 |
 |
 |
 |
 |
 |
Sains
Malaysiana 49(1)(2020): 145-154 http://dx.doi.org/10.17576/jsm-2020-4901-18
Antioxidant and Anti-Diabetic Status of
Popular Malay Health Tonic Consumed for Wellness: Help or Hype?
(Status Antioksidan dan Anti-Diabetik
dalam Pengambilan Tonik Kesihatan Popular Melayu untuk Kesejahteraan: Membantu
atau Mudarat?)
MOHD
NAZRI ZAYAPOR1, AMINAH ABDULLAH2 & WAN AIDA WAN
MUSTAPHA3*
1Center of Promotion and Business Development, MARDI
Johor Baharu, Lot 6313, Jalan Taruka off Jalan Datin Halimah, 81200 Johor
Baharu, Johor Darul Takzim, Malaysia
2Natural Medicine Research Centre, Level 7, Blok I,
Bangunan MKN Embassy Techzone, Jalan Teknokrat 2, 63000 Cyberjaya, Selangor
Darul Ehsan, Malaysia
3Center for Biotechnology and Functional Food, Faculty
of Science and Technology, Universiti Kebangsaan Malaysia, 43600 UKM Bangi,
Selangor Darul Ehsan, Malaysia
Diserahkan:
24 April 2019/Diterima: 17 Oktober 2019
ABSTRACT Contemporary Malay health tonics labeled
as botanical drinks are advertised in the Malaysian market as effective
therapeutic supplements toward improving consumer health. The therapeutic
claims associated with high antioxidants are based on the herbal
ingredients used, yet unproven by scientific evidence. Moreover,
they are mostly sweetened with sugar, which may arise the potential
of diabetic risk. Thus, a dire clarification on the potential antioxidant
status and diabetic risk of these products is essential to nullify
over claims. Eight
commercial botanical drinks that serve as health tonics were selected
based on their advertisement popularity and traditional medicine
sellers' interview feedbacks. The selected tonics were mutually
compared with a green tea (DGT01) as the benchmark for their total
phenolic content (TPC); antioxidant activities [the 2,2-diphenyl-1-picrylhydrazyl
(DPPH) radical scavenging inhibition capacities, IC50; Ferric ion
reducing antioxidant power (FRAP); and Oxygen radical absorbance
capacity (ORAC)], anti-diabetic property through the α-glucosidase
inhibition (AGI) and as well as the sugar content. The results were
mapped for variations using Principal Component Analysis (PCA).
Three out of 8 health tonics (NS12, SK53, and MU13) has approximately
3 to 4-fold, 1.1-fold and 2.5-fold higher in TPC, ORAC, and FRAP
reducing capacities, respectively. Only NS12 and SK53 showed strong
AGI (>80% inhibition). Three tonics, NS12, SK53, and HS06 exhibited
precaution levels of sugar with more than 180 mg of total sugars
per serving. From the PCA, DGT01 was dissociated from any tonic.
NS12 and SK23 were closely related in terms of antioxidant and AGI
activities. Although
they showed promising therapeutic benefits due to high antioxidant
activities and low diabetic risk, the tonics' efficacies and safety
are still dubious shall be verified by reliable clinical trials.
The selection of a health tonic shall not only be based on multi
antioxidant-rich ingredients but low in sugar for a healthier choice.
Keywords: Diabetes
mellitus; green tea; polyphenol; spices; tonic
ABSTRAKTonik kesihatan Melayu
kontemporari yang dilabelkan sebagai minuman botani diiklankan dalam pasaran
Malaysia sebagai supplemen terapeutik yang berkesan bagi mempertingkatkan kesihatan
konsumer. Akuan terapeutik ini seringkali dikaitkan dengan kandungan
antioksidan yang tinggi berdasarkan ramuan rempah dan herba yang digunakan.
Walau bagaimanapun, akuan tersebut jarang sekali disokong oleh bukti saintifik.
Oleh itu, suatu pencerahan mengenai potensi status antioksidan dan risiko
diabetik produk ini amat perlu dilakukan bagi membatalkan akuan berlebihan ini.
