KR20150060286A - Method of Preparing Composition for Preventing Hair Loss or Promoting Hair Generation by Ultrasonication - Google Patents

Abstract

The present invention relates to a manufacturing method of a composition having a more improved performance by effectively extracting an active component having effects of preventing hair loss or promoting hair growth by a 5-alpha-reductase inhibition effect from a plant-derived natural material by using ultrasonic waves, and by being manufactured in a hoof shape of filling the extracted active component from the natural material in a liposome. The present invention comprises: (a) a mixing step of grinding the dried natural material, and mixing with an extract solvent in an extractor; (b) an active component extracting step of radiating the ultrasonic waves to a compound of the natural material and the extract solvent, and extracting the active component; (c) an active component concentrating step of dividing and concentrating the extracted active component; and (d) an active component drying step of drying the concentrated active component, and removing the extract solvent. The extracted active component is liposomized through a stabilization step. In the mixing step, the extract solvent is heated in an external heater, and condensed in a cooling condenser, and is supplied to the extractor. The active component extracting step is carried out while heating the extract solvent at room temperature or the temperature which is less than or equal to the boiling point of the extract solvent. An extract is collected to an additional collecting element not to the heater where the extract solvent is heated.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a composition for preventing hair loss from natural products by using ultrasound,

The present invention relates to a method for extracting an active ingredient having a hair-loss-preventing or hair-growth promoting effect from a natural product, and more particularly, to a method for extracting an active ingredient having low thermal stability, which is a disadvantage of conventional hot- Extracting an active ingredient effective for extracting an active ingredient from a natural product capable of effectively extracting an active ingredient even at a low temperature through effective destruction of a plant cell wall by using a more effective ultrasound to extract the effective ingredient, ≪ / RTI >

Recently, the hair loss population is continuously increasing due to environmental pollution, side effects due to abuse of drugs, and social and environmental stress. The hair of the human body is removed through growth period, retrograde period and rest period. It is a symptom that is caused by a small number of hair in the retrogressive or resting period.

Human hair is an important part of the body expressing personality and personality. Unlike other mammals, human hair is recognized as being important in aesthetic sense rather than biological purpose. About 50-100 of the normal hair fall off naturally, and hair loss is defined as dehydration, which is caused by excessive withdrawal of hair due to various reasons. The most common hair loss is alopecia due to immune system abnormality and male hair loss caused by age. The precise mechanisms of hair growth and hair loss are not fully understood until now. However, the cause of hair loss is the decrease of hair follicle function due to the involvement of male hormone, the decrease of the metabolism function of hair follicle and parental part, the local blood flow obstruction due to scalp tension, Stress, drug side effects, genetic factors, autoimmunity, local infections, chemicals, leukemia, tuberculosis and abuse of hair products. The most typical form of hair loss, androgen alopecia, occurs genetically androgen-hormone dependent. The typical androgen hormones of mammals include testosterone and dihydrotestosterone (DHT), which cause hair loss More patients are reported to have DHT. Here, testosterone is converted to dihydrootestosterone by 5 alpha-reductase, especially dihydrootestosterone converted from testosterone by type 2 5 alpha-reductase in two forms present in 5 alpha-lidocytase, Resulting in progressive miniaturization of the nipple and hair follicles.

Particularly, it has been observed that dihydrotestosterone is maintained at a high level in vivo in a person having hair loss symptoms, so that excessive production of dihydrotestosterone is attracting attention as a main cause of hair loss. 5-alpha-reductase inhibitor to inhibit dihydrotestosterone, thereby preventing hair loss. Typical examples of the drug include Merck's proprietary drug FAD approved by Merck, Finasteride) (U.S. Patent No. 5,547,957, U.S. Pat. No. 5,760,046 or Korean Pat. No. 3,750,883).

