Radioprotective effect of ultra-small carbon quantum dots in mice in vivo / 国际生物医学工程杂志

ABSTRACT

Objective To study the radioprotective effects of ultra-small carbon quantum dots (CQDs) in mice in vivo,and to reveal the protective mechanism,as well as to study the body immune response to CQDs and the toxicity in vivo.Methods Mice were injected with different concentrations of CQDs solution.Mice models of systemic radiation injury were constructed by high dose gamma rays radiation.The 30-days survival rate,bone marrow DNA,femoral bone marrow nucleated cells (BMNC),tissue superoxide dismutase (SOD) and malondialdehyde (MDA) were measured to evaluate the radioprotective effects of CQDs,and to investigate the possible protective mechanism.The toxicity of CQDs in vivo was studied by measuring the changes of body weight,liver index and spleen index before and after injections of CQDs in mice.Results CQDs showed obvious radioprotective effects on mice in vivo.Compared with the control group,the 30-days survival rate of irradiated mice treated with CQDs increased from 0％ to 40％.CQDs could effectively reduce the hematopoietic system damages caused by radiation,and increase the level of bone marrow DNA,femur BMNC,liver and lung SOD,as well as reduce the production of MDA in liver and lung.The results of immunological reaction tests showed that CQDs had less toxicity in vivo and did not trigger the body immune response.Conclusions CQDs has tremendous application prospects in the field of radiation protection.This study can provide new ideas for the application of new nano-materials in medical field.