We investigated the effect of dietary supplemented with roasted green cotyledon of black soybean (RBB) on susceptibility of low density lipoprotein (LDL) to oxidative modification of normal cholesterolemic subjects. Compare the antioxidant activity and contents of green cotyledon of black soybean (GBB) before and after roasted, such as inhibition of malondialdehyde (MDA) production, anthocyanin, genistein, vitamin E, glutathione peroxidase (GSHPx) and superoxide dismutase ( SOD) contents. Seventeen healthy men intake 40 g of roasted green cotyledon of black soybean every day for 3 weeks. Fasting blood was drawn and LDL was isolated for LDL lag phase determination before, after and stop of the ingestion for one month in vivo, with the plasma cholesterol,triglyceride (TG) and anthocyanin levels and the contents of vitamin E, genistein in LDL and the activity of GSHPx and SOD in RBC were also determined. In vitro test, organic extracts of GBB and RBB significantly inhibited 84% of MDA formation. The content of anthocyanin in RBB was significantly lower than that in GBB (72.73±13.07 vs. 118.41±5.51 unit/g, respectively). The content of genistein in RBB was significantly higher than that in GBB (3.61 ± 0.26 μg/g and 0.63 ± 0.10 μg/g, respectively). However, the content of vitamin E and GSHPx activity in two black soybeans were no significant differences. While the activity of SOD in RBB was significantly lower than that in GBB (555.0 ± 400.34 unit/g and 2345.0 ± 663.92 unit/g, respectively). In vivo test, the result show plasma triglyceridedecreased significantly after 3 weeks RBB ingestion from 175.27 ± 18.28 mg/dL to 135.96 ± 50.87 mg/dL. While after 3 weeks ingested RBB significantly prolonged the lag phase of LDL as compared to before RBB ingestion (118.89 ± 34.30 min vs. 95.18 ± 21.94 min, respectively). Meanwhile, Taken 3 weeks of RBB also significantly prolonged the LDL lag phase as compared to after one month stop of RBB ingestion (118.88 ± 34.30 min vs. 97.35 ± 24.81 min). The anthocyanin concentration was significantly higher in plasma isolated after than that before intake of RBB (0.17 ± 0.14 unit/mg plasma-chol/mL vs. 0.08 ±0.09 unit/mg plasma-chol/mL, respectively). The vitamin E concentration significantly increased from 25.09 ± 23.71 nmol/mg LDL-C/mL of LDL before intake of RBB to 31.49 ± 16.77 nmol/mg LDL-C/mL of LDL after intake of RBB. The lag phase of LDL in subjects supplemented with RBB was positively correlated with plasma anthocyanin levels (r=0.58813). The activities of SOD, GSHPx in RBC and the concentration of genistein in LDL were no significant differences among three periods. In conclusion, intake of RBB significantly decreased plasma TG, and prolonged the lag phase of LDL, which may be resulted from high concentration of anthocyanin in plasma after RBB intakes.