There are many kinds of hair-related products currently available on the market, but most of them are not effective in prevention of hair loss and lack hair growth, or are temporary. Therefore, they do not meet the needs of users and there are insufficient data on efficacy and safety. The effect of minoxidil and propecia on the market is recognized to some extent, but when it is discontinued, it is difficult to use it because it reports serious side effects such as alopecia or recurrence of sexual dysfunction.

Therefore, in recent years, many efforts have been made to develop new effective ingredients for preventing hair loss and hair growth from natural products with low side effects. In order to screen for efficacious substances from natural extracts such as bamboo shoots and ointments, And herbal medicines through various herbal medicines. The prior arts include Korea Patent No. 682573 and Korean Patent No. 1287052.

However, hot water extraction and room temperature organic solvent extraction processes are generally used for extraction of active ingredients having the hair loss prevention / hair growth promoting effect from the existing natural products. Such a conventional extraction process is simple in process and can be applied easily The extraction efficiency of the active ingredient is low.

In addition, in the case of the hot water extraction process, the extraction ratio of a substance having a water-soluble or polar chemical structure becomes relatively high, whereas in case of extraction with an organic solvent at room temperature, if the polarity of the extraction solvent used is changed, Although it is possible to extract the structural material, the extraction efficiency is low due to the nature of the process of extracting at room temperature.

In addition, when extracting the active ingredient from a natural product, the extraction solution containing the extracted active ingredient is supplied again to the inside of the flask, which is a heating device, and is continuously heated as in the extraction solvent, so that the extracted ingredient It is necessary to develop an extraction process with high extraction efficiency while minimizing the thermal deformation of the extract.

DISCLOSURE OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method for extracting an active ingredient having anti-hair loss properties or hair growth promoting activity from natural products by improving the extraction process of existing hot water extraction and organic solvent reflux method, Extraction process with high extraction efficiency while minimizing thermal denaturation and destruction during extraction process is applied to the pulverization of plant cell wall by applying ultrasonic wave, so that the input and separation of dry sample is easy compared to the conventional process, and prevention of hair loss from natural product or promotion of hair growth The present inventors intend to provide a method for preparing a composition having a more effective effect by extracting an effective ingredient more efficiently and improving its formulation.

An effective ingredient having the effect of preventing hair loss or promoting hair growth by the 5 alpha-reductase inhibiting effect from plant-derived natural products is efficiently extracted using ultrasonic waves, and the active ingredient extracted from natural products is formulated into liposome-enclosed formulations Thereby extracting natural products is extracted and liposomized by the following steps.

(B) an active ingredient extraction step of extracting an active ingredient by irradiating a mixture of a natural product and an extraction solvent with an ultrasonic wave; (c) (D) a step of lyophilizing the concentrated active ingredient to dry the active ingredient to remove the extraction solvent, and (e) a stabilization step of enclosing the dried active ingredient .

 In the mixing step, the extraction solvent is heated from an external heater, and then condensed in a cooling condenser and supplied to the extractor. The extraction of the active ingredient is performed while heating the extraction solvent at room temperature or below the boiling point of the extraction solvent. The solvent is collected by a separate collection means rather than a heated heater.

In general, for the extraction of a component soluble in a solvent from a solid material containing a natural product, a reflux extraction type apparatus using the general shoelace (1) shown in Fig. 2 is used. When the flask 2 is heated, the solvent in the flask 2 is evaporated, and the solvent in the flask 2 is condensed on the reflux condenser 4 through the bypass tube 3 and the condensed distillation solvent is introduced into the sample 5 If the sample is immersed in the solvent and the solvent becomes higher than the height of the siphon tube 6, the sample is recovered to the flask 2 through the siphon tube 6 and the extraction is completed once. If the flask 2 is continuously heated, The extraction cycle is repeated and extraction continues. In this reflux extraction method, the vapor of the heated solvent is cooled in the cooling condenser and then contacted with the dried sample to be extracted and mixed again into the heater where the solvent is heated again.

In such a reflux extraction method, when extracting the active ingredient from a natural product, the extract containing the extracted active ingredient is fed back into the flask, which is a heating device, and is continuously heated as in the extraction solvent. Therefore, The desired efficacy can not be expected from the extracted extract.

