TW200914063A - The formulation of skin permeable polyphenols-encapsulated nanoemulsion - Google Patents

Abstract

This invention is to claim the composition and the method for preparing a polyphenols-encapsulated nanoemulsion. This claimed formula includes polyphenols dissolved in vegetable oils, phospholipids and a surfactant, of which the HLB value is larger than 1. This preparation is conducted in an ultrasonic water bath with frequency of 2 kHz-50 MHz for suitable time. The particle size of this claimed polyphenols-encapsulated nanoemulsion droplet ranges from 5 to 100 nm, which facilitates skin permeation. This formulation is stable in diluted PBS up to 1000-fold for over 6 month. In addition to enhance the skin permeation rate, this formula uses biocompatible surfactant with low toxicity and may provide a resolution for the low bioavailability of polyphenols. The equipments and process in this claimed method is simple.

Description

In addition to enhance the skin permeation rate, this formula uses biocompatible surfactant with low toxicity and may provide a resolution for the low bioavailability of polyphenols. The equipments and process in this claimed method Is simple. VII. Designation of representative drawings: (1) The representative representative of the case is: (2). (2) A brief description of the symbol of the representative figure: The phase diagram of the composition of the nanoemulsions in this case shows that a transparent and stable nanoemulsion can be formed in an appropriate formulation. 8. If there is a chemical formula, please disclose the chemical formula which best shows the characteristics of the invention. 9. Description of the invention [Technical field to which the invention belongs] The invention relates to the preparation of coated polyphenols by the emulsification technique using oil-in-water (o/w). The nano-emulsion of the derivative, and the development of its components, wherein the polyphenol derivative has a wide range of effects such as oxidation resistance and anti-inflammatory, all components have low-risk development value, in line with the Good Manufacturing Standard (GMP) conditions. The field of food or pharmaceutical delivery systems. [Prior Art] 200914063 Many derivatives have anti-oxidation and anti-inflammation effects, but multi-antigen derivatives with polyphenol structure are insoluble in water and difficult to dissolve. In the organic phase, the bioavailable rate is low and is easily decomposed and destroyed under neutral, weak or serum-free culture medium, and the polyphenol derivative is strictly limited. Food or clinical application. SUMMARY OF THE INVENTION The present invention dissolves polyphenol derivatives in oils and fats, adds lipids and another hydrophilic group and hydrophobic group balance (HLB) greater than 1, and uses a frequency of 2 kHz to 50 MHz ultrasonic system. By oscillating for a suitable period of time, a nanoemulsion system coated with a polyphenol derivative can be prepared to increase the dissolution rate and improve the stability of the polyphenol derivative, thereby avoiding decomposition. Usually, a nano-emulsion is often incorporated into a co-surfactant of an organic solvent such as an alcohol to reduce the oil/water interfacial tension, but such an auxiliary surfactant may cause toxicity to the human body, and thus the present invention The nanoemulsion formulation does not require the addition of an auxiliary surfactant for organic solvents such as alcohols, and is suitable for use in humans. After diluting the nanoemulsion prepared by the