INTRODUCTION

In January 2009, Ministry of Health and Welfare selected the cosmetic industry among high value added healthcare industries with pro-environmental green technology as a promising sector (as of Jan. 15, 2009), and she supports with the regulatory enhancement of Cosmetic Law and export promising industry activation to this industry where shows the lipstick effect that enjoys the prosperous condition even in the slack time. In fact, Sulhwasoo, which is the sole brand of herbs, has recorded the sales over KRW500 billion every year achieving the amazing performance as a single brand. The domestic herb cosmetic market has been expanding rapidly with the size of KRW1.2 trillion. Recently, the local cosmetics show the increasing trend every year and are anticipated to export more actively penetrating the worldwide market with Korean wave fad by the export enhancing policy of MOHWF since 2000. Hence, the technical development of skin care cosmetics has been enhanced to meet the needs of the consumers together with the increase of interests in Korean female skin aging and skin care, where the rate becoming aging society is the fastest. Therefore, Sanchonggun, Hadong-gun, and Hamyang-gun near Mt.Jiri in South Kyungsang Province are fundamental locations for traditional herbs cultivation, traditional agricultural products and herbs producing are as, and the beneficial geographical location to industrialize the herb materials and cosmetics.

THEORETICAL BACKGROUND

Safflower (Carthamustinctorius L.) which has been applied to this study as the major herbal medicine plant is growing in Mt. Jiri. It is a yearly herbaceous plant in Asteraceae originated from Egypt or Mesopotamia region and being cultivated in Korea, China, Japan, and so on. Both its flower and seed are used for food or medicinal purpose. The flower of safflower consists of 0.3 - 0.6% carthamin and 20 - 30% safflower yellow, and especially carthamin, which is the main ingredient of safflower, has been called as red pigment and utilized as the natural coloring matter since long time before. There were reports as the studies on the physiological activity of safflower that carthamin, a red pigment of safflower, had lots of polyphenol compound and effects on the anti-oxidizing activation and anti-aging.1-3 This study aims to validate the effectiveness by DPPH assay in vitro on the anti-oxidizing effect of safflower extract from safflower, and to conduct the clinical trial with mask pack sample product absorbed the mixture of safflower extract and aroma oil, which may have the efficacy to improve the wrinkle.

EXPERIMENTAL

Although active ingredient from safflower, IUK (safflower extract) is easily extracted by alcohols, it has the disadvantage of lower extract productivity than organic solvent if it is used as the source material of cosmetics. Adding 100 times of distilled water to 20 g sample of cultivated safflower, we extracted and filtered for 4 hours at 95 ℃ attaching the reflux condenser, performed decompression enrichment at 60 ℃ with this remaining solution, purified and extracted via liquidliquid extraction and open column chromatography with butanol solvent, and then utilized this to anti-oxidizing test after lyophilization. The properties of the extract are shown in Table 1. Also, HPLC (Aglent 1100, USA) was used for qualitative analysis of polyphenol compound of the test material, IUK (safflower extract). This was compared and identified with the standard polyphenol cocktail (Sigma) measured by absorbance at 280 nm utilizing column (C18, zorbox, 46 × 150 mm, 5 micrometer) under the isocratic condition with 10% ethanol solvent. Analysis results were shown in Figure 1.

Table 1.Physicochemical properties of safflower extract

Fig. 1.HPLC analysis result of test material, IUK (mAU/min).

Anti-oxidizing effect test (DPPH assay)

The anti-oxidizing test was performed in vitro classifying by concentration after dissolving the lyophilized powder into the solvent. The main facilities and test materials for the antioxidizing test of safflower extract were as follows; test equipment for the measurement was ELISA Reader system (power wave, bio-tek inc, Japan), test material were DPPH (1,1-diphenyl-2-picrylhydrazil), 96 well, pipette, Blue tip, Yellow tip, etc., and the test material was labeled as IUK (safflower extract). DPPH reactant tested by DPPH method is the colored radical, and it can directly confirm the capacity to remove the radical of the sample. First, the sample is dissolved into the solvent. 20 uL of liquid sample is put into 96 well and mixed with 180 uL of 100 uM DPPH. Incubate for 30 minutes at the normal temperature. Assess the remaining DPPH amount measured by absorbance at 540 nm. Demonstrate anti-oxidizing effect of each hydrolysate with lowered ratio compared to absorbance of control. The assessment method is to determine the existence of anti-oxidizing function through observing the elimination rate of DPPH free radical by the sample. The calculation method is (% inhibition) = [1-Absorbance of test material/Absorbance of control] × 100, and the analyzed standard values by statistical process were shown as Mean ± SD.4-6

Clinical trial with cocktail products

The sample product was produced with mask type by mixing safflower extract (Carthamustinctorius (safflower) flower extract) as a main ingredient and thunberg extract, Portulacaoleracea extract, aroma oil (neroli, lavender, camomile, and tea tree) as the cosmetic compound, and absorbing this into non-woven fabric. Anti-aging improvement effect of the cosmetic compound prescribed with the above method was monitored in the human-beings with the following method.