Lapan tonik kesihatan dipilih berdasarkan populariti di media massa dan hasil
daripada temu bual rawak dengan penjual ubatan tradisi. Tonik yang terpilih
dibandingkan dengan teh hijau untuk kandungan fenolik keseluruhan (TPC),
kekuatan penghapus radikal bebas DPPH IC50, kapasiti penurunan FRAP,
kapasiti penyerapan radikal oksigen (ORAC), AGI dan juga kandungan gula. Jika
dibandingkan dengan DGT01, 3 daripada 8 tonik kesihatan (NS12, SK 53 dan MU 13)
masing-masing menunjukkan kira-kira 3 ke 4-kali ganda, 1.1-kali ganda dan
2.5-kali ganda lebih tinggi di dalam TPC, ORAC dan kapasiti FRAP. Hanya NS12
dan SK53 sahaja yang menunjukkan AGI yang tinggi (>80% perencatan). Tiga
tonik, NS12, SK53 dan HS06 menunjukkan paras gula yang membimbangkan dengan
melebihi 180 mg jumlah gula (jumlah hasil fruktosa, glukosa dan sukrosa) setiap
hidangan. Daripada PCA, DGT01 terasing daripada sebarang tonik. NS12 dan SK23
menunjukkan perkaitan hampir dalam aktiviti antioksidan dan antidiabetik. Walaupun kedua-dua tonik menunjukkan potensi
manfaat terapeutik disebabkan aktiviti antioksidan dan risiko diabetik yang
rendah, tetapi efikasi dan keselamatannya masih belum jelas dan perlukan
kesahihan dengan percubaan klinikal. Pemilihan tonik kesihatan seharusnya tidak
bersandarkan kepada beragam ramuan kaya-antioksida semata-mata tetapi rendah
gula untuk pilihan yang lebih sihat.
Kata kunci: Diabetes
mellitus; polifenol; rempah ratus; teh hijau; tonik
RUJUKAN
Amarra, M.S.V., Khor, G.L. & Chan, P. 2016. Intake of added sugar in
Malaysia: A review. Asia Pacific Journal of Clinical Nutrition
25(2): 227-240. doi:10.6133/apjcn.2016.25.2.13. Anissi, J., El Hassouni, M., Ouardaoui, A. & Sendide, K. 2014. A
comparative study of the antioxidant scavenging activity of green tea, black
tea and coffee extracts: A kinetic approach. Food Chemistry 150: 438-447.
doi:10.1016/j.foodchem.2013.11.009.
Apak, R., Gorinstein, S., Böhm, V., Schaich, K.M., Özyürek, M. &
Güçlü, K. 2013. Methods of measurement and evaluation of natural antioxidant
capacity/activity (IUPAC Technical Report). Pure Appl. Chem. 85(5): 957-998.
doi:10.1351/PAC-REP-12-07-15
Bellesia, A., Verzelloni, E. & Tagliazucchi, D. 2015. Pomegranate
ellagitannins inhibit α-glucosidase activity in vitro and reduce starch digestibility under simulated
gastro-intestinal conditions. International Journal of Food Sciences and
Nutrition 66(1): 85-92. doi:10.3109/09637486.2014.953455.
Boath, A.S., Stewart, D. & McDougall, G.J. 2012. Berry components
inhibit α-glucosidase in vitro:
Synergies between acarbose and polyphenols from black currant and rowanberry. Food
Chemistry 135(3): 929-936. doi:10.1016/j.foodchem.2012.06.065.
Cao, G., Alessio, H.M. & Cutler, R.G. 1993. Oxygen-radical absorbance
capacity assay for antioxidants. Free Radical Biology and Medicine 14(3): 303-311. doi:10.1016/0891-5849(93)90027-R.
Forester, S.C. & Lambert, J.D. 2011. The role of antioxidant versus
pro-oxidant effects of green tea polyphenols in cancer prevention. Molecular
Nutrition & Food Research 55(6): 844-854. doi:10.1002/mnfr.201000641.
Götti, R.P., Melzer, J. & Saller, R. 2014. An approach to the concept
of tonic: Suggested definitions and historical aspects. Forschende
Komplementärmedizin/Research in Complementary Medicine 21(6): 413-417.
Gulati, V., Harding, I.H. & Palombo, E.A. 2012. Enzyme inhibitory and
antioxidant activities of traditional medicinal plants: Potential application
in the management of hyperglycemia. BMC Complementary and Alternative
Medicine 12: 77. doi:10.1186/1472-6882-12-77.
Han, M., Zhao, G., Wang, Y., Wang, D., Sun, F., Ning, J., Wan, X. &
Zhang, J. 2016. Safety and anti-hyperglycemic efficacy of various tea types in
mice. Scientific Reports 6(4): 31703. doi:10.1038/srep31703.
Kasote, D.M., Katyare, S.S., Hegde, M.V. & Bae, H. 2015. Significance
of antioxidant potential of plants and its relevance to therapeutic
applications. International Journal of Biological Sciences 11(8):
982-991. doi:10.7150/ijbs.12096.
Kim, Y.A., Keogh, J.B. & Clifton, P.M. 2016. Polyphenols and glycemic
control. Nutrients 8(1): 1-27. doi:10.3390/nu8010017.
Kodama, D., Gonçalves, A., Lajolo, F. & Genovese, M. 2010. Flavonoids,
total phenolics and antioxidant capacity: Comparison between commercial green
tea preparations. Ciência e Tecnologia de Alimentos 30(4): 1077-1082.
doi:10.1590/S0101-20612010000400037.
Magwaza, L.S. & Opara, U.L. 2015. Analytical methods for determination
of sugars and sweetness of horticultural products-A review. Scientia
Horticulturae 184: 179-192. doi:10.1016/j.scienta.2015.01.001.