invention with a proper amount of phosphate buffer saline (PBS), the coating amount and particle size of the invention are not changed after a period of time, so the oil is in water type (o/). w) The versatile derivative prepared by the emulsification technology Nai 5 200914063 Rice Liquor' will have the development potential as a drug-loading drug. [Implementation method] The following chart and detailed description can be used to understand/firstly mix the polyantibiotic derivative, the oil phase and the surfactant, and then add it to the water phase, so that the ultrasonic wave oscillates until the solution is presented. A single homogeneous phase that transmits light. If this homogeneous phase is stable for at least 6 months, it is our so-called nanoemulsion. ^Diluting experiment is to take the above obtained stable nano-emulsion 〇.3, ml into a test tube, add an appropriate amount of pH 7.4 of the pH of the buffer solution of physiological saline solution (PBS), respectively, UV-visible The spectrometer and the particle size analyzer detect the concentration of the polyphenol derivative in the intracellular emulsion and the particle size distribution of the nanoemulsion droplets. [Simple description of the diagram] Figure (1) Process flow chart of nanoemulsion coated with polyphenol derivatives in this case. Figure (2) Phase diagram of the nano-coating of the coated polyphenol derivative by the method of the present invention, the oblique line area indicates the formulation area of the stabilized nano-emulsion "The nano-emulsion of this area can be stabilized for at least 6 months" Unstable or unable to prepare a nanoemulsion system. Figure (2) After dilution with a suitable pH 7.4 linoleate buffered physiological saline solution, the figure shows that there is no significant change in the number of derivatives in the nanometer 200914063 emulsion for three days, which means polyphenols. The derivative is stable in the nanoemulsion. There is a chance that the presence of nanoemulsion in the human body will not be destroyed by the biological solution to increase the chance of bioavailability. Figure (4) The particle size distribution of the nanoemulsion in this case, indicating that the particle size distribution of the nanodroplets are all within the nanometer size range. (V) The nanoemulsion invented in this case was tested in vitro. Nano-emulsions with a wide variety of derivatives can penetrate the skin of mice to reach the subcutaneous tissue; polyphenol derivatives are dissolved in the oil (without coating) and can hardly penetrate the skin. [Description of main components] 1. Polyphenol derivatives dissolved in oil 2. Lipid plus co-surfactant 3. Magnet stirring 4. Deionized water 5 · Ultrasonic oscillation 6 · Polyphenol derivatives + grease 7· Nanoemulsion 8 · Lipid + co-surfactant 9. Deionized water 10. Stabilize the nanoemulsion area, showing a uniform and unstable area, showing milky white opacity, very quickly: water separation diluted PBS (pH=7.4) Time after doubling (hr) 200914063 13. Moisture in the nanoemulsion (mM) Nanoparticle size (nm) 15. Volume fraction (%) 16. Cumulative amount of penetration through the skin , square centimeters (η〆 - Π. cumulative time to penetrate the skin (hours) X. Patent application scope 1. The characteristics of the present invention are: (1) the surfactants of the composition are biomedical compatible materials, because no need Adding an auxiliary surfactant for alcohol, so it can enter the human body through transdermal, oral and injection; (2) protection of the interface layer to