is sieved and 99.3% of the product recovered in the form of a finely divided, free-flowing powder. Example 2 a quaternary composition with propolis, ammonium qlycvrrhizaie j,> cyclodextrin and glutamic acid 2 Kg of propoflavis, ammonium glycyrrhizate, p cyclodextrin and glutamic acid mixture in a ratio of 1:1:7,5:0.5 w/w, are homogenised.per 10 minutes in a rotating body powder mixer. The mixture is loaded into a vibrational mill equipped with sintered alumina cylindrical milling means and subjected to grinding with a vibrational amplitude comprised of between 6 and 10 mm for 1 hour. The product obtained, with a yield of 98.9%, is sieved and 99.8% of product recovered in the form of a finely divided free-flowing powder. The quaternary compositions described may be replicated using, as the aminoacid co-grinding auxiliary substance, other aminoacids amongst which are lysine and serine, ■ ■ ■ With the aim of comparing the quaternary mixture of examples 1 and 2, ternary compositions have also been prepared without the second ammonium glycyrrhizate co-grinding auxiliary substance, in accordance with the following examples 3 and 4. Example 3 a ternary composition with propolis. 6 cyclodextrin and L-qlvcine 1 Kg of propoflavis, p cyclodextrin and L-glycine mixture in a ratio of 1:7.5:0.5 w/w are homogenised for 10 minutes in a rotating body powder mixer. The mixture is loaded into a vibrational mill equipped with sintered alumina cylindrical milling means and subjected to grinding with a vibrational amplitude comprised en between 6 and 10 mmlbrt hour. The product obtained, with a yield of 97.8%, is sieved and 99.6% of produci recovered in the form of a finely divided free-flowing powder. Example 4 a ternary composition with propolis, p cyclodextrin and glutamic aaa 1 Kg of propoflavis, p cyclodextrin and glutamic acid mixture in a ratio of 1 ;7.5:03 w/w, are homogenised for 10 minutes in a rotating body wwder mixer. The mixture is loaded into a vibrational mil! equipped with sintered alumina cylindrical milling means and subjected to grinding with a vibrational amplitude comprised of between 6 and 10 mm for 1 hour. The product obtained, with a yield of 97.8%, is sieved and 99,6% of product recovered in the form of a finely divided free-flowing powder. The compositions of the examples 1, 2, 3 and 4 have then been compared with the starting raw material with regard to their solubilities, obtaining the results reported in the following table 1 . From the results shown above, it is clearly evident that the ternary composition containing an aminoacid co-grinding substance causes a significant improvement in the solubility of the native propolis, but that with the addition of the second co-grinding substance - ammonium glycyrrhizate - the solubility increases further by a range comprised of between 30 and 40 % with respect to the corresponding ternary composition. Such results in themselves are very significant in that it is apparent to any expert in the art that an increase in solubility, even by less than that found, may have an important and positive reflection on the bioavailability of the active ingredients) contained within the active'substance. The quaternary compositions obtained in powder form, according to the present in\/ supplements or as parapharmaceuti&al, Including dermocosmetic, products. For the uses as dietary supplements and parapharmaceutical , the quaternary compositions, forming the object of the present invention, may be formulated in the form of powders, even in single dose sachets, either as such or admixed with dietary or pharmaceutical^ acceptable excipients and diluents. Furthermore, they may also be used in different forms, such as for example capsules, tablets, pastes, gels, solutions or suspensions and sprays, both as such and admixed with dietary or pharmaceutically acceptable excipients adapted to such other forms Furthermore for the dermocosmetic use the quaternary compositions, forming the object of the present invention, may be formulated cosmetic acceptable excipients as lotions, creams, ointments, pastes, gels, stick and other topical forms known for this use. Example 5 lip cream 2% Components % Purified water 64.75 Vaseline oil _ 12.0 Dermoil HDE 5.0 Arlacel P135 " 3.5 Atlas G-2330 2.0 Vegetable Glycerine 3.0 Cutin HR 2.5 C-Proflavis (example 1) 2.0 Beeswax 1.1 PolygiyceryI-3 beeswax 2.0 Euxil K 300 0.8 Mg stearate 0.5 Allantoin 0.2 Karite butter 0.2 Vitamin E acetate 0.2 "All fruit flavour 0.15 BHT 0.05 EDTA disodium 0.05 Example 6 oral cavity spray 3% Components % Water 92.91 C-Proflavis (example 1) 3.0 Menthol clathrate 1.0 Carbopol934 * 0.30 30% simethicone emulsion 2.0 Sodium hydrate 18% 0.69 Methyl p-hydroxyibenzoate 0.09 Propyl p- hvdroxvibenzoate 0.01 100 Example 7chewable tablets Componentis mg Biomaltodextrines 529.0 Destrates " 210.0. Peppermint flavour 72.0 C-Proflavis (example 1) 50:0 Technological excipients 27:0 Mix biovegetable flavours 7.0 Example 8chewable tablets Componentis mg Biomaltodextrines 536.0 Destrates 210.0 Apple flavour 65.0 C-Proflavis (example 1) 50.0 Technological excipients 27.0 Mix biovegetable flavours 7.0 Example 9 chewable tablets Componentis mg Biomaltodextrines 536.0 Destrates 210.0 Wood fruit flavour 65.0 C-Proflavis (example 1) 50.0 Technological excipients 27.0 Mix