Journal of the Korean Applied Science and Technology (한국응용과학기술학회지)

The Korean Society of Applied Science and Technology (한국응용과학기술학회)
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A Study on the Pharmaceutical & Chemical Characteristics and Analysis of Natural Curcumin Extract

천연 강황 추출물의 약리, 화학적 특성 및 분석

  • Sung, Ki-Chun (Department of Chemical Engineering, Daejin University)
  • 성기천 (대진대학교 공과대학 화학공학과)
  • Received : 2011.11.10
  • Accepted : 2011.12.05
  • Published : 2011.12.30
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Abstract

Natural Curcumin belongs to Zingiber Officinale Roscoe was known to possess natural odor, natural taste, natural color, and other pharmaceutical & chemical characteristics. Natural Curcumin extract was made to use ethanol as a solvent was to show a yellow color having state of solid powder and an active component. Natural Curcumin extract tested pharmaceutical & chemical experiment to dilute in curcumin 1%-water solution. Curcumin extract tested antimicrobial experiment using microbe, and tested dye experiment using fiber. Some conclusions in the result of characteristics experiment was obtained as follow. The result of antimicrobial experiment showed that the growth of staphylococcus aureus (ATCC-001) and aspergillus niger (ATCC-002) as microbes decreased according to passage of time. This phenomenon could know that Curcumin compoment showed influence to antimicrobial effect. Also, the result of dye experiment showed that cotton and sick with fiber dyeing dyed in direction of dark yellow color. This phenomenon could know that Curcumin extract showed influence to dyeing effect in observation of optical electron microscope(OEM.) The result of instrument analysis ascertained inorganic components of K(53.300ppm), Na(1.150ppm), Ca(0.711ppm), Ti(0.351ppm), Li(0.256ppm), Cu(0.233ppm) etcs from Curcumin component with ICP/OES, and ascertained organic components of propanoic acid(1.859), benzene(10.814), phenol(14.194) etcs from Curcumin component with GC/MSD.

Keywords

References

  1. Y. M. Cha, Influence that Safflower and Turmeric Affects on Hair Dyeing, Thesis of Master's Degree, Department of Beauty Science, Graduated School, Kwang Ju Girl University, 4 (2009).
  2. Y. J. Cho, S. S. Kim, and S. J. Yoon, Inhibition against Helicobacter Pylori and Biological Activities by Rue Extracts, J. Korean SOC. Food SCI. Natr., 34, 460-465 (2005). https://doi.org/10.3746/jkfn.2005.34.4.460
  3. M. K. Kim, Inhibition Mechanism of Age-Related NF-KB/PPAR by Zingerone in Ginger Component, Thesis of Master's Degree, Department of Food Nutrition, Graduated School, Busan University, 4 (2007).
  4. K. C. Sung, A Study on the Pharmaceutical Characteristics and Analysis of Natural Ginger Extract, J. of the Korean Oil Chemist's SOC., 27(3), 2 (2010).
  5. Il Wul Book, Component and Use of Medical Plant, Science Dictionary Publishing Company, Il Wul Publishing Company, Il Wul Publication, 17 (1999).
  6. Y. M. Cha, Influence that Safflower and Turmeric Affects on Hair Dyeing, Thesis of Master's Degree, Department of Beauty Science, Graduated School, Kwang Ju Girl University, 5 (2009).
  7. K. W. Lee, Antibacterial Acticity of the Zingiberaceae Plant Extract against Micro Organisms, Thesis of Master,s Degree, Biotechnology Engineering, Graduated School, Yonsei University 11 (2005).
  8. B. S. Lee, Extraction Process of Gingerol from Ginger by Ultrasonication and It's Antioxidant Effect, Thesis of Master's Degree, KDMT 120065-121452, Biology Process Engineering, Graduated School, Cheon Buk University 9 (2006).
  9. Y. B. Lee, Y. S. Kim, and C. R. Ashmore, Antioxidant Property in Ginger Rhizome and It's Application to Meat Products, J. of Korean Food SCI., 51(1), 20 (1986).
  10. Y. J. Surh, Molecular Mechanisms of Chemoprevertive Effects of Selected Dietary and Medical Phenolic Substance, Mutat Res., 428(1), 205 (1990).
  11. Y. K. Lee and S. Y. Ahn, Oxidation Prevention Effect of Gingerol, J. of Korean Food SCI. Technol., 17(2), 55 (1985).
  12. K. C. Sung, A Study on the Pharmaceutical and Chemical Characteristics of Natural Artemisia Extract, J. of the Korean Oil Chemist's SOC., 26(1), 309 (2003).
  13. O. H. Kang, O. S. Baek, Y. A. Choi, and T. H. Kim, Curcumin Inhibits Protease-Activated Receptor-2-and-4-Mediated Mast Cell Activation, Clin Chim Acta, 338(1-2), 135-141 (2003). https://doi.org/10.1016/j.cccn.2003.08.015
  14. B. B. Aggarwal, A. Kumar, and A. C. Bharti, Anticancer Potential of Curcumin : Preclinical and Clinical Studies, Anticancer Res., 23(1A), 263 (2003).
  15. M. Iqbal, S. D. Sharma, Y. Okazaki , M. Fujisawa, and S. Okada, Dietary Supplementation of Curcumin Enhances Antioxidant and Phase II Metabolizing Enzymes in DDY Male Mice : Possible Role in Protection against Chemical Carcinogenesis and Toxicity, Pharmacol. Toxicol., 92(1), 33 (2003). https://doi.org/10.1034/j.1600-0773.2003.920106.x
  16. W. H. Chan, C. C. Wu, and J. S. Yu, Curcumin Inhibits UV-Irradiation-Induced Oxidatives Stress and Apoptotic Biochemical Changes in Human Epidermoid Carcinoma A431 Cells, J. Cell Biochem., 90(2), 327 (2003). https://doi.org/10.1002/jcb.10638
  17. C. Gao, Z. Ding, B, Liang, and N. Chen, Study on the Effects of Curcumin on Angiogenesis, Zhong Yao Cai., 26(7), 499 (2003).
  18. T. H. Leu and M. C. Maa, The Molecular Mechanisms for the Antitumorigenic Effect of Curcumin, Curr. Med. Chem. Anti-Canc. Agents, 2(3), 357 (2002). https://doi.org/10.2174/1568011024606370
  19. G. S. Lee, S. H. Kim, and S. R. Hong, Experiment of Microbiology, Bureau of Publication, Won Kwang University, 41 (1992).
  20. S. H. Lee and M. Y. Chun, Experimental Investigation on the Dyeing of Korean Tradition Nature Dye, KINX 2008114160, 5 (2008).

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