 |
 |
 |
 |
 |
 |
Sains Malaysiana 39(5)(2010): 747–752
Kesan Pengekstrakan Terhadap
Kandungan Polifenol, Aktiviti Antipengoksida dan pH Ekstrak Pegaga (Centella
asiatica)
(Effect of Extraction on Polyphenol Content,
Antioxidant Activity and pH in Pegaga (Centella asiatica) Extract)
Ong Hooi Yung, Mohamad Yusof Maskat* & Wan Aida Wan Mustapha
Program Sains Makanan, Pusat
Pengajian Sains Kimia dan Teknologi Makanan
Fakulti Sains dan Teknologi, Universiti
Kebangsaan Malaysia
43600 Bangi, Selangor D.E., Malaysia
Received: 29 July 2008 / Accepted: 23
March 2010
ABSTRAK
Kajian ini
telah dijalankan untuk menentukan kesan suhu (50, 70 dan 90 oC) dan
masa didihan (15, 30 dan 90 minit) semasa pengekstrakan pegaga serta
membandingkan kesan pengekstrakan dengan kaedah haba dan tanpa haba. Parameter
yang diukur adalah kandungan polifenol jumlah, aktiviti antipengoksida dan pH.
Hasil menunjukkan bahawa dengan peningkatan suhu dan masa pendidihan, kandungan
jumlah polifenol dan aktiviti antipengoksida meningkat secara ketara melainkan
pada suhu pengekstrakan 90 oC untuk aktiviti antipengoksida.
Kandungan jumlah polifenol dan aktiviti antipengoksida dalam sampel pegaga yang
terhasil tanpa haba adalah lebih rendah berbanding sampel yang terhasil dengan
melibatkan haba. pH ekstrak pegaga meningkat dengan peningkatan suhu
pengekstrakan. Sebaliknya, pH ekstrak pegaga semakin menurun dengan peningkatan
masa pengekstrakan.
Kata kunci:
Kesan suhu; masa didihan; pegaga; pengekstrakan; tanpa haba
ABSTRACT
This study
was carried out to determine the effect of temperature (50, 70 and 90 oC)
and heating time (15, 30 and 90 minutes) during the extraction of pegaga and
also to compare the effect of extraction using heat and non-heat methods.
Parameters measured were total polyphenol content, antioxidant activity and pH.
Results showed that with an increase in boiling temperature and time, total
polyphenol content and antioxidant activity increased significantly except for
extraction temperature of 90 oC for antioxidant activity. The total
polyphenol content and antioxidant activity from samples prepared without heat
treatment were significantly lower than extracts prepared using heat treatment.
The pH of pegaga extract increased with increase in extraction temperature.
However, pH of pegaga extract decreased with the increase in extraction time.
Keywords: Effect
of temperature; extraction; heating time; non-heat; pegaga;
REFERENCES
Abdul Hamid, A., Md. Shah, Z., Muse, R. & Mohamed, S. 2002.
Characterisation of antioxidative activities of various extracts of Centella
asiatica (L) Urban. Food Chemistry 77: 465-469.
Brantner, A., Males, Z., Pepeljnjak, S. & Antolic, A. 1996.
Antimicrobial activity of Paliurus spina-christi mill. Journal of
Ethnopharmacol. 52: 119-122.
Chen, H.M., Muramoto, K., Yamauchi, F. & Nokihara, K. 1996.
Antioxidant activity of design peptides based on antioxidative peptide isolated
from digest of a soybean protein. Journal of Agricultural and Food Chemistry 44: 2619-2623.
Cox, D.N., Rajasuriya, S., Soysa, P.E., Gladwin, J. &
Ashworth, A. 1993. Problems encountered in the community based production of
leaf concentrate as a supplement for pre-school children in Sri Lanka. International
Journal of Food Science and Nutrition 44:123-132.
Goh, S.H., Chuah, G.H., Mok, J.S.L. & Soepadmo, E. 1995. Malaysian
Medicinal Plants for the Treatment of Cardiovascular Diseases. Kuala
Lumpur: Pelanduk.
Jaganath, I.B. & Ng, L.T. 2002. Herbs: The Green Pharmacy
of Malaysia. Kuala Lumpur: Vinpress.
Jayaprakasha, G.K., Singh, R.P. & Sakariah, K.K. 2001.
Antioxidant acivity of grape seed (Vitis vinifera) extracts on
peroxidation models in vitro. Journal of Food Science 73:
285-290.
Jonsson, L. 1991. Thermal degradation of carotenoids and
influence on their physiological functions. Dlm. Nutritional and
Toxicological Consequences of Food Processing, disunting oleh M. Friedman.
New York: Plenum Press.
Kan, W.S. 1986. Pharmaceutical Botany. Taiwan: National
Research Institute of Chinese Medicine.
Lee, S.C., Kim, J.H., Jeong, S.M., Kim, D.R., Ha, J.U. &
Nam, K.C. 2003. Effect of far-infrared radiation on the antioxidant activity of
rice hulls. Journal of Agricultural and Food Chemistry 51: 4400-4403.
Madavi, D.L. & Salunkhe, D.K. 1995. Toxicological aspects of
food antioxidant. Dlm. Food Antioxidants, disunting oleh Madhavi, D.L.,
Deshpande, S.S. & Salunkhe, D.K. New York: Marcel Dekker.
Montgomery, D.C. 1991. Design and Analysis of Experiments. 3rd Edition. Pp. 201-210. New York: John Wiley & Sons.
Oyaizu, M. 1986. Studies on products of browning reaction:
Antioxidative activity of products of browning reaction prepared from
glucosamine. Journal of Nutrition 44: 307-315.
Peleg, H., Naim, M., Rouseff, R.L. & Zehavi, U. 1991.
Distribution of bound and free polyphenolic acids in oranges (Citrus sinesis)
and grapefruits (Citrus paradise). Journal of the Science Food and
Agricultural 57: 417-426.
Rice-Evans, C.A., Miller, N.J. & Paganga, G. 1997.
Antioxidant properties of phenolic compounds. Trends in Plant Science 2(4):
152-159.
Rivas, A., Rodrigo, D., Martinez, A., Barbosa-Canovas, G.V.
& Rodrigo, M. 2006. Effect of PEF and heat pasteurization of
physical-chemical characteristics of blended orange and carrot juices. LWT-Food
Science and Technology 39: 1163-1170.
Singlenton, V.L. & Rossi, J.A. 1965. Colorimetry of total
phenolics with phosphomolibdic phosphotungstic acid reagent. American
Journal of Enology Viticulture 16: 144-158.
Velioglu, Y.S., Mazza, G., Gao, L. & Oomah, B.D. 1998.
Antioxidant activity and total phenolics in selected fruits, vegetables and
grain products. Journal of Agricultural and Food Chemistry 46:
4113-4117.
Wanasundara, U.N. & Shahidi, F. 1998. Antioxidant and
pro-oxidant activity of green tea extract in marine oils. Food Chemistry 63:
335-342.
Yildirim, A., Mavi, A. & Kara, A.A. 2001. Determination of
antioxidant and antimicrobial activities of Rumaxs crispus L. extracts. Journal
of Agricultural and Food Chemistry 49: 4083-4089.
Zainol, M.K., Abd-Hamid, A., Yusof S. & Muse, R. 2003.
Antioxidative activity and total phenolic compounds of leaf, root and
petiole of four accessions of Centella
asiatica (L.) Urban. Food Chemistry 81:
575-581.
*Corresponding author; email: maskatmy@yahoo.com
|
|||
|