biovegetable flavours 7.0 Example IQchewable tablets Componentis mg Biomaltodextrines 536.0 Destrates 210.0 Milk/honey flavour 55.0 C-Proflavis (example 1) 50.0 Technological excipients 27.0 Mix biovegetable flavours 17.0 Example 11 chewable tablets Componentis mg Biomaltodextrines 370.5 Destrates 375.5 Cola flavour 55.0 C-Proflavis (example 1) 50.0 *" Technological excipients 27.0 Mix biovegetable flavours 17.0 Example 12 chewable tablets Componentis mg Biomaltodextrines 506.0 Destrates 255.0 Citrus flavour 40.0 C-Proflavis (example 1) 50.0 Technological excipients 37.0 Mix biovegetable flavours 7.0 Example 13 effervescent tablets Actvive principles mg Spirea ulmaria/p cyclodextrin 100.0 C-Proflavis (example 1) 50.0 Rosa canina dried extract 50.0 Excipients mg Anhydrous citric acid 2000.0 Sodium bicarbonate 600.0 Sodium carbonate 600.0 Sorbitol 340,3 E162 160,0 Orange flavour 50.0 Red orange dried extract 10% 25.0 Acesulfame K 20.0 Polisorbate 20 2.0 Dimethicone emulsion 10% 2.0 Vitamin B2 0.7 CLAIMS 1. Compositions in the form of finely divided dried powders, characterised in that they are quaternary and comprise an active substance, propolis, a hydrophilic carrier and two co-grinding auxiliary substances, of which one is an aminoacid and one is a sweetening agent, glycyrrhizate. 2. The quaternary compositions of claim 1 wherein said compositions have a greater solubility than the corresponding ternary compositions wherein the sole auxiliary substance consists of aminoacids. 3. The compositions of claim 1 wherein the hydrophilic carrier is selected from the class of the cyclodextrins and their derivatives. 4. The compositions of claim 1 wherein the aminoacidie auxiliary substance is an aminoacid selected from the group consisting of glycine, glutamic acid, lysine and serineT 5. The compositions of claim 1 wherein the weight ratio between the active substance and the carrier is between 1:1 and 1:20. 6. The compositions of claim 4 wherein the weight ratio between the active substance and the carrier is between 1:5 and 1:8. 7. The compositions of claim 1 wherein the weight ratio between the active substance and the aminoacidie auxiliary substance is between 1:0.1 and 1:2. 8. The compositions of claim 7 wherein the weight ratio between the active substance and the aminoacidie auxiliary substance is between 1:0.2 and 1:1. 9. The compositions of claim 1 wherein the weight ratio between the active substance and the second glycyrrhizate co-grinding auxiliary substance is of between 1:0.5 and 1:2. 10. The compositions of claim 9 wherein the weight ratio between the active substance and the glycyrrhizate co-grinding auxiliary substance is 1:1. 11. The compositions according to one of the preceding claims wherein the weight ratios between the propolis active substance, cyclodextrin hydrophilic earner, the aminoacidie and glycyrrhizate co-grinding auxiliary substances are 1:7.5:0.5:1. 12. The compositions according to one or more of the preceding claims for dietary use, used either as such or in formulations with excipients and diluents suitable for dietary use in the forms selected from the group consisting of powders, capsules, tablets, pastes, gels, solutions or suspensions. 13. The compositions according to one or more of the preceding claims for parapharmaceutical use, in formulations with excipients and diluents suitable for parapharmaceutical use in the forms selected from the group consisting of powders, capsules, tablets, pastes, gels, solutions or suspensions and spray. 14. The compositions according to one or more of the preceding claims for dermocosmetic use, in formulations with excipients and diluents suitable for cosmetic use in the forms selected from the group consisting of powders, lotions, creams, ointements, pastes, gels, stick. 15. Use of the compositions in the form of finely subdivided dried powders, characterised in that they are quaternary and comprise an active substance, propolis, a hydrophilic carrier and two co-grinding auxiliary substances of which one is an aminoacid and one is a sweetening agent, glycyrrhizate, for the preparation of products in forms suitable for use as dietary supplements with or without excipients and diluents suitable for the same. 16. Use of the compositions in the form, of finely divided dried powders, characterised in that they are quaternary and comprise an active substance, propolis, a hydrophilic carrier and two co-grinding auxiliary substances of which one is an aminoacid and one is a sweetening agent, glycyrrhizate, for the preparation of products in forms suitable for parapharmaceutical use with or without excipients and diluents suitable for the same. 17. Use of the compositions in the form of finely divided dried powders, characterised in that they are quaternary and comprise an active substance, propolis, a hydrophilic earner and two co-grinding auxiliary substances of which one is an aminoacid and one is a sweetening agent, glycyrrhizate, for the preparation of products in forms suitable for dermocosmetic use with excipients and diluents suitable for the same. 18. The use of the compositions according to one or more of the preceding claims wherein said forms are powders, capsules, tablets, pastes, gels, creams, . ointments, stick, solutions or suspensions, lotions and spray.