improve the stability of polyphenol derivatives, and oil phase to improve the solubility of polyphenol derivatives (3) Nanoemulsion enhances the solubility of the drug, and can carry the drug More capacity than traditional emulsions or creams; (4) After dilution with a suitable phosphate buffered saline solution of 74 to 74, it can be stabilized for more than 2 days, giving it a better chance of being absorbed by the body; (5) Nano The particle size range of the emulsion is 5~100 nanometers (nm), which is easy to penetrate the skin into the microvessels of the subcutaneous tissue, which can improve the utilization rate of the organism; (6) The preparation method is simple, and the frequency is 2 kHz to 50 MHz. The sound wave is suitable for the appropriate time. The preparation method of the nano emulsion includes: a variety of edible oils and fats

Claims (1)

200914063 13. Moisture in the nanoemulsion (mM) Nanoparticle size (nm) 15. Volume fraction (%) 16. Penetration of the skin, square centimeters (η〆 -累积. Cumulative time of penetrating the skin (hours) X. Patent application scope 1. The features of the present invention are as follows: (1) The surfactants of the composition are all biomedical compatible materials, because the auxiliary interface activity of the alcohol is not required to be added. The agent can be administered to the human body by transdermal, oral and injection; (2) the interface layer is protected to enhance the stability of the polyphenol derivative, and the oil phase can improve the solubility of the polyphenol derivative; (3) the nanoemulsion Improve the solubility of the drug, and carry more drug delivery than traditional emulsions or creams; (4) After dilution with a suitable phosphate buffered saline solution of 74 to 74, it can be stabilized for more than 2 days, giving it a better chance of being Physiological absorption and utilization; (5) The particle size of the nanoemulsion ranges from 5 to 100 nanometers (nm), which is easy to penetrate the skin into the microvessels of the subcutaneous tissue, which can improve the utilization rate of the organism; (6) Preparation The method is simple, with a frequency of 2 kHz to 50 MHz The sonic emulsion is suitable for the time. The preparation method of the nano emulsion includes: a variety of edible oils and fats 200914063 A surfactant having an HLB greater than 1 and a supersonic wave 2. The use of the first item of the patent application scope Polyphenol derivatives include Curcumin, Astaxanthin, Lycopene, Lutein, Zeaxanthin, Radix Puerariae, and Resveratrol ( Resveratrol), Proanthocyanidins, Bioflavonoids, Lignans, Flavoniods, Tannin, Apigenin, Luteolin, Rutin ), Cis-polyphenol (Hesperidin), Oleuropein, tyrosol, Cacao Polyphenol, Capsaicin, Chlorophyl, Ephedrin, Allicin (Allicin), Luteolin, Pueraria PE, Daidzein, Daidzin, Agrimophol, Alpinetin, Anthocyanosides, Apiin, Atractylon, Bakuchiol, Bergapol, Ginkgo 7-Demethyl 200914063 Ginkgo Biloba ( Bilobetin), Bisdemethoxycurcumin, Capsanthin, Capsicum Extract, Capsorubin, Carthamidin, Chrysophanol, Curcuma Curcumol, Curdione, Demethoxy-curcumin, Eugenol, Flavonoids, Ginkgo Biloba Extract, Gossypol , and Honokiol, Humulone, Isobavachin, Isoflavones, Kudzu P.E, Magnolol, Sulfhydryl Otto dihydrogen isoflavone A, B (Methylophiopogonanone A, B), Ophiopogon, A (B), Ophiopogonanone A (B), Ophiopogonone A, B (Ophiopogonone A, B), Dan Pioneol, purple Phenolic Compounds, Pogostone, 1 Polypheno, Pueraria Flavonid, Pueraria Root PE, Puerarin, Qingdainone, Resveratrol, Resveratrol 10 200914063 (Rhapontisterone), Rhein, Soy bean PE, Tanshinone IIA, Tanshinone I (Tanshinone IIA) Tanshinone I), Tanshinone IIB, Tea Polyphenol, Total Ginkgo Flavone-Glycoides, Turmeric PE, Turmerone, Arturmerone . 