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Objective To study the therapeutic effect of Fe3O4 nanometer magnetic fluid-induced hyperthermia on implanted liver cancer in nude mice under alternating magnetic field. Methods Nude mice model bearing implanted HepG2 was established. Mice were then randomly divided into 3 groups: the blank control group; the magnetic field group; nanometer magnetic fluid group. The magnetic field group were just put under the magnetic field; Nanometer magnetic fluid group received injection of PEG-PEI/Fe3O4 nanometer magnetic fluid under the alternating magnetic field. At the frequency of 40 kHz, and magnetic field of 5 kA/m, 15 minutes one day in the next 14 days. On the 7th day and the 15th day, the changes of tumor volume and weight were recorded, cell apoptosis were observed and recorded and pathological examination was done. Results On the 7th and the 15th day, in the nanometer magnetic fluid group, tumors' volume was smaller and the weight was lighter than other groups, and the tumor inhibitory rate of 54. 20% (t = 14. 506,P <0. 01 ) was significantly higher than the control group and the magnetic field group 22. 66% ( t = 7.497, P < 0. 05 ). In the control group, tumor cells grew well, high density, the nucleus engrained, the shape irregular, the nuclear fission clear; compared with the control group, in the magnetic field group, tumor cells scatter thinly, intercellular substance increases, and necrosis area formed;in the nanometer magnetic fluid group, many of tumor cells died, their cell nucleus broke up and vanished,the blood vessel reduced obviously, and the tumor cell spread thinly. Conclusions Under the alternating magnetic field, PEG-PEI/Fe3O4 nanometer magnetic fluid inhibits liver cancer growth in nude mice model of HepG2.
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BACKGROUND: Polyethylene glycol-polyethyleneimine/ferroso-ferric oxide (PEG-PEI/Fe_3O_4) was selected as drug carders in tumor treatment, which can increase drug loading capacity and targeting capacity.OBJECTIVE: To test the toxicity of PEG-PEI/Fe_3O_4 nano-magnetic fluid in vitro and in vivo. METHODS: When the prepared PEG-PEI/Fe_3O_4 nano-magnetic fluid reached nano level, 7702 and HpG2 cell lines were filtrated and diluted in 5-20 multiple, and detected by in vitro MTT toxicity test assay; in vivo hemolysis test and micronucleus test was used to test the toxicity and biocompatibility.RESULTS AND CONCLUSION: MTT assay results indicated that the toxicity grade of PEG-PEI/Fe_3O_4 nano-magnetic fluid to 7702 cell line was 0-1, which was harmless to natural hepatic cells; however, PEG-PEI/Fe304 nano-magnetic fluid had slight bystander restraining effect to HpG_2 cell line. Maximum hemolysis rate of the matedel was 0.372%, which was far less than 5%. The micronucieus test result indicated that PEG-PEI/Fe_3O_4 nano-magnetic fluid had no teratogenicity or mutagenicity.
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BACKGROUND: Previous research has indicated that graphite carbon nanoparticles have a strong adsorbability. While, when the concentration is effectively controlled, graphite carbon nanoparticles also have well compatibility and sensitizing effect. OBJECTIVE: To observe the morphology of graphite carbon nanoparticles, and to investigate the effects of graphite carbon nanoparticles on cell proliferation and ultramicrostructure.METHODS: Graphite carbon nanoparticles (0.5 g) were put in 100 mL triple distilled water to obtain graphite carbon nanoparticle mother liquid after oscillation and microfiltration. HepG2 cells, L02 cells, HI7702 cells, and 3T3 cells in the logarithmic phase were adjusted to the concentration of 5×10~7/L and inoculated in 6-well culture plate with 0.5 mL per well. Thereafter, the cells were cultured with RPMI-1640 culture media (1.5 mL) containing fetal bovine serum, penicillin, and streptomycin. The original culture solution was removed after 24 hours. The 1-5 wells were considered as the experimental group, and 25, 10, 7.5, 5, 0.25 mg/Lgraphite carbon nanoparticles (2.0 mL) were respectively added into each well; while, the sixth well was considered as the blank control group without graphite carbon nanoparticles. The cells in the blank control group were cultured for 24 hours. Particle diameter was measured using atomic force microscopy; morphology was observed using electron microscope; effect of different concentrations of graphite carbon nanoparticles on cell number was detected using hemacytometry under optic microscope; the effect of 7.5 mg/L graphite carbon nanoparticles on ultramicrostructure was observed under transmission electron microscope. RESULTS AND CONCLUSION: Graphite carbon nanoparticles were around and 20 nm diameter. Compared with the blank control group, cell numbers except HepG2 cells were increased, especially the effect of 7.5 mg/L graphite carbon nanoparticles was greatest (P < 0.05). Transmission electron microscope indicated that graphite carbon nanoparticles were distributed into cells, including cytoplasm, nucleus, and mitochondrion; while, subcellular structure damage and cell apoptosis and necrosis were absent. Graphite carbon nanoparticles have no side effects on in vitro cultured cells and can promote cell proliferation, showing a dose-dependence correlation, especially the concentration of 7.5 mg/L.
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@#ObjectiveTo establish separate and appraisal methods of murine bone marrow mesenchymal stem cells (MSCs) and optimize the suitable conditions inducting MSCs directional differentiating into adipocytes in vitro.MethodsThe differential adherence to plastic was employed to separate MSCs. CFU-f and successive CFU-f cultures were employed to characterize the potent of proliferation and self-renewal of MSCs. The different adipogenic medium was used as induction for the differentiation of MSCs into adipocytes. The differentiated cells were identified by oil red O immunohistochemistry stain.ResultsThe purified MSCs showed the morphology of fibroblasts. It was found that the number of CFU-f formation depended on the planted number of MSCs. It showed a good relationship. Small type colony of CFU-f had little potent to re-clone, but almost 90% big type colony of CFU-f had the potent to regenerate CFU-f. The MSCs could directionally differentiated into adipocytes induced by different adipogenic medium. But more than 96% MSCs differentiated into mature adipocytes when induced by combined with dexamethasone (DM), 1-methy-3-isobutylxanthine (IBMX), insulin (IS) and indomethacin (ID).ConclusionThe purified MSCs can be harvested by method of differential adherence to plastic, and these MSCs have the potent of proliferation and self-renewal. Moreover, more than 96% MSCs can differentiate into mature adipocytes when induced by combined with DM, IBMX, IS and ID.