Full Text

QUATERNARY COMPOUNDS COMPRISING PROPOLIS AS THE ACTIVE SUBSTANCE
Field of the invention
The invention relates to a quaternary composition comprising propolis as the active substance, a delivery carrier and two co-grinding auxiliary compounds, and the use thereof as a dietary supplement or in parapharmaceutical and dermocosmetic products. State of the art
As is known, propolis is a special wax produced by bees which is widely used in phytotherapy as a dietary supplement, since it has no significant side effects and, on the contrary, has been shown to exert~ beneficial effects in various physiopathological conditions, above all in subjects with immune deficiencies duo to causes of various origins.
In addition to immuno-stimulant activities, antibacterial and bacteriostatic activities, antiviral and mycostatic activities, anti-inflammatory and wound healing activities are indeed attributed to propolis.
From the physico-chemical point of view, it appears as a yellow-brown resinous substance with a waxy consistency; indeed it contains resins, balsams, wax, essential oils, pollen, organic substances, mineral salts and oligoelements. Although it contains many substances peculiar to its plant origin, such as for example terpenes, polysaccharides, uronic and fatty acids, aminoacids, its many curative activities are predominantly attributed to the presence of numerous flavonoid family compounds, amongst which are chrysin, izalpin, galangin, kaempferide, pinobanksin and others, the various therapeutic effects of which have been known for some time and are undergoing a rediscovery. In view of its nature and the substances contained therein, propolis displays a significant solubility problem and is technologically difficult to handle within the scope of perfecting suitable formulations for its dietary or parapharmaceutical uses.
Indeed, various propolis based preparations are commercially available and mostly in the form of a dried extract or a hydroalcoholic solution. The best raw material however is considered to be the dried extract which is titred in rotal

