Oxidative stress plays an important

Oxidative stress plays an important role in initiating ß-cell
damage and insulin resistance (Dong, Li, Zhu, Liu, & Huang,
2012). Antioxidants may prevent the progressive impairment of
pancreatic ß-cell function and thus reduce the occurrence of type
2 diabetes (Song, Manson, Buring, Sesso, & Liu, 2005). It was re-
ported that several phenolic compounds with alpha-glucosidase
activity also had moderate antioxidant activity (Bhandari, Jong-An-
urakkun, Hong, & Kawabata, 2008; Kwon, Apostolidis, & Shetty,
2008; Shobana, Sreerama, & Malleshi, 2009). Hence, the antioxi-
dant activity of the crude extract (20% aqueous methanol), four sol-
vent fractions (hexane, dichloromethane, ethyl acetate and
butanol) and isolated compounds from E. maxima were evaluated
by measuring their ability to scavenge DPPH radicals. The EC50 val-
ues of the crude extract and solvent fractions ranged from 7.43 to
85.77 lg/ml (Table 1). The ethyl acetate fraction exhibited most
prominent DPPH radical scavenging activity with a significant very
low EC50 value (P < 0.05) and AAI of 2.665. AAI > 2.0 is classified as
very strong antioxidant activity and < 0.5 as poor by Scherer and
Godoy (2009). All the phlorotannins tested had strong antioxidant
activities on DPPH radicals with EC50 values ranging from 0.008 to
0.128 lM (Table 2). In addition, the EC50 value of eckol was
0.008 lM indicating a stronger activity than that of the positive
controls, ascorbic acid and BHT used in this study (Table 2).