摘要:To study the protective effects of flavonoid and polyphenol (FP) from lotus leaf on the damage induced by N 2 O 4 in mice. Constructing an animal damage model through exposing mice to 45μl N 2 O 4 in a 120 L sealed cabinet for 30 minutes. ICR male mice were randomly divided into normal group, physiological saline N 2 O 4 group,1.25g/kgFP N 2 O 4 group, 2.50g/kgFP N 2 O 4 group, 3.75g/kg FP N 2 O 4 group. 1.25, 2.50, 3.75 g/kg FP were orally administered to mice respectively for 5 days, equal volume physiological saline for normal group and physiological saline N 2 O 4 group. Then, the three FP groups and the physiological saline N 2 O 4 group were exposed to N 2 O 4 in the cabinet on 5th day. In an hour after N 2 O 4 exposure, killing the mice by dislocation to measure the SOD, GSH-Px activity and MDA content in lung tissue, checking pathology change in lung tissue slice. Results were shown: the 1.25, 2.50g/kg FP increased SOD (U/mg pro) by 30.3% and 24.4%, GSH-Px (U/mg pro) by 77.4% and 60.9%, respectively. Pathological observation of lung tissue showed that three FP groups had lighter damage than the physiological saline N 2 O 4 group. So, FP has significant protective effects on damage caused by N2O4 in mice.
其他摘要:To study the protective effects of flavonoid and polyphenol (FP) from lotus leaf on the damage induced by N 2 O 4 in mice. Constructing an animal damage model through exposing mice to 45μl N 2 O 4 in a 120 L sealed cabinet for 30 minutes. ICR male mice were randomly divided into normal group, physiological saline N 2 O 4 group,1.25g/kgFP N 2 O 4 group, 2.50g/kgFP N 2 O 4 group, 3.75g/kg FP N 2 O 4 group. 1.25, 2.50, 3.75 g/kg FP were orally administered to mice respectively for 5 days, equal volume physiological saline for normal group and physiological saline N 2 O 4 group. Then, the three FP groups and the physiological saline N 2 O 4 group were exposed to N 2 O 4 in the cabinet on 5th day. In an hour after N 2 O 4 exposure, killing the mice by dislocation to measure the SOD, GSH-Px activity and MDA content in lung tissue, checking pathology change in lung tissue slice. Results were shown: the 1.25, 2.50g/kg FP increased SOD (U/mg pro) by 30.3% and 24.4%, GSH-Px (U/mg pro) by 77.4% and 60.9%, respectively. Pathological observation of lung tissue showed that three FP groups had lighter damage than the physiological saline N 2 O 4 group. So, FP has significant protective effects on damage caused by N2O4 in mice.
