Lead expelling effect of carboxymethyl chitosan calcium in lead poisoned mice.
- Author:
Wen-di CAI
1
;
Bao-Qin HAN
;
Chang-Hong WANG
;
Wan-Shun LIU
;
Jin-Xin CHU
Author Information
- Publication Type:Journal Article
- MeSH: Animals; Brain Chemistry; Calcium; metabolism; Chitosan; analogs & derivatives; pharmacology; Female; Femur; chemistry; Lead; metabolism; Lead Poisoning; metabolism; Liver; chemistry; Mice; Mice, Inbred Strains; Zinc; metabolism
- From: Chinese Journal of Preventive Medicine 2006;40(6):415-418
- CountryChina
- Language:Chinese
-
Abstract:
OBJECTIVETo observe the effects of carboxymethyl chitosan calcium (CCC) on concentration of lead, calcium and zinc, and the liver antioxidative capacity in lead poisoned mice.
METHODSMice were randomly divided into 7 groups, including normal group, calcium carbonate group, lead-model group, and three experimental groups treated with CCC in three different doses, and the CaNa2EDTA positive control group. The lead poisoned mice model was established by giving water contained with lead acetate. CCC was administrated to mice i.g. once a day. Thirty days later, mice were killed and the concentrations of lead, calcium and zinc in blood, liver, brain and femur were determined by atomic absorption spectrophotometer. Maleic dialdehyde (MDA), total antioxidative capacity (T-AOC), superoxide dismutase (SOD), and glutathione peroxidase (GSH-Px) activities in liver were measured by using assay kit.
RESULTSCCC significantly reduced the concentration of lead in blood, brain, liver and femur from about 1.56 microg/g, 13.38 microg/g, 16.15 microg/g, 1011.62 microg/g to about 0.50 microg/g, 5.57microg/g, 5.64 microg/g, 457.86 microg/g, and markedly increased the concentration of calcium in femur in lead poisoned mice. CCC had no significant side-effects on concentration of zinc in lead poisoned mice. The antioxidative profile was favorably changed as manifested by decreasing the level of MDA, increasing the activities of SOD, GSH-Px and T-AOC in livers of the in lead poisoned mice.
CONCLUSIONCCC might significantly advance the excretion of lead, increase the concentration of calcium in femur and the antioxidative capacity in lead-loaded mice.