flavonoids expressed as galangin. The hydroalcoholic solution also finds extensive
use, and in this case, it is also usually titred in total flavonoids, expressed as
galangin.
In order to solve the problem of the administration of insoluble or poorly soluble
active substances, the Applicant has developed a technology which is based on
an original, and industrially advantageous co-grinding process of the active
substances, with a hydrophilic or hydrophobic carrier and dry co-grinding auxiliary
substances (Carli, F. et al. Italian patent N° MI2002A001074).
With this process, ternary compositions are obtained, wherein the desired
characteristics of amorphisation, solubility and dissolution speed, desired for th purposes of their specific use are conferred to the active substance selected. Tiv*
process described in the mentioned patent is characterised in that, besides the
active substance and a carrier, the co-grinding mixture also comprises a co-
grinding auxiliary substance, thus obtaining the desired composition in very shorter
grinding times than required for known binary compositions, and under much
milder operative grinding conditions.
The process is applicable both with hydrophilic carriers, either linear or cross
linked, such as for example cyclodextrin and cyclodextrin derivatives, dextrans.
polyvinylpyrrolidone, cellulose and the derivatives thereof, polyacrylic acid;,
manno-glucuronans, chitosans, galactomannans and sodium starch giycolate, and
with linear and cross-linked hydrophobic carriers (for example ethylceliulose
polymethacrylates, polymethylmethacrylates, and polystyrene and others).
As co-grinding auxiliary substances, natural aminoacids and derivatives thereat;
weak acids, such as for example malic acid, fumaric acid, ascorbic acid, citric acid;
polyalcohols and derivatives; chelating agents, such as disodium ethylenediamine
tetra acetate; non ionic, anionic or cationic surfactants, as wells as lecithins
phospholipids and semisynthetic or synthetic derivatives thereof, may for example
be used.
Amino acids, and in particular glycine, lysine, serine, and disodium
ethytenediamine tetra acetate are the preferred co-grinding auxiliary substances
for this ternary composition process.
The weight ratio between the active substance and carrier is between 1:0.1 and

1:100 and preferably between 1:0.5 and 1:50. The weight ratio between the active substance and the co-grinding auxiliary substance is between 1:0.1 and 1:20 and preferably between 1:0.2 and 1:10.
The co-grinding time is between 0.25 and 24 hours and preferably, the ■;.-.-grinding time is no greater than 10 hours, and the co-grinding may be carried cu; using known means (ball mills, knife mills, vibrational mills, centrifugal mills and planetary mills).
The process described in the mentioned patent has various advantages, first of all the possibility of obtaining ternary compositions, comprising an active substance, a hydrophilic or hydrophobic carrier and a co-grinding auxiliary substance wherein the characteristics, such as the solubility, the dissolution speed, the solubilisation kinetics, may be altered to various extent according to the requirements of use Furthermore, additional advantages are represented by the catalysing effect of the co-grinding auxiliary substance, which is also effective in the hydrophilic drug hydrophobic carrier combination and still by the fact that, being able to use lower energy levels and/or shorter grinding times, the process may also be used for substances which are poorly stable from the physico-chemical point of view, for example thermolabile substances.
Propolis, as already mentioned, is normally used for the most part as a dietary supplement, either in its dry extract or hydroalcoholic solution forms, however in both cases it has certain application problems, due to its poor solubility in aqueous environments, but also to its poor lipophilicity, which influences the bioavailability of the active ingredients contained therein. . Summary of the invention
The Applicant has now surprisingly found that compositions in the form of finely divided dried powders, characterised by being quaternary and by comprising propolis as the active substance, a hydrophilic carrier and two co-grinding auxiliary substances, one of which is an aminoacid and the other is a sweetening agent, glycyntiizate, have greater solubility than the corresponding ternary compositions, where the. sole auxiliary substance is-constituted by aminoacids. * Accordingly, the object of the present invention are said quaternary compositions, comprising propolis as the active substance, and the use thereof for the

preparation of dietary supplements or parapharmaceuiical and dermocosmetic
products, either as such or with appropriate excipients or diluents.
Detailed description of the invention
The characteristics and the advantages of the composition according to tho
present invention will be illustrated by the following detailed description.
By using the process already mentioned previously, and described in the Italian
patent N° MI 2002A001074 for the preparation Qf ternary compositions, the
Applicant has surprisingly found that the addition of a fourth substance, which is
usually used as a sweetening agent, leads to an advantage in terms of solubility
with respect to the ternary compositions which do not contain it.
Indeed, this unexpectedly behaves as a second co-grinding auxiliary substance,
surprisingly improving the characteristics of the composition itself. In particular the
quaternary composition* object of the invention, may have the following
characteristics.
For the quaternary composition comprising propolis, linear or cross-linked
hydrophilic carriers, such as for example cyclodextrin and cyclodextrin derivatives,
and aminoacid auxiliary substances, preferentially selected from the group
consisting of glycine, glutamic acid, lysine and serine are preferred.
The weight ratio between the active substance and the carrier may be between 1 1
and 1:20 and preferably between 1:5 and 1:8.
The weight ratio between the active substance and the aminoacid co-grinding
auxiliary substance may between 1:0.1 and 1:2 and preferably between 1:0.2 and
1:1.
The ratio between the active substance and the second glycyrrhizate co-grinding
auxiliary substance may be between 1:0.5 and 1:2 and preferably 1:1.
The co-grinding time for the preparation of the quaternary composition is usually
very short and comprised of between 0.30 and 2.0 hours.
The following experimental examples are given as non-exhaustive illustration of
the present invention.
Example 1 a quaternary composition with propolis, ammonium Qlycvrrhizate \cyclodextrin and L-dvcine
2 Kg of a propoflavis, ammonium glycyrrhizate, (3 cyclodextrin and L-giycine