Marjanović, A., Đeđibegović, J.,
Brčaninović, M., Omeragić, E., Čaklovica, F., Dobrača,
A. & Šober, M. 2015. Antioxidant potential of selected traditional
plant-based beverages in Bosnia and Herzegovina. Bulletin of the Chemists
and Technologists of Bosnia and Herzegovina 45(2015): 2013-2016.
Montesano, D., Cossignani, L., Giua, L., Urbani, E., Simonetti, M.S. &
Blasi, F. 2016. A simple HPLC-ELSD method for sugar analysis in goji berry. Journal
of Chemistry 2016: 6271808. doi:10.1155/2016/6271808.
Moreira, D.d.L., Teixeira, S.S., Monteiro, M.H.D., De-Oliveira, A.C.A.X.
& Paumgartten, F.J.R. 2014. Traditional use and safety of herbal medicines. Brazilian Journal of Pharmacognosy 24(2): 248-257.
doi:10.1016/j.bjp.2014.03.006.
Musa, K.H., Abdullah, A., Jusoh, K. & Subramaniam, V. 2011.
Antioxidant activity of pink-flesh guava (Psidium
guajava L.): Effect of extraction techniques and solvents. Food
Analytical Methods 4(1): 100-107. doi:10.1007/s12161-010-9139-3.
Odumosu, P.O. & Dayol, A.D. 2015. Determination of the sugar content
in fruit flavoured drinks by HPLC. Journal of Pharmacy and Bioresources 12(2): 144-149. doi:10.4314/jpb.v12i2.9.
Ostan, R., Bene, M.C., Spazzafumo, L., Pinto, A., Donini, L.M., Pryen, F.,
Charrouf, Z., Valentini, L., Lochs, H., Bourdel-Marchasson, I., Blanc-Bisson,
C., Buccolini, F., Brigidi, P., Franceschi, C. & d'Alessio, P.A. 2016.
Impact of diet and nutraceutical supplementation on inflammation in elderly
people. Results from the RISTOMED study, an open-label randomized control
trial. Clinical Nutrition 35(4): 812-818.
doi:10.1016/j.clnu.2015.06.010.
Pontis, J.A., Antonio, L., Alves, M., José, S. & Flach, A. 2014.
Color, phenolic and flavonoid content, and antioxidant activity of honey from
Roraima, Brazil. Food Science and Technology 34(1): 69-73.
Ravi, K., Jose, R., Sumitha, S.K., Johny, T., Krishnaveni, K., Shanmuga
Sundaram, R. & Sambath Kumar, R. 2017. An overview of treatment challenges
and the role of herbal antioxidants in diabetes mellitus. Research Journal
of Pharmacy and Technology 10(8): 2765-2770.
doi:10.5958/0974-360X.2017.00490.5.
Ray, A., Gulati, K. & Anand, R. 2016. Stress, adaptogens and their
evaluation: An overview. Journal of Pharmacological Reports 1(2): 1-10.
Shahidi, F. & Ambigaipalan, P. 2015. Phenolics and polyphenolics in
foods, beverages and spices: Antioxidant activity and health effects-A review. Journal
of Functional Foods 18(7): 820-897. doi:10.1016/j.jff.2015.06.018.
Singleton, V.L., Orthofer, R. & Lamuela-Raventós, R.M. 1998. Analysis
of total phenols and other oxidation substrates and antioxidants by means of
folin-ciocalteu reagent. Methods in Enzymology 299: 152-178.
doi:10.1016/S0076-6879(99)99017-1.
Taguchi, C., Fukushima, Y., Kishimoto, Y., Suzuki-Sugihara, N., Saita, E.,
Takahashi, Y. & Kondo, K. 2015. Estimated dietary polyphenol intake and
major food and beverage sources among elderly Japanese. Nutrients 7(12):
10269-10281. doi:10.3390/nu7125530.
Tsai, W.H., Yang, C.C., Li, P.C., Chen, W.C. & Chien, C.T. 2013.
Therapeutic potential of traditional Chinese medicine on inflammatory diseases. Journal of Traditional and Complementary Medicine 3(3): 142-151.
doi:10.4103/2225-4110.114898.
Widowati, W., Herlina, T., Ratnawati, H., Constantia, G., Deva, I.D.G.S.
& Maesaroh, M. 2015. Antioxidant potential of black, green and oolong tea
methanol extracts. Biology Medicine & Natural Product Chemistry 4(2): 2089-6514.
Zaharudin, N., Staerk, D. & Dragsted, L.O. 2019. Inhibition of
α-glucosidase activity by selected edible seaweeds and fucoxanthin. Food
Chemistry 270(2018): 481-486. doi:10.1016/j.foodchem.2018.07.142.
*Pengarang untuk surat-menyurat; email: wanaidawm@ukm.edu.my
|
|||
|
