Objective To study the effect of different iodine intake on the antioxidation of rat thyroid. Methods The rats were divided into 6 groups, low iodide (LI), normal iodine (NI), high iodide including five fold (5HI), ten fold (10HI), fifty fold (50HI), one hundred fold (100HI) and given potassium iodide (KI) at different dosages through food respectively. After 6 and 12 months of treatment, the rats were sacrificed respectively and the activity of glutathione peroxidase (GPx), superoxide dismutase (SOD), the content of malondialdehyde (MDA) in the thyroid were determined. Results The activity of GPx , SOD and the MDA content in LI group were significantly higher than those in NI group. There was no difference in the SOD and GPx activity and MDA content among NI, 5HI and 10HI groups. The MDA content in 50HI group was lower than that in NI group after treated for 12 months, but no difference was found between them after treated for 6 months. Compared with NI group, the GPx activity, SOD activity and MDA content in 100HI group increased after 6 months of treatment, however, decreased after 12 months of treatment. Conclusion Low iodine intake can induce oxidative damage of the thyroid gland in normal rats, high iodine (100 fold) intake for a long period (12 months) may decrease the activity of anti-oxidases in thyroid without obvious oxidative damage, that shows the anti-oxidative system of rat thyroid has a tolerance to high iodine intake.

Objective To study the effect of different dosage KIO3 on anti-oxidative capability of the blood.Methods The Wistar rats were randomly divided into 6 groups and given KIO3 through food at different dosages,low iodide(LI),normal iodide(NI),5 fold high iodide(5HI),10 fold high iodide(10HI),50 fold high iodide(50HI)and 100 fold high iodide(100HI).3,6 and 12 months later,the rats were sacrificed and blood glutathione peroxidase(GPx)activity,superoxide dismutase(SOD)activity and malondialdehyde(MDA)content were determined.Results After 3,6 and 12 months of treatment,the GPx activity in LI group was significantly lower than that in NI group.Furthermore,after 12 months of low iodide intake,the SOD activity in LI group was higher than that in NI group.The GPx activity in 100HI group was lower than that in NI group after 3 months of administration,but no difference was seen between these two groups after 6 and 12 months of treatment.No difference was found in the GPx activity of NI group and those of 5HI,10HI and 50HI groups.The SOD activity in 50HI and 100HI groups was higher than that in NI group after 12 months of administration.There was no difference in MDA content among NI group and 4 high iodide groups.Conclusion Low iodide intake may damage the anti-oxidative capability of blood in normal rats.Blood has a strong anti-oxidative ability and compensative capabilities to compete with high iodate intake.

Objective To evaluate the effects of iodine on antioxidative capability by observing activity of antioxidative enzymes and related gene expression, and peroxide content in the brain of rat offspring. Methods One-month weaning Wistar rats were divided into four groups(low iodine-LI, normal iodine-NI, ten-fold high iodine-10HI and fifty-fold high iodine-50HI), and fed with water containing different iodine concentration by adding potassium iodate respectively. Rats mate randomly after three months.The offspring were sacrificed at 28 days after birth, then the activity of SOD and GSH-Px, and MDA content in brain tissue were tested, and the SOD and GSH-Px mRNA expression were measured by RT-PCR. Results Compared with the NI group, only in LI group MDA content were increased significantly (P

Objective To study the effect of computerized pressure hemostat on lower limb deep vein thrombosis in high-risk elderly patients.Methods From September to December 2013,36 orthopedic hospitalized patients who received operations were divided into the hemostat group and the non-hemostat group with 18 patients in each group.D-dimer changes and lower limb deep vein thrombosis were observed in both groups.Results D-dimer was significantly increased in both groups compared with that before operation,but the extent of elevation in the non-hemostat group was lower than that in the hemostat group.D-dimer and cases of lower limb deep vein thrombosis in the hemostat group was higher than those in the non-hemostat group after operation,which showed significant difference.Conclusions The use of computerized pressure hemostat will increase the risk of lower limb deep vein thrombosis in elderly patients,so the technical operation procedures should be strictly enforced accompany with safely use of computerized pressure hemostat.

Recording the highly diverse and dynamic activities in large populations of neurons in behaving animals is crucial for a better understanding of how the brain works. To meet this challenge, extensive efforts have been devoted to developing functional fluorescent indicators and optical imaging techniques to optically monitor neural activity. Indeed, optical imaging potentially has extremely high throughput due to its non-invasive access to large brain regions and capability to sample neurons at high density, but the readout speed, such as the scanning speed in two-photon scanning microscopy, is often limited by various practical considerations. Among different imaging methods, light field microscopy features a highly parallelized 3D fluorescence imaging scheme and therefore promises a novel and faster strategy for functional imaging of neural activity. Here, we briefly review the working principles of various types of light field microscopes and their recent developments and applications in neuroscience studies. We also discuss strategies and considerations of optimizing light field microscopy for different experimental purposes, with illustrative examples in imaging zebrafish and mouse brains.
Animals ; Mice ; Microscopy/methods* ; Zebrafish ; Neurons/physiology* ; Brain/physiology* ; Neurosciences