mixture, in the ratio of 1:1:7.5:0.5 w/w, are homogenised for 10 minutes in a
rotating body powder mixer. The mixture is loaded into a vibrational mil! equipped
with sintered alumina cylindrical milling means and subjected to grinding with a
vibrational amplitude comprised of between 6 and 10 mm for 1 hour.
The product obtained, with a yield of 98.9%, is sieved and 99.3% of the product
recovered in the form of a finely divided, free-flowing powder.
Example 2 a quaternary composition with propolis, ammonium qlycvrrhizaie j,>
cyclodextrin and glutamic acid
2 Kg of propoflavis, ammonium glycyrrhizate, p cyclodextrin and glutamic acid
mixture in a ratio of 1:1:7,5:0.5 w/w, are homogenised.per 10 minutes in a rotating
body powder mixer. The mixture is loaded into a vibrational mill equipped with
sintered alumina cylindrical milling means and subjected to grinding with a
vibrational amplitude comprised of between 6 and 10 mm for 1 hour.
The product obtained, with a yield of 98.9%, is sieved and 99.8% of product
recovered in the form of a finely divided free-flowing powder.
The quaternary compositions described may be replicated using, as the aminoacid
co-grinding auxiliary substance, other aminoacids amongst which are lysine and
serine,
■ ■ ■
With the aim of comparing the quaternary mixture of examples 1 and 2, ternary compositions have also been prepared without the second ammonium glycyrrhizate co-grinding auxiliary substance, in accordance with the following examples 3 and 4.
Example 3 a ternary composition with propolis. 6 cyclodextrin and L-qlvcine
1 Kg of propoflavis, p cyclodextrin and L-glycine mixture in a ratio of 1:7.5:0.5 w/w
are homogenised for 10 minutes in a rotating body powder mixer. The mixture is
loaded into a vibrational mill equipped with sintered alumina cylindrical milling
means and subjected to grinding with a vibrational amplitude comprised en
between 6 and 10 mmlbrt hour.
The product obtained, with a yield of 97.8%, is sieved and 99.6% of produci
recovered in the form of a finely divided free-flowing powder.
Example 4 a ternary composition with propolis, p cyclodextrin and glutamic aaa
1 Kg of propoflavis, p cyclodextrin and glutamic acid mixture in a ratio of 1 ;7.5:03

w/w, are homogenised for 10 minutes in a rotating body wwder mixer. The
mixture is loaded into a vibrational mil! equipped with sintered alumina cylindrical
milling means and subjected to grinding with a vibrational amplitude comprised of
between 6 and 10 mm for 1 hour.
The product obtained, with a yield of 97.8%, is sieved and 99,6% of product
recovered in the form of a finely divided free-flowing powder.
The compositions of the examples 1, 2, 3 and 4 have then been compared with
the starting raw material with regard to their solubilities, obtaining the results
reported in the following table 1 .

