KR20130125020A - Composition of functional cosmetics using ecofriendly chamomile extract - Google Patents

Abstract

The present invention relates to a functional cosmetic composition containing a chamomile extract using a supercritical fluid which is an eco-friendly solvent without an organic solvent. The present invention relates to a functional cosmetic composition with superior antioxidation effects because the functional cosmetic composition contains a large amount of polyphenol and flavonoid compared with a chamomile extraction by an existing ethanol extraction.

Description

Composition of Functional Cosmetics using Ecofriendly Chamomile Extract

The present invention relates to a functional cosmetic composition containing a chamomile extract using a supercritical fluid, which is an environmentally friendly solvent that does not use an organic solvent, and has an antioxidative effect with a large amount of polyphenol and flavonoid content as compared to the chamomile extraction method by the conventional ethanol extraction method. Relates to an excellent functional cosmetic composition.

       Many active ingredients are contained in natural substances and many researches have been conducted to extract these active ingredients. The hydrothermal extraction method is used a lot when extracting the active substance from natural substances, but the active substance that is weak to heat may be destroyed by heating up to the break point of water, and the active ingredient which does not dissolve in water has a disadvantage that it cannot be extracted.

        There is an extraction method using an organic solvent as another method for extracting the active ingredient from natural substances, the extraction efficiency is good, but when the process of removing the organic solvent is required, there is a problem of skin side effects due to the remaining organic solvent.

Thus, the present inventors tried to extract the active ingredient from the chamomile extract using supercritical carbon dioxide that can be extracted at low temperatures without using an organic solvent. Since the supercritical extraction method works at low temperature, the active ingredient is not destroyed and there is no problem of skin side effects due to the remaining organic solvent, and it has the advantage of extracting the active ingredient more efficiently, and it is confirmed that the antioxidant effect is good, and the present invention Was completed.

In the present invention, by heating up to the break point of the water, the active material that is weak to heat can be destroyed, and the active ingredient which is insoluble in water cannot be extracted, and reinforces the hydrothermal extraction method, and the skin side effects are caused by the remaining organic solvent. The problem of solvent extraction method was solved using supercritical fluid.

Thus, the present inventors tried to extract the active ingredient from the chamomile extract using supercritical carbon dioxide that can be extracted at low temperatures without using an organic solvent. Since the supercritical extraction method works at low temperature, the active ingredient is not destroyed and there is no problem of skin side effects due to the remaining organic solvent, and it has the advantage of extracting the active ingredient more efficiently, and it is confirmed that the antioxidant effect is good, and the present invention To complete.

In the present invention, the ethanol extraction method and the supercritical carbon dioxide extraction method were used to extract the chamomile extract, respectively. .

     In the present invention, chamomile extracts were obtained using ethanol extraction and supercritical carbon dioxide extraction, polyphenol and flavonoid contents were measured in each chamomile extract, and antioxidant effects were measured.

     Preparation of the ethanol chamomile extract of the present invention is as follows. First, the chamomile leaves are washed with purified water and naturally dried in the shade, and then ground using a grinder. The crushed chamomile leaves are put in ethanol and extracted and filtered three times. The reason for choosing the ethanol extraction method rather than the hot water extraction method or the organic solvent extraction method is that there is a risk that the active ingredient dissolved in water is small in the hot water extraction method and the active ingredient is destroyed by the water which is broken, and the organic solvent has good extraction efficiency, This is because side effects are a concern. The filtrate was concentrated under reduced pressure to obtain a chamomile ethanol extract.

     Preparation of supercritical carbon dioxide chamomile extract of the present invention is as follows. First, the chamomile leaves are washed with purified water and naturally dried in the shade, and then ground using a grinder. Put the crushed chamomile leaves in the reactor and injects carbon dioxide at 38 degrees Celsius to increase the pressure up to 200 atm. The time is maintained for 4 hours, and the pressure is lowered to 1 atmosphere to obtain chamomile extract dissolved in carbon dioxide.

     Supercritical carbon dioxide chamomile extract according to the present invention was shown to be more polyphenol content and flavonoid content, was to complete the present invention was confirmed that can exhibit a better antioxidant effect.

