ABSTRACT
In this study we implanted magnetically labeled neural stem cells (NSCs) in PD rats and then monitored their survival and migration in the host brain by magnetic resonance imaging (MRI). The mesencephalic NSCs were obtained from the brain of SD rats. Superparamagnetic iron oxide (SPIO) was transferred to NSCs by Lipofectamine transfection. Eighteen PD lesioned rats were selected for transplantation by evaluation of their rotational behavior in response to amphetamine and randomly assigned to 3 groups, i.e., sham group, PBS group and NSCs transplanted group, with 6 rats in each group. MR scanning was performed at 1, 2, 4, 6, 8 and 10 week(s) following transplantation. At the meantime, rotational behavior was assessed in each group. Our results showed that SPIO particles were clearly visible with Prissian blue staining in neurospheres and cells derived from NSCs. The rotational behavior of the NSCs transplanted group was remarkably improved compared with that of sham group and PBS group (P < 0.05). In vivo MR tracking of NSCs showed that SPIO labeling led to a strong susceptibility change of signal 1 week after transplantation on T2 weighted images. And a large circular hypointense signal appeared in the transplanted area on T2* gradient echo images. Ten weeks following transplantation, the hypointense signal on T2 weighted and T2* gradient echo images was still displayed. It is concluded that SPIO particles could label NSCs effectively, and MRI detection of SPIO labeled cells is a promising method and novel approach to analyzing the NSCs following transplantation in the treatment of PD.
ABSTRACT
In this study we implanted magnetically labeled neural stem cells (NSCs) in PD rats and then monitored their survival and migration in the host brain by magnetic resonance imaging (MRI).The mesencephalic NSCs were obtained from the brain of SD rats. Superparamagnetic iron oxide (SPIO) was transferred to NSCs by Lipofectamine transfection. Eighteen PD lesioned rats were selected for transplantation by evaluation of their rotational behavior in response to amphetamine and randomly assigned to 3 groups, i.e., sham group, PBS group and NSCs transplanted group, with 6 rats in each group. MR scanning was performed at 1, 2, 4, 6, 8 and 10 week(s) following transplantation.At the meantime, rotational behavior was assessed in each group. Our results showed that SPIO particles were clearly visible with Prissian blue staining in neurospheres and cells derived from NSCs.The rotational behavior of the NSCs transplanted group was remarkably improved compared with that of sham group and PBS group (P<0.05). In vivo MR tracking of NSCs showed that SPIO labeling led to a strong susceptibility change of signal 1 week after transplantation on T2 weighted images.And a large circular hypointense signal appeared in the transplanted area on T2* gradient echo images.Ten weeks following transplantation, the hypointense signal on T2 weighted and T2* gradient echo images was still displayed. It is concluded that SPIO particles could label NSCs effectively, and MRI detection of SPIO labeled cells is a promising method and novel approach to analyzing the NSCs following transplantation in the treatment of PD.
ABSTRACT
@#ObjectiveTo observe the effect of early rehabilitation on patients with severe closed traumatic brain injury in intensive care unite (ICU).Methods118 patients with severe closed traumatic brain injury were divided randomly into the treatment group and control group with 59 cases in each group. The patients of control group recieved respiration rehabilitation, bedsore prevention and urinary system nursing; while the patients of treatment group added with motor and cognitive rehabilitation. Scores of Glasgow coma scale (GCS), Fugl-Mayer assessment (FMA), mini-mental status examination (MMSE), disability rating scale (DRS) and activities of daily living (ADL) of all patients were recorded before and after treatment.ResultsThe scores of GCS, FMA (upper limbs), ADL and DRS of the treatment group patients were significantly difference with that of the control group after treatment (P<0.05). The MMSE scores of two groups had no significantly difference after treatment (P>0.05).ConclusionEarly rehabilitation on the patients of severe closed traumatic brain injury in ICU can improve brain function and reduce the disability rating scale. The improvement of cognitive ability is not obviously in a shot period.
ABSTRACT
Objective: To establish a method using non-ionic detergent for extracting lipid rafts. Methods: Because lipid rafts can resist solubilization by non-ionic detergents under 4℃, we use non-ionic detergent (Triton X-100) to treat with epicyte fractions, the non-raft membrane would be solubilized. Then we utilize sucrose gradient centrifugation, preparations enriched in lipid rafts could be obtained.caveolin-1 was used as markers of lipid-raft structures. Results:A white light-scattering band under light illumination located at the interface between 15%-20% sucrose was detectable, and a brown stripe which comparative molecular quantity is 24 000 was identified by Western-Blot analysis. Conclusion: The method using non-ionic detergent is simple and useful for extracting lipid rafts, extracting lipid rafts would be prerequisite in studying the function of lipid rafts.
ABSTRACT
AIM: To study effect of endogenous carbon monoxide on intracellular calcium concentration and explore the mechanism in brain protection of endogenous CO in focal cerebral ischemia in rats. METHODS: SD rats were divided into three groups randomly, which including hemin, ZnPP group and saline group as control. Respectively saline, hemin, ZnPP were injected intra-peritoneally twelve hours before middle cerebral artery was occluded. Twenty four hours after MCAO model was set up, the concentration of carbon monoxide in blood and intracellular calcium in neural cells was examined. RESULTS: Contrast to saline group, the concentration of CO in blood rose up while intracellular calcium in occluded side decreased in hemin group; the concentration of CO in blood went down while intracellular calcium in occluded side rose up in ZnPP group, there was significant difference among them (P0.05). CONCLUSIONS: It may be one of mechanisms on brain protection in ischemic cerebral tissue that carbon monoxide affected intracellular calcium concentration of neural cells by regulating Ca~(2+)-K~+ channel on cell membrane as a messenger gaseous molecular and neurotransmitter. [