3. A method for coating a polyphenol derivative by using a nanoemulsion as described in the first paragraph of the patent application, wherein an edible fat or oil is an unsaturated fatty acid (the C22 carbon chain contains at least one (inclusive) or more Oils and fats with less than C14 carbon chain include, including: Seamy Seed oil, Almond Sweet oil, Avocado Oil, Borage Oil ), Evening primrose Oil, Hazelnut Oil, J〇j〇ba Oil, Olive Oil, R0se Hip Seed Oil, Sunflower Oil, Safflower Oil, Walnut Oil, Apricot Kernel Oil, Canola Oil, Rapeseed Oil, Castor Oil Oil), Camelina Oil, Apeseed Oil, Wheatgerm Oil, Queensland Nut Oil (Macadamia Oil) 200914063 (Macadamia Oil), Peanut Oil (Peanut Oil), Coconut Oil ( Coconut Oil), Cocoa Butter Cocoa Butter), Shea Butter, Carotino Premium Oil, Ethyl Oleate, Germ Oil, Palm Oil, Corn Oil ( Corn Oil), Hemp Oil, Raspberry Seed Oil, Cranberry Seed Oil, Pumpkin Seed Oil, Pistachio Nut Oil , Camellia Oil, Camellia Seed Oil, Soybean Oil, Canola Oil, Castor Oil, Hydrogenated, Lanolin oleic acid Oleic Acid), Polyoxyethylene Stearates, Polyvinyl Acetate Phthalate, Propyl Gallate, Simethicone, Hydrogenation Vegetable oil (Hydrogenated), argonized vegetable oil (Suppository Bases, HardFat), Peppermint Oil, Isopropyl Myristate (IPM), etc., 4· If you apply for a special The method of coating a polyphenol derivative by using a nano emulsion according to the first item, wherein the interface 12 200914063 having an HLB value of 1 comprises: ethylene oxide, propylene oxide, ethylene oxide (PEO-PPO-PEO) Copolymer Polyether Series (-(PPO)a (PEO)b (PPO)a- ) 'PEG-8 Monostearate, PEG-8 Laurel Ether ( PEG-8 Laurylether), Oteic Acid, Sorbitan Tribleate (Span 85), Sorbitan Trioleate (Arlacel 85), Polyoxyethylene Yam Polyoxyethylene Sorbitol Beeswax Derivative (Atlas G-1706), Sobibitan Tristearate (Span 65), Sorbitan Tristearate, Arlacel 65 ), Polyoxyethylene Sorbitol Hexastearate (Atlas G-1050), Ethyleneglycol Fatty Acid Ester (Emcol EO-50), Ethyleneglycol Fatty Acid Ester, Emcol ES-50), polyoxyethylene sorbitol bee Polyoxyethylene Sorbitol Beeswax Derivative (Atlas G-1704), Propylene Glycol Fatty Acid Ester (Emcol PO-50), Propylene Glycol Fatty Acid Ester, Atlas G-922 ), Propylene Glycol Fatty Acid Ester, Propylene Glycol Fatty Acid Ester, Atlas G-2158, Ethylene Glycol Fatty 13 200914063 Acid Ester, Emcol PS-50), Ethyleneglycol Fatty Acid Ester (Emcol EL-50), Propylene Glycol Fatty Acid Ester (Emcol PP-50), sorbitan sesquioleate ( Sorbitan Sesquioleate, Arlacel C), Sorbitan Sesquiolate (Arlacel 83), Polyoxyethyle Esorbitol 4 (5 Oleate, Atlas G-2859), Glycerol Monostearate Monostearate, Atmul 67), Glycol Distearate, Sorbitan Trioleate, Stearic Acid Glycol Stearate, Sorbitan Tristearate, Glyceryl Oleate, Sucrose Distearate, Polyoxyethylene Sorbitan Polyoxyethylene Sorbitol Hexastearate, Sortitan Sesquioleate, Polyoxyethyle Esorbitol 4.5 Oleate, Glycerol Monostearate, PEG-5 Castor Oil, Lanolin, Lanolin Alcohol, Cholesterol, Polyoxyethylene Sorbitol Beeswax, sorbitan monooleate (Sorbitan Monooleate), sorbitan oleic acid (Sorbitan Oleate), PEG-2 hard vinegar (PEG-2 14 200914063 Stearate), sorbitan sorbitan (Sorbitan Stearate), dehydration Sorbitol Isostearate, Steareth-2, PEG-7 Hydrogenated Castor Oil, Oil Alcohol-2 (01eth-2), PEG-4 di oil Acid ester (PEG-4 Dioleate), sorbitan palmitate, oil oxime-3 (01eth-3), lanolin-(n) (Laneth-(n)), mono-hard fat Glycerol