From the results shown above, it is clearly evident that the ternary composition containing an aminoacid co-grinding substance causes a significant improvement in the solubility of the native propolis, but that with the addition of the second co-grinding substance - ammonium glycyrrhizate - the solubility increases further by a range comprised of between 30 and 40 % with respect to the corresponding ternary composition. Such results in themselves are very significant in that it is apparent to any expert in the art that an increase in solubility, even by less than that found, may have an important and positive reflection on the bioavailability of the active ingredients) contained within the active'substance. The quaternary compositions obtained in powder form, according to the present
in\/
supplements or as parapharmaceuti&al, Including dermocosmetic, products. For
the uses as dietary supplements and parapharmaceutical , the quaternary
compositions, forming the object of the present invention, may be formulated in the
form of powders, even in single dose sachets, either as such or admixed with
dietary or pharmaceutical^ acceptable excipients and diluents. Furthermore, they
may also be used in different forms, such as for example capsules, tablets, pastes,
gels, solutions or suspensions and sprays, both as such and admixed with dietary
or pharmaceutically acceptable excipients adapted to such other forms
Furthermore for the dermocosmetic use the quaternary compositions, forming the
object of the present invention, may be formulated cosmetic acceptable excipients
as lotions, creams, ointments, pastes, gels, stick and other topical forms known for
this use.
Example 5 lip cream 2%
Components %
Purified water 64.75
Vaseline oil _ 12.0
Dermoil HDE 5.0
Arlacel P135 " 3.5
Atlas G-2330 2.0
Vegetable Glycerine 3.0
Cutin HR 2.5
C-Proflavis (example 1) 2.0
Beeswax 1.1
PolygiyceryI-3 beeswax 2.0
Euxil K 300 0.8
Mg stearate 0.5
Allantoin 0.2
Karite butter 0.2
Vitamin E acetate 0.2
"All fruit flavour 0.15
BHT 0.05
EDTA disodium 0.05

Example 6 oral cavity spray 3%
Components %
Water 92.91
C-Proflavis (example 1) 3.0
Menthol clathrate 1.0
Carbopol934 * 0.30
30% simethicone emulsion 2.0
Sodium hydrate 18% 0.69
Methyl p-hydroxyibenzoate 0.09
Propyl p- hvdroxvibenzoate 0.01
100 Example 7chewable tablets
Componentis mg
Biomaltodextrines 529.0
Destrates " 210.0.
Peppermint flavour 72.0
C-Proflavis (example 1) 50:0
Technological excipients 27:0
Mix biovegetable flavours 7.0
Example 8chewable tablets
Componentis mg
Biomaltodextrines 536.0
Destrates 210.0
Apple flavour 65.0
C-Proflavis (example 1) 50.0
Technological excipients 27.0
Mix biovegetable flavours 7.0
Example 9 chewable tablets
Componentis mg
Biomaltodextrines 536.0
Destrates 210.0

Wood fruit flavour 65.0
C-Proflavis (example 1) 50.0
Technological excipients 27.0
Mix biovegetable flavours 7.0
Example IQchewable tablets
Componentis mg
Biomaltodextrines 536.0
Destrates 210.0
Milk/honey flavour 55.0
C-Proflavis (example 1) 50.0
Technological excipients 27.0
Mix biovegetable flavours 17.0
Example 11 chewable tablets
Componentis mg
Biomaltodextrines 370.5
Destrates 375.5
Cola flavour 55.0
C-Proflavis (example 1) 50.0 *"
Technological excipients 27.0
Mix biovegetable flavours 17.0
Example 12 chewable tablets
Componentis mg
Biomaltodextrines 506.0
Destrates 255.0
Citrus flavour 40.0
C-Proflavis (example 1) 50.0
Technological excipients 37.0
Mix biovegetable flavours 7.0
Example 13 effervescent tablets
Actvive principles mg
Spirea ulmaria/p cyclodextrin 100.0
C-Proflavis (example 1) 50.0

Rosa canina dried extract 50.0
Excipients mg
Anhydrous citric acid 2000.0
Sodium bicarbonate 600.0
Sodium carbonate 600.0
Sorbitol 340,3
E162 160,0
Orange flavour 50.0
Red orange dried extract 10% 25.0
Acesulfame K 20.0
Polisorbate 20 2.0
Dimethicone emulsion 10% 2.0
Vitamin B2 0.7

CLAIMS
1. Compositions in the form of finely divided dried powders, characterised in that they are quaternary and comprise an active substance, propolis, a hydrophilic carrier and two co-grinding auxiliary substances, of which one is an aminoacid and one is a sweetening agent, glycyrrhizate.
2. The quaternary compositions of claim 1 wherein said compositions have a greater solubility than the corresponding ternary compositions wherein the sole auxiliary substance consists of aminoacids.
3. The compositions of claim 1 wherein the hydrophilic carrier is selected from the class of the cyclodextrins and their derivatives.
4. The compositions of claim 1 wherein the aminoacidie auxiliary substance is an aminoacid selected from the group consisting of glycine, glutamic acid, lysine and serineT