First, 19 male and female adults who complain xeroderma or consider being dry skin among the volunteers were selected and applied the mask pack on the face for 30 minutes before sleep once a day for 10 days. The pictures of their skin conditions were compared before and after the application in 10 days after applying mask pack. In addition, the equipment used for clinical trial is DSLR Camera (NS10, Samsung, Korea). It maintained the same light in the designated dark room to keep the conditions before and after the clinical trial and it was preset the picture angle with stanchion to keep the same conditions of picture angle and distance. Also, the subjects were evaluated by the survey form for the history taking on the improvement of wrinkle at the completion of the trial.

RESULTS AND DISCUSSION

The test material IUK (safflower extract) was shown the meaningful effect on the elimination of DPPH free radical in the anti-oxidizing test. All test values were significant compared to the control (p < 0.01). Upon the test result of IUK to eliminate DPPH free radical in a way of concentration dependent within the range of 0.1 to 100 ppm, 77% of free radical elimination rate at maximum could be observed at 100 ppm concentration. From the assessment result of IUK anti-oxidizing effect by free radical elimination test, used IUK demonstrated to decrease DPPH free radical significantly within the range of 5 - 100 ppm as shown in Figure 2. After all, this is considered that safflower extract, which has excellent anti-oxidizing effect, may enhance the moisturizing capacity as well as the wrinkle improvement capacity of human facial skin.7-11

In the facial clinical trial, as shown in Table 2 and Figure 3, 4 out 19 did not show the remarkable improvement, while the other 15 showed more than 70% of improvement rate, and the clinical results also showed the improvement of wrinkle generation inhibition visually as in the pictures, upon the clinical trial and history taking results utilizing mask pack which absorbed the mixture of cosmetic compound, including safflower extract and aroma oil (neroli, lavender, camomile, and tea tree), into non-woven fabric. As a result, the recipe of the above cosmetic compound is considered to have the efficacy on the improvement of skin wrinkle since it has an excellent anti-oxidizing effect partially on the skin.

Fig. 2.The effect of free radical scavenging activity in DPPH assay. IUK: symbols for carthamus tinctorius flower extract. DMSO (dimethyl sulfoxide) : negative control.

Table 2.Assessment results by history taking from the subjects on the improvement of wrinkle

Fig. 3.Change of skin wrinkle condition about 10 days after using mask pack.

This means that skin application of cosmetic compound with the active ingredient of safflower extract, a natural plant extract, can maintain the skin condition young and lively by enhancing excellent anti-oxidizing effect and skin moisturizing capacity, to the dry and loosened skin due to lowered moisturizing capacity, that is rough and dry skin, which is a major cause of skin aging.

CONCLUSION

From the anti-oxidizing test results of free radical elimination rate with test material IUK, more than 70% was eliminated within the range of 50 - 100 ppm compared to the control. Since high concentration safflower extract contains large amount of polyphenol compound as published before, the active ingredient together with NMF element in the skin are considered to keep the skin moisturizing capacity relatively maintaining the strong bonding due to chemical hydrogen binding. Also in the clinical trial for human-beings, overall the skin tone of the subjects showed brighter after the usage upon the thorough analysis of pictures before and after in Figure 3, after continuous use of mask pack for 10 days, which is absorbed the mixture of cosmetic compound.

It may be due to the improvement of circulation by even penetration of active ingredients such as collagen including herb extract to the skin as well as glossy skin with relieving stress from mental stabilization and resolving tension, by application of total facial mask pack for 30 minutes every day. Especially, the depth of Chinese character eight shaped long wrinkle by the nose showed relatively lessened visually after using this, which seemed to be a typical phenomenon of improvement for wrinkle generation, and surely this will contribute the improvement of technology development for anti-aging cosmetics if further studies are conducted.