Monostearate (Atmul 84), Glycerol monostee (Rateglycerol Monostearate, Tegin 515), Glycerol Monostearate (Aldo 33), glyceryl monostearate ( Pure Hydroxylatedlanolin), Ohlan Polyoxyethylene Sorbitol Beeswax, Arias G-1727 Derivative, Propylene Glycol Fatty Acid Ester, Emcol PM-50, Dehydration Sorbitol Monooleate (Span 80), sorbitan Monooleate (Arlacel 80), Propylene Glycol Monolaurate (Atlas G-917), Propylene Glycol Single Laurel Propylene Glycol Monolaurate (Atlas G-3851), Propylene Glycol Fatty Acid Ester (EmcolPL-50), sorbitan monostearate (Sorbitan Monostearate) ,Span 60), sorbitan 15 200914063 Sorbitan Monostearate (Arlacel 60), Diethylene Glycol Monooleat (Atlas G-2139), Diethylene Glycol Fatty Acid S (Diethylene Glycol Fatty Acid Ester, Emcol DO-50), Diethylene Glycol Monostearate (Atlas G-2146), Diethylene Glycol Fatty Acid Ester, Emcol DS-50 ), polyoxyethylene (2EO) oleyl ether (POE (2) Oleylalcohol, Ameroxol OE-2), polyoxyethylene Sorbitol Beeswax Derivative (Atlas G-1702), diethylene glycol fatty acid Diethylene Glycol Fatty Acid Ester (Emcol DP, 50), Glycerol Monostearate (Aldo 28), Tegin Glycerol Monostearate, Diethylene Glycol Fatty Acid Ester, Emcol DM-50), Methyl Glucoside Seequisterate (Glucate-SS), Polyoxyethylene Sorbitol Bee Pollen Derivative (Poly Oxyethylene Sorbitol Beeswax Derivative, Atlas G-l725), Diethylene Glycol Monolaurate (Atlas G-2124), Diethylene Glycol Fatty Acid Ester, Emcol DL_50, Diethylene Glaurin Diethylene Glycol Monolaurate, Lost Water Mountain 16 200914063 Sorbitan Monopalmitate (Span 40), Sorbitan Monopalmitate (Arlacel 40), Polyoxygen Polyoxyethylene dioleate (Atlas G-2242), Tetraethylene Glycol Monostearate (Atlas G-2147), Tetraethylene Glycol Mbnooleat, Atlas G -2140), polyoxypropylene mannitol dioleic acid vinegar (Volvoxvlropylene Mannitoldioleate, Atlas G-2800), polyoxyethylene Sorbitol Lanolin Derivative (Atlas G-1425), polyoxypropylene (5PO) ) lanolin ether (Splulan PB-5 P.0.P(5) Laolin Alcohol), sorbitan monolaurate (Sorbitan Monolaurate, Span 20) Polyoxyethylene Sorbitan Trioleate (Tween 85), Polyethylene Glycol 400 Monostearate, Polyoxyethylene (20) sorbitan Sodium stearate (Polysorbate 60, Tween 60), Polyoxyethylene Monostearate (Myrj 49), Polysorbate 20, Tween 20, Pure Lauryl Sulfate Pure Sodium Lauryl Sulfate, N-cetyl N-ethyl Morpholinium Ethosulfate, Potassium Oleate, Sodium Oleate, 17 200914063 PEG-90 Apricot Kernel Glycerides, PEG-40 Stearate, (12-13 Palmitol Ether-23) (: 12-13?&; Add 11-23),? £〇-100 Stearate, Alkyl Aryl Sulfonate, Sucrose Stearate (and) Sucrose Distearate , Triethanolamine Oleate, Oleth-lO, PEG-35 Castor Oil, PEG-40 Hydrogenated Castor Oil, PEG-40 Castor Oil, PEG-8 lauric acid vinegar (PEG-8 Laurate), lauric acid sarcosine (Lauroyl Sarcosine), PEG-6 GTCC glycerol g (PEG-6 Capprylic, Capric Glycerides), Ceteareth-12, PEG-15 Gluceryl Laurate, PEG-12 Stearate, PEG-24 Alcohol ether (PEG-24 Cholesterol), PPG-20 Lanolin Alcohol, PEG.40/45 Hydrogenated Castor Oil, PEG-60 Almond Oil Glycerin ( And) PEG-60 (Almond Glycerides (and) PEG-6GTCC) 'Caprylic/Capric Glycerides, Sucrose Stearate, PE G-60 Hydrogenated castor oil (PEG-60 Hydrogenated Castor Oil), PEG-20 sorbitan stearin 18 200914063 Acid sorbate (Polysorbate 60), PEG-20 sorbitan oleic acid oleic acid (Polysorbate 80), PEG- 60 PEG-60 Almond Glycerides, PEG-42 Babassu Glycerides, PEG-60 Evening Primrose Glycerides, PEG-45 Corn Glycerides (PEG-45 Corn Glycerides), PEG-45 Palm Kernel Glycerides, PEG-60 Maracuja Glycerides (PEG-60 Maracuja Glycerides), PEG-20 methyl glucoside sesquioleate Ester (PEG-20 Glucamate