5. The compositions of claim 1 wherein the weight ratio between the active substance and the carrier is between 1:1 and 1:20.
6. The compositions of claim 4 wherein the weight ratio between the active substance and the carrier is between 1:5 and 1:8.
7. The compositions of claim 1 wherein the weight ratio between the active substance and the aminoacidie auxiliary substance is between 1:0.1 and 1:2.
8. The compositions of claim 7 wherein the weight ratio between the active substance and the aminoacidie auxiliary substance is between 1:0.2 and 1:1.
9. The compositions of claim 1 wherein the weight ratio between the active substance and the second glycyrrhizate co-grinding auxiliary substance is of between 1:0.5 and 1:2.

10. The compositions of claim 9 wherein the weight ratio between the active substance and the glycyrrhizate co-grinding auxiliary substance is 1:1.
11. The compositions according to one of the preceding claims wherein the weight ratios between the propolis active substance, cyclodextrin hydrophilic earner, the aminoacidie and glycyrrhizate co-grinding auxiliary substances are 1:7.5:0.5:1.
12. The compositions according to one or more of the preceding claims for dietary use, used either as such or in formulations with excipients and diluents suitable for dietary use in the forms selected from the group consisting of powders, capsules,

tablets, pastes, gels, solutions or suspensions.
13. The compositions according to one or more of the preceding claims for parapharmaceutical use, in formulations with excipients and diluents suitable for parapharmaceutical use in the forms selected from the group consisting of powders, capsules, tablets, pastes, gels, solutions or suspensions and spray.
14. The compositions according to one or more of the preceding claims for dermocosmetic use, in formulations with excipients and diluents suitable for cosmetic use in the forms selected from the group consisting of powders, lotions, creams, ointements, pastes, gels, stick.
15. Use of the compositions in the form of finely subdivided dried powders,
characterised in that they are quaternary and comprise an active substance,
propolis, a hydrophilic carrier and two co-grinding auxiliary substances of which
one is an aminoacid and one is a sweetening agent, glycyrrhizate, for the
preparation of products in forms suitable for use as dietary supplements with or
without excipients and diluents suitable for the same.
16. Use of the compositions in the form, of finely divided dried powders,
characterised in that they are quaternary and comprise an active substance,
propolis, a hydrophilic carrier and two co-grinding auxiliary substances of which
one is an aminoacid and one is a sweetening agent, glycyrrhizate, for the
preparation of products in forms suitable for parapharmaceutical use with or
without excipients and diluents suitable for the same.
17. Use of the compositions in the form of finely divided dried powders,
characterised in that they are quaternary and comprise an active substance,
propolis, a hydrophilic earner and two co-grinding auxiliary substances of which
one is an aminoacid and one is a sweetening agent, glycyrrhizate, for the
preparation of products in forms suitable for dermocosmetic use with excipients
and diluents suitable for the same.
18. The use of the compositions according to one or more of the preceding claims
wherein said forms are powders, capsules, tablets, pastes, gels, creams,
. ointments, stick, solutions or suspensions, lotions and spray.

Documents:

1483-chenp-2005 abstract-duplicate.pdf

1483-chenp-2005 claims-duiplicate.pdf

1483-chenp-2005 description(complete)-duplicate.pdf

1483-chenp-2005-abstract.pdf

1483-chenp-2005-claims.pdf

1483-chenp-2005-correspondnece-others.pdf

1483-chenp-2005-correspondnece-po.pdf

1483-chenp-2005-description(complete).pdf

1483-chenp-2005-form 1.pdf

1483-chenp-2005-form 18.pdf

1483-chenp-2005-form 3.pdf

1483-chenp-2005-form 5.pdf

1483-chenp-2005-pct.pdf

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Patent Number

220012

Indian Patent Application Number

1483/CHENP/2005

PG Journal Number

30/2008

Publication Date

25-Jul-2008

Grant Date

15-May-2008

Date of Filing

01-Jul-2005

Name of Patentee

ACTIMEX S.R.L

Applicant Address

Inventors:

#	Inventor's Name	Inventor's Address
1	CARLI, FABIO
2	CORVI MORA, PAOLO
3	CANAL, TIZIANA

PCT International Classification Number

A61K 9/14

PCT International Application Number

PCT/EP03/13560

PCT International Filing date

2003-12-02

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	MI2002A002549	2002-12-02	Italy