However, the feature of the present invention is not the conventional reflux method but the schematic diagram of FIG. 3. The extraction solvent is heated from the external heater 20 in the supply of the extractor 10 and then condensed in the cooling condenser 40 located in the upper portion of the extractor 10 by the steam supply pipe 30 to be supplied to the extractor 10 And the extractor is present in the water tank provided with the ultrasonic generator 50 so that the ultrasonic wave generated from the ultrasonic generator transmits the ultrasonic wave to the mixture of the natural material and the extraction solvent contained in the receiving means 60 inside the extractor, The active ingredient is effectively extracted by the extraction solvent while pulverizing the cell wall of the plant-derived natural product by the ultrasonic waves. The extraction of the active ingredient may be performed at room temperature or below the boiling point of the extraction solvent by adjusting the temperature of the water tank, and may be heated to the boiling point of the extraction solvent if necessary. Alternatively, the cooling condenser 40 The extraction solvent is again condensed and re-supplied to the extractor.

The receiving means (60) for accommodating the natural substance provided in the extractor is capable of accommodating the natural substance therein and forming the mesh or pores on the outer surface thereof, so that the extraction solvent supplied thereto can contact the natural substance, It is preferable that the mesh is a cylindrical mesh or tetrahedral mesh having a fine pore. The mesh size and pore size can be adjusted according to the shape and size of the natural product used.

The extractor and the heater are made of a conventional stainless material, and the shape thereof is preferably cylindrical or tetrahedral. The cooling condenser can be a known cooling condenser in which the vapor of the heated solvent can be condensed.

In the active ingredient extraction step, the extraction solvent initially supplied is condensed in the cooling condenser 40 located at the upper portion of the extractor 10 by the steam supply pipe 30 after the extraction solvent is heated from the external heater 20 After the cell wall of the plant-derived natural product is pulverized by the ultrasonic wave generated from the ultrasonic generator, the effective ingredient is extracted for a desired time by the extraction solvent while being supplied at a proper amount lower than the height of the siphon tube 70 of the extractor 10 The extraction solvent is supplied to the extractor through the steam supply pipe. When the height of the extraction solvent becomes higher than the height of the siphon tube 70 connected to the extractor, the collected solution is supplied to the collecting means 80 separately provided through the siphon tube 6 And the extraction is completed once.

The extraction of the active ingredient can be repeated a number of times as many times as desired. In this active ingredient extraction step, the extract is collected in the separately collected collection means without being re-supplied to the heater, so that the deformation of the extracted ingredient can be minimized , It is possible to separate the initial extraction component and the latter extraction component in a plurality of continuous extraction processes, and extraction can be performed by controlling the extraction temperature of the initial extraction process and the latter extraction process.

The extraction of the active ingredient is performed by ultrasonic waves generated by an ultrasonic generator while heating the extraction solvent at room temperature or below the boiling point of the extraction solvent, and the extract is collected by a separate collection means rather than a heating device in which the extraction solvent is heated.

The ultrasound-based method can control the intensity of the ultrasonic energy according to the raw material of the natural substance to be extracted, and thus the extraction efficiency is very high and the possibility of denaturation and destruction of the active ingredient exhibiting pharmacological activity can be minimized.

The extraction solvent used in the extraction process may be used by mixing one or two or more solvents selected from the group consisting of purified water, methanol, ethanol, propanol, butanol, methyl acetate, ethyl acetate, hexane, diethyl ether and dichloromethane.

Extracting the extracted active ingredient with an active ingredient concentrating step for concentrating and concentrating the extracted active ingredient and lyophilizing the concentrated active ingredient to extract the active ingredient and removing the extracted solvent, The composition to be manufactured has an advantage that the production of precipitate, which is one of the disadvantages of extracts extracted from natural products, is inhibited, and thus it is possible to distribute and use for a long time.