The functional cosmetic composition of the sunscreen of the present invention can be prepared in a conventional lotion or cream formulation. Hereinafter, preferred examples are provided to help understanding of the present invention. However, the following examples are provided to further understand the present invention, and the present invention is not limited by the examples.

Example 1 Preparation of Ethanol Chamomile Extract

The chamomile leaves are washed with purified water, dried naturally in the shade, and then ground to a size of 2-3 cm using a grinder. 1 kg of crushed chamomile was placed in 9 L of ethanol and extracted for 24 hours at 15 to 25 ℃. The extract was filtered using Whatman No. 3 filter paper, and the cooling condenser was concentrated under reduced pressure at 30 to 40 ° C. using an extractor to obtain 40.5 g of ethanol chamomile extract.

Example 1 Preparation of Supercritical Carbon Dioxide Chamomile Extract

The chamomile leaves are washed with purified water, dried naturally in the shade, and then ground to a size of 2-3 cm using a grinder. Put 1Kg of crushed chamomile leaves into a 10L reactor and inject carbon dioxide at 38 degrees Celsius to increase the pressure to 200 atm. The time was maintained for 4 hours and the pressure was lowered to 1 atm to give 43.2 g dissolved in carbon dioxide.

Example 1. Determination of Total Polyphenol Content of Extracts

The contents of ethanol chamomile extract and supercritical chamomile extract polyphenol compounds were measured by modifying the Folin-Denis method. 80 μl of the sample solution dissolved in 1 mg / ml in methanol and 80 μl of Folin-Denis reagent were mixed and reacted for 3 minutes. Then, 80 μl of 10% Na ₂ CO ₃ was mixed and reacted in the dark for 60 minutes. 120 μl was taken and transferred to a 96 well plate, and the absorbance was measured at 700 nm. The standard curve was calculated from polyphenol content using tannic acid as a standard. The total polyphenol content of the ethanol chamomile extract is 1071.5 mg / 100 g, while the total polyphenol content of the supercritical carbon dioxide chamomile extract is 1543.4 mg / 100 g, which has more polyphenol content.

Example 2. Determination of Total Flavonoid Content of Extracts

Flavonoid contents of ethanol chamomile extract and supercritical chamomile extract were measured by modifying the method of Davis et al. 10 μl of the sample solution dissolved in methanol at a concentration of 1 mg / ml, 10 μl of 1N-NaOH, and 200 μl of dietyleneglycol were mixed and reacted at 37 ° C. slide warmer for 60 minutes, and then absorbance was measured at 420 nm. The standard curve was calculated from flavonoid content using the standard rutin. The total flavonoid content of the ethanol chamomile extract was 358.5 mg / 100 g, while the total flavonoid content of the supercritical carbon dioxide chamomile extract was 550.4 mg / 100 g, which has more flavonoid content.

Example 3 Antioxidant Effect Measurement

Superoxidease dismutase (SOD) -like activity, a representative measure of antioxidant effect, was measured. SOD-like activity is measured as follows. Add 0.2 ml of Tris-HCl buffer (pH 8.5) and 0.2 ml of 7.2 mM pyrogallol to 0.2 ml of ethanol chamomile extract and supercritical carbon dioxide chamomile extract as sample solutions, and then vortex mix for 10 seconds. After reacting for 10 minutes at 1 ° C., 1 ml of 1 M HCl was added to stop the reaction, and the amount of pyrogelol oxidized by absorbance at 420 nm was measured. SOD-like activity was expressed by the difference of oxidized pyrogelol in absorbance of the sample addition group and no addition group.

SOD-like activity (%) =

(No additive group pyrogelol amount-Sample addition group pyrogelol amount)

-------------------------------------------------- -× 100

                  Additive-free pyrogelol sheep

The SOD-like activity of ethanol chamomile extract was 65.5%, and supercritical carbon dioxide chamomile extract was 87.6%, which showed much stronger antioxidant effect.

Claims (1)

Functional cosmetic composition containing chamomile extract extracted from chamomile leaves using supercritical carbon dioxide under conditions of 38 degrees Celsius, 200 atmospheres at 198 atmospheres