SS), succinyl ether-20 (Steareth-20), oleyl ether-20 (01eth-20), stearyl ether-21 (Steareth-21), PEG-20 dehydration Polysorbate 40, Ceteareth-20, PEG-20 Stearate, PEG-75 Lanolin, PEG-75 Lanolin Ceteareth-25, PEG-20 Polysorbate 20, Polyoxypropylene St Earate), PEG-5 Lanolin Alcohol, PEG-15 Castor Oil, PEG-8 Dioleate (PEG-8 Dioleate), sorbitan lauric acid Sorbitan Laurate, oleyl ether-5 (01eth-5), polyglyceryl-3 polyricinoleate, polyoxyethylene Oxypropylene Oleate, four Ethylene glycol 19 200914063 Tetraethylene Glycol Monolaurate, C12-13 Palmeether-4 (C12-13 Pareth-4), Polyoxyethylene Lauryl Ether, Hexaethylene glycol monostearate Hoxaethylene Glycol Monostearate, Cocoyl Sarcosine, Ceteareth-6, PPG-5 Laolin Alcohol, Recorded Alcohol Ether-5 (and) recorded stearyl ether-7 (Ceteth-5 (and) Ceteareth-7), polyoxyethylene Cetyl Ether, PEG-20 sorbitan tristearyl PEG-20 Sorbitan Tristearate, PEG-7 Glyceryl Cocoate, self-emulsifying stearic acid Glyceryl Stearate (S/E), PEG-8 Stearerate (PEG-8 Stearate), Stearic Acid Glycerin S (and) PEG 100 Stearic Acid S (Glyceryl Stearate (and) PEG 100 Stearate), PEG-20 sorbitan sorbate (Polysorbate 85), polyoxyethylene oxy oxy oleic acid (Polyoxyethylene Oxypropylene Oleate), PEG-8 laurel glycerin (PEG-8 Glyceryl Laurate), PEG-8 Stearate, PEG-29 Castor Oil, Polyoxyethylene Lauryl Rther (Brij 35), Polyoxyethylene Monostearate Polyoxyethylene monolaurate (Myrj 52), Polyoxyethylene Monolaurate (Myrj 53), Polyoxyethylene 20 200914063 Polyoxyethylene Monolaurate (Atlas G-2159), Polyoxyethylene Polyoxyet Hylene Sorbitol Lanolin Oleate Derivative (Atlas G-1493), Polyoxyethylene Sorbitol Lanolin (Atlas G-1425 derivative), Polyoxypropylene Stearate (Polyoxypropylene Steara Te, Atlas G-3608), polyoxyethylene (5EO) lanolin ether (POE (5) Lanolin Alcohol, Solulan 5), sorbitan lauric acid (Sorbitan Monolaurate, Arlacel 20), polyoxyethylene fatty acid (Polyoxyethylene) Fatty Acid, Emulphor VN-430), Polyoxyethylene Oxypropylene Oleate (Atbs G-2111), Polyoxythylene Sorbitol Beeswax Derivative, Atlas G-l734 , Tetraethylene Glycol Monolaurate (Atlas G-2125) 'Polyoxyethylene Lauryl Ether (Brij 30), oxyethylene (4EO) sorbitan monostearate ( Polyoxethylene Sorbitan Monostearate, Tween 61) 'Hoxaethylene Glycol Monostearate (Atlas G-2154), Polyoxypropylene (5PO) Lanolin Ether (P.0.P(5) Laolin Alcohol, Splulan PB-5), polyoxyethylene (5EO) sorbitan monooleate (Polyoxyethylene 21 200914063 Sorbitan Monooleate, Tween 81), mixed fatty acid and resin acid polyoxyethylene ester (Polyoxyethyle Ne Esters of Mixed Fatty and Resin Acids, Atlas G-1218), Polyoxyethylene Cetyl Ether (Atlas G-3806), Polyoxyethylene (20EO) sorbitan tristearate ( Polyoxyethylene Sorbitan Tristearate, Tween 65), Polyoxyethylene Lauryl Ether (Atlas G-3705), Polyoxyethylene (20EO), Polyoxyethylene Sorbitan Trioleate (Tween 85), Poly Polyoxyethylene Oxypropylene Oleate (Atlas G-2116), Polyoxyethylene Lanolin Derivative (Atlas G-1790), Polyoxyethylene Monooleate , Atlas G-2142), Polyoxyethylene Monostearate (Myrj 45), Polyoxyethylene Enemonooleate (Atlas G-2141), Polyoxyethylene Monooleate (Polyoxyethylene) Monooleate, PEG400 Monooleate), Polyoxyethylene Monopalmitate (Atlas G-2076), Polyoxyethylene Monostearate (Polyo) Xyethylene Monostearate, S-541), Polyoxyethylene Monostearate (PEG400 Monostearate), Acryl Aryl 22 200914063 Sulfonate, Atlas G-3300, Triethanolamine Oleic Acid Triethanolamine Oleate, Polyoxyethylene (10EO) oleyl ether (Ρ.Ο.