The present invention also relates to a method for efficiently delivering and stabilizing extracts related to liposomes, which is capable of easily absorbing the extracted efficacious substances into the cell wall through the modification of the formulations and increasing the preservation period, Liposomal preparation using egg yolk lecithin, soybean lecithin, sphingomyelin, dipalmitoyl phosphatidylcholine, hydrogenated lecithin or polyol, surfactant, fatty acid and the like. Such liposomalization is effective for effectively penetrating the extract into the cell wall, thereby increasing the efficacy of hair loss prevention or promoting hair growth as well as inhibiting the formation of precipitates.

The extract is encapsulated in a concentration of 0.0001 to 20% by weight based on the whole phospholipids and is liposomized.

As natural products used in the present specification, there may be mentioned natural products such as Ganoderma lucidum, Ganoderma lucidum, Bacillus subtilis, Bacillus subtilis, Bacillus subtilis, Bacillus subtilis, Ganoderma lucidum, Ginseng, ginseng, astragalus, ginseng, pheasant, etc. can be used, and the active ingredient can be extracted by the distillation method.

The composition for preventing hair loss or promoting hair growth of the present invention is characterized by containing a bamboo fruit extract as an active ingredient, preferably further containing red ginseng extract / powder as an active ingredient.

In the present specification, the term "bananas extract" refers to any one or two kinds of bananas extracted from methanol, ethanol, propanol, butanol, methyl acetate, ethyl acetate, hexane, diethyl ether and dichloromethane including distilled water, A crude extract obtained by mixing the above solvents with an ultrasonic method, and an extract obtained by fractionating the crude extract with the above listed solvents. The meaning of the extract includes concentrated liquid extract or solid extract from which the extraction solvent has been removed.

In the present specification, the "red ginseng extract" may be defined in the same manner as the "bananas extract"

The composition for preventing hair loss or promoting hair growth of the present invention can be identified as a hair cosmetic composition in a specific embodiment.

When the hair-loss preventing or hair growth promoting composition of the present invention is recognized as a hair cosmetic composition, the cosmetic composition can be manufactured into various formulations, such as emulsion, lotion, cream (underwater type, , Suspensions (anhydrous and aqueous), anhydrous products (oil and glycol), gels, powders, and the like.

The hair cosmetic composition for preventing hair loss or promoting hair growth of the present invention may contain an acceptable carrier for hair cosmetic preparations in addition to a bananas extract.

Examples of the carrier include alcohols, oils, surfactants, fatty acids, silicone oils, preservatives, wetting agents, moisturizers, viscosifiers, emulsifiers, stabilizers, sunscreens, coloring agents, flavoring agents and diluents.

Specific compounds or compositions that can be used as the above-mentioned alcohol, oil, surfactant, fatty acid, silicone oil, preservative, humectant, humectant, viscosifier, emulsion, stabilizer, ultraviolet screening agent, coloring agent, A person skilled in the art can select and use the appropriate compound or composition.

Examples of alcohols include water-soluble polyhydric alcohols such as higher alcohols, propylene glycol, 1,3-butylene glycol, glycerin, sorbitol and polyethylene glycol. Examples of the oils include avocado oil, palm oil, Examples of the preservative include ethylparaben and butylparaben. Examples of the moisturizing agent include hyaluronic acid, chondroitin sulfate, and pyrrolidonecarboxylic acid salt. Examples of the diluent include ethanol, isopropanol, and the like .

The composition for preventing hair loss or promoting hair growth of the present invention can be identified as a shampoo composition in another specific embodiment.

When the composition for preventing hair loss or hair growth of the present invention is identified as a shampoo composition, the shampoo composition of the present invention may be prepared by including an acceptable carrier in shampoo formulations other than the bananas extract and the like. Examples of such carriers include surfactants, Emulsifiers, thickeners, hydrotropes, preservatives, pH adjusting agents, bactericides, anti-dandruff agents, tonic agents, moisturizers and the like.