Ε·(10) Oleyl Alcohol, Ameroxl OE-10), Polyoxyethylene Monolaurate (Atlas G-2127) , Polyoxyethylene Alkyl Phonol (Igepal CA-630), Polyoxyethylene (10EO) Acetylated Lanolin Derivative (Acetylated POE (IO) Landin Derivative, Solulan 98), Polyoxyethylene Sorbitol Polyoxyethylene Sorbitol Landing Derivative (Atlas G-1431), Polyoxyethylene Alkyl Aryle Ether (Atlas G-1690) 'Polyoxyethylene Monolaurate (S-307) ), Polyoxyethylene Monolaurate (PEG 400 Monolurate), Polyoxyethylene Lauryl Ether (Atlas G-2133), Polyoxygen Castor oil (Polyoxyethylene Castor Oil, Atlas Gl 794), Polyoxyethylene Vegetable Oil (Emulphor EL-719), Polyoxyethylene (4EO) sorbitan monolaurate (Polyoxyethylene Sorbitan Monolaurate, Tween) 21) Polyoxyethylene Esters of Mixed Fatty and Resin Acid (Renex 20), Polyoxyethylene Sorbitol Lanolin 23 200914063 Derivative, Atlas G- 1441), polyoxyethylene oxime (24EO) cholesterol ether (POE (24) Cholesterol, Solulan C-24), polyoxypropylene (20PO) lanolin ether (POP (20) Lanolin Alcohol, Solulan PB-20), polyoxygen Polyoxyethylene Sotbitan Monolaurat (Atlas G-7596j), Polyoxyethylene Sorbitan Monostearate (Tween 60), Polyoxyethylene (20EO) Oleyl ether (POE (20) Oleyl Alcohol, Ameroxol OE-20), polyoxyethylene (20EO) thioglucan sesquioleate (POE (20) Glucamate SS, Gl Ucamate SSE-20), polyoxyethylene (16EO) lanolin ether (POE (16) Lanolin Alcohol, Solulan 16), polyoxyethylene (25EO) lanolin ether (POE (25) Lanolin Alcohol, Solulan 25), polyoxygen Ethylene (9EO) acetate lanolin derivative (Acetylated POE (20) Lanolin Derivative, Solulan 97), polyoxyethylene (20EO) sorbitan monooleate (Polyoxyethylene Sorbitan Monostearate, Tween 80), polyoxyethylene single Polyoxyethylene Monostearat (Myrj 49), Polyoxyethylene Monooleate (Altlas G-2144), Polyoxyethylene Oleyl Ether (Atlas G-3915), Polyoxygen Ethyl stearyl alcohol (p〇ly〇xyethylene Stearyl Alcohol, Atlas G-3720), polyoxyethylene oleyl alcohol 24 200914063 (Polyoxyethylene Oleyl Alcohol, Atlas G-3920), polyoxyethylene fatty alcohol (Polyoxyethylene Fatty Alcohol, Emulphor ON -870), Polyoxyethylene Glycol Monopalmitate (Atlas G-2079), Polyoxyethylene (20EO), Polyoxyethylene Sorbitan Monopalmitate, Twe En 40), Polyoxyethylene Cetyl Alcohol (Atlas G-3820), Polyoxyethylene Oxypropylene Stearate (Atlas G_2162), Polyoxyethylene Sorbitol Lanolin Derivative (Polyoxyethylene Sorbitan Lanolin Derivative, Atlas G-1741), Polyoxyethylene Monostearate (Myrj 51), Polyoxyethylene Sorbitan Monolaurate (Atlas G-7596P), One of polyoxyethylene monolaurate (Atlas G-2129) and polyoxyethylene Oleyl Ether (Atlas G-3930). 5. A method of coating a polyphenol derivative with a nanoemulsion according to the first aspect of the patent application, wherein the lipid component comprises Phospholipids, Glycerolipids, Sphingolipids, Jk poly (Plasmalogens), cholesterol 25 200914063 (Cholesterols), fatty acids (Fatty acids), etc., 6. The method of coating a polyphenol derivative with a nanoemulsion as described in the first paragraph of the patent application, wherein The functional group of the functional lipid includes phosphatidic acid (PA), phlegm-filled fat (Phosphatidylcholine, lecithin, PC), phlegacidylserine (PS), brain Phosphatidylethanolamine (PE), Phosphatidylinositol (PI), N-Caproylamine, N-Dodecanylamin, N-succinic acid ( N-Succinyl), N-Glutaryl, N-Dodecanyl, N-Biotinyl, N-Biotinyl Cap ) and so on, 7. Please use the method of coating the polyphenol derivative with nano-emulsion as described in the first paragraph of the patent, and prepare the image (2) transparent uniform nano-emulsion by ultrasonic vibration at a frequency of 2 kHz to 50 MHz for several minutes to several tens of minutes. , can be stable for at least 6 months. 26