The surfactant, the foam enhancer, the emulsifier, the thickener, the hydrotrope, the preservative, the pH adjuster, the bactericide, the anti-dandruff agent and the tonic agent may be those known in the art. There can be used Alcohol Ethoxy Sulfate (Sodium Lauryl Ethoxylated Sulfate), Alkyl Sulfate, Acyl Sarsosinate, Acyl Grutaminate, Phosphoric Acid, Sucrose Ester and the like. Sodium hydroxide, sodium starch, starch, and the like can be used. As the perfume agent, ethyl alcohol, butyl alcohol, propylene glycol and the like can be used. As the humectant, glycerin Etc. may be used.

The composition of the present invention can be identified as a soap composition in another specific embodiment.

When the composition of the present invention is recognized as a soap composition, the soap composition of the present invention can be prepared by incorporating the active ingredient into a soap base material, and can be prepared as an additive including a skin moisturizer, an emulsifier, a water softener and the like .

Examples of the soap base material include vegetable oils such as palm oil, palm oil, soybean oil, perm free oil, olive oil and palm kernel oil or animal fats such as tallow, lard, sunshine and fish oil. Examples of the skin moisturizers include glycerin, erythritol, polyethylene glycol , Propylene glycol, butylene glycol, pentylene glycol, hexyl glycol, isopropyl myristate, silicone derivatives, aloe vera, sorbitol and the like. Examples of the emulsifier include natural oils, wax fatty alcohols, hydrocarbons, May be used. As the water softening agent, tetrasodium ethylenediate and the like may be used.

The soap composition of the present invention may further contain, as an additive, an antibacterial agent, a dispersant, a foam inhibitor, a solvent, a scouring inhibitor, a corrosion inhibitor, a fragrance, a dye, a sequestering agent, an antioxidant and an antiseptic.

It is possible to improve the disadvantages of the conventional hot water extraction and the room temperature organic solvent extraction process and effectively extract the active ingredient having the hair loss prevention or hair growth promoting effect from natural products more efficiently and in a large amount through the effective destruction of the cell wall of the naturally derived plant by using the ultrasonic wave , It is possible to improve the permeability in the skin tissue by preparing the extracted active ingredient with a composition of liposome or encapsulated formulation, which is an improved dosage form, to have improved efficacy even when using the same amount of effective ingredient, Not only is excellent, but also prevents formation of precipitates even during long-term distribution of the product, and has an excellent effect on stability of storage.

1 is a step-by-step process diagram of a method for extracting an active ingredient from a natural product according to the present invention and stabilizing it
2 is a view of a conventional slaughter extractor.
3 is a schematic diagram of an extractor according to an embodiment of the present invention.

Hereinafter, the present invention will be described with reference to Examples and Experimental Examples. However, the scope of the present invention is not limited to these examples and experimental examples.

< Example  1> Manufacture of Strawberry Extract

As shown in FIG. 3, 1 kg of the dried snakerella outpost is concentrated into a mesh-type sieve, and then the extraction solvent is heated through an external heater to generate ethanol vapor. The ethanol vapor generated is lower than the height of the siphon tube 5 L was supplied as much as possible. Extracts were extracted by irradiating ultrasonic waves at 40 ° C for 5 hours in a water tank equipped with an extractor and 500 ml of ethanol through a steam supply pipe at an internal temperature of 40 ° C for 5 hours, and the extract was collected through a siphon tube. The extracted extract was filtered with a filter paper and concentrated under reduced pressure at 60 DEG C on a rotary evaporator equipped with a cooling condenser. The ethyl acetate solution was fractionated using 500 mL of a 50/50 (vol / vol) mixture of water and ethyl acetate in the concentrated extract and concentrated again on a rotary evaporator equipped with a cooling condenser. In order to remove the extraction solvent from the concentrated active ingredient, a liquorice extract was obtained after lyophilization for 24 hours.

< Example  2> Preparation of red ginseng extract

As shown in FIG. 3, 1 kg of three red ginsengs are collected and injected into a mesh-type sieve as shown in FIG. 3, and then the extraction solvent is heated through an external heater to generate ethanol vapor. 5 L was supplied as much as possible. Extracts were extracted by irradiating ultrasonic waves at 40 ° C for 5 hours in a water tank equipped with an extractor and 500 ml of ethanol through a steam supply pipe at an internal temperature of 40 ° C for 5 hours, and the extract was collected through a siphon tube. The extract was filtered through a filter paper and concentrated under reduced pressure at 60 DEG C on a rotary evaporator equipped with a cooling condenser. The ethyl acetate solution was fractionated using 500 mL of a 50/50 (vol / vol) mixture of water and ethyl acetate in the concentrated extract and concentrated again on a rotary evaporator equipped with a cooling condenser. To remove the extraction solvent from the concentrated active ingredient, red ginseng extract was obtained after lyophilization for 24 hours.

< Example  3> Containing a branberry extract Liposomal  Produce

2.5 parts by weight of the extract of Strawberry Extract, 2.5 parts by weight of lecithin, 13 parts by weight of ethanol, 25 parts by weight of ester oil, 7 parts by weight of propylene glycol, 0.1 part by weight of nonionic surfactant and purified water were mixed in a homomixer And homogenized at 3000 rpm for 10 minutes. The homogenized lecithin mixture was then liposomized by treatment with a Microfludizer at 70 to 1,000 atmospheres.

< Example  4> containing red ginseng extract Liposomal  Produce

2.5 wt% of red ginseng extract, 2.5 wt% of lecithin, 13 wt% of ethanol, 25 wt% of ester oil, 7 wt% of propylene glycol, 0.1 wt% of nonionic surfactant and purified water were mixed at 70 ° C At 3000 rpm for 10 minutes. The homogenized lecithin mixture was then liposomized by treatment with a microfludizer at 70 &lt; 0 &gt; C and 1,000 atmospheres.

< Comparative Example  1> Manufacture of Strawberry Extract

5 kg of water was added to 1 kg of the dried snakeskin outpost, and the mixture was subjected to hot extraction at 70 to 90 ° C for about 6 hours to obtain an extract. The extract was filtered through a filter paper to prepare a strawberry extract. This liquid extract was used as it was in the experiment.

< Comparative Example  2> Preparation of the Strawberry Extract

1 kg of dried bamboo shoots were put into 5 L of 70% ethanol and immersed at room temperature for 24 hours to obtain an extract, and the extract was filtered through a filter paper to prepare a strawberry extract. This liquid extract was used as it was in the experiment.

< Comparative Example  3> Preparation of red ginseng extract

5 kg of water was added to 1 kg of three red ginsengs, and the mixture was extracted with hot water at 70 to 90 ° C for about 6 hours to obtain an extract. The extract was filtered through a filter paper to prepare a strawberry extract. This liquid extract was used as it was in the experiment.

< Comparative Example  4> Preparation of red ginseng extract

One kilogram of red ginseng was added to 5 liters of 70% ethanol and immersed at room temperature for 24 hours to obtain an extract. The extract was filtered through filter paper to prepare red ginseng extract. This liquid extract was used as it was in the experiment.

< Experimental Example  1> extract 5 Alpha - Reductase  Inhibitory activity experiment

The inhibitory effect of 5 alpha-reductase activity on the extracts of the above Examples and Comparative Examples was measured as follows.

The 5-alpha-reductase used in the experiment was obtained from liver of Sprague-Dawley rats aged 8 weeks. Protein was quantified by Bradford method and prepared as protein suspension.

The suspension 30 of 5 alpha-reductase was added to an enzyme reaction solution 60 (50 mM Na ₂ HPO ₄ (pH 6.8), 25 mM KCl, 500 mM NADPH) and the sample 10 of the above Example and Comparative Example was added The total amount of the reaction solution was 100.

The reaction substrate of 5-alpha-reductase was radioactively labeled testosterone (3H-Testosterone).

The reaction solution was allowed to stand in a 37 ° C thermostatic chamber for 20 minutes and reacted. The reaction solvent was evaporated to remove the residue. The residue was dissolved in chloroform 20, spotted on a TLC plate, developed in a TLC chamber for 30 minutes (toluene: acetone = 4: 1). The developed plate was exposed to hyperfilm for 3 days, and the photosensitized area was quantitatively analyzed with a densitometer.

5 alpha-reductase activity was evaluated using the following equation and the results are shown in Table 1 below.

5 alpha-reductase activity = 100 (A-B / A)

A: Conversion rate of testosterone to dihydrotestosterone

B: Conversion rate of testosterone to dihydrotestosterone when adding sample

division % Inhibition Example 1 80.3 Example 2 77.5 Comparative Example 1 64.3 Comparative Example 2 58.7 Comparative Example 3 21.3 Comparative Example 4 17.5

The results of Table 1 show that Examples 1 and 2 when extracting the active ingredient by the ultrasonic method in the above Examples are superior to those of Comparative Examples 1 to 4 which are hot water extraction or room temperature organic solvent extraction, The inhibitory activity is high.

< Experimental Example  2> Enhancement of hair growth promoting activity in animal model of extract

Seven to eight-week-old male C57BL / 6 dorsal hair was carefully removed with a razor blade to a width of 3 to 4 cm, and after 24 hours, no hair was found. Seven mice were assigned to each of the experimental and control groups.

Samples of the above-mentioned Examples and Comparative Examples were applied to the back of the hair with the hair removed from the above-mentioned mice in the appropriate amount twice a day for a total of two weeks, and the images obtained by photographing with a Tiger camera were analyzed with an image analyzer (Image- USA), and the hair growth efficiency was evaluated as a ratio of the area where the hairy hair was removed to the area where the hairy hair was removed.

Distilled water was used as a control group. The results are shown in Table 2 as mean standard deviation.

division After 1 week after 2 weeks Control group 3.97 36.58 Example 1 24.27 80.85 Example 2 21.36 72.65 Example 3 32.24 83.34 Example 4 27.47 75.69 Comparative Example 1 17.74 64.43 Comparative Example 2 15.22 59.28 Comparative Example 3 5.34 42.42 Comparative Example 4 4.52 40.57

The results of Table 2 show that hair extracting efficiency was higher in Examples 1 and 2 when the active ingredient was extracted by the ultrasonic method than in the case of the hot water extraction or the organic solvent extraction at room temperature in Comparative Examples 1 to 4 And the hair growth efficiency was increased in Example 3 and Example 4, especially in the case of liposomized.

1: Soxhlet
2: Flask
3: Bypass pipe
4: reflux condenser
5: Fertilizer reuse
6: Siphon tube
10: extractor
20: heater
30: steam supply pipe
40: cooling condenser
50: Ultrasonic generator
60: Reception means
70: Siphon tube
80: collection means

Claims (5)

(b) a step of extracting an active ingredient by irradiating a mixture of a natural product and an extraction solvent with an ultrasonic wave to extract the active ingredient; (c) And (d) lyophilizing the concentrated active ingredient to remove the extraction solvent. The method for manufacturing hair restraint or hair growth promoting composition according to claim 1, The method according to claim 1, wherein the extraction solvent in the mixing step is heated from an external heater and then condensed in a cooling condenser and supplied to an extractor. [3] The method of claim 1, wherein the extracting step is performed while heating the extraction solvent at room temperature or below the boiling point of the extraction solvent. [Claim 4] The method according to claim 1, wherein the extraction solvent is a mixture of one or more solvents selected from the group consisting of purified water, methanol, ethanol, propanol, butanol, methyl acetate, ethyl acetate, hexane, diethyl ether and dichloromethane Or a hair growth promoting composition. [Claim 2] The method of claim 1, further comprising a stabilization step of liposomizing the active ingredient dried after the step of drying the active ingredient.

Images