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Objective To assess the clinical efficacy of human neural stem cell (hNSC) transplantation in the treatment of severe cerebral palsy (CP) in children.Methods hNSCs were obtained from the forebrain of 10 to 12-week-fetus.Forty children with CP were voluntarily received hNSC transplantation that were injected into cerebral ventricle.The development of motor and fine motor functions were evaluated by GMFM and PDMS-FM 1 month before hNSC transplantation.as well as 3 and 6 months after hNSC transplantation.Results Twenty six (65%) cases displayed improvement from day 5 to month 6 after hNSC transplantation.GMFM assessment showed that the percentage was (4.52±2.50) % 1 month before hNSC transplantation,(7.74±2.94) % 3 months after hNSC transplantation and (13.01±6.71)% 6 months after hNSC transplantation,indicating a significant improvement by the treatment of hNSC transplantation(P<0.05).The percentage in PDMS-FM evaluation was (15.01± 12.00)%,(20.34± 11.91) % and (30.02± 12.50) % one month before hNSC transplantation,3 and 6 months after hNSC transplantation,respectively,also suggesting a significant improvement induced by hNSC transplantation treatment (P<0.05).Moreover,the developmental improvement was the most prominent among 1-3 months post hNSC transplantation.Then the development slowed down.Significantly,patients received no hNSC transplantation experienced serious adverse events or complications.Conclusions hNSC transplantation is an effective and safer therapy for severe CP.Future observations are needed to evaluate long-term clinical efficacy of the therapy.
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@# Objective To investigate the clinical effect of human neural stem cells transplantation on severe visual disability infants after cerebral palsy. Methods Cells obtained from the forebrain of an 11-week-old abortive fetus were cultured and expanded for 15 days, then injected into cerebral ventricle of 7 patients. Results Their vision of 4 patients improved, as well as changes of flash visual evoked potential and functional magnetic resonance imaging in a few days after transplantation. Conclusion Neural stem cells transplantation may benefit in some CP children with severe visual disability.
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Objective To isolate and culture the neural stem cells (NSCs) from the cerebral cortex of newborn rats, and investigate the cell-replace responses of the NSCs transplanted into the sibling rats with focal cerebral cortex ischemic lesion. Methods The serum-free medium DMEM/F12 (1∶1) containing basic fibroblast growth factor (bFGF or FGF2) and epidermal growth factor (EGF) was used to culture the neural stem cell spheres. The NSCs were identified by detecting the neural stem cell marker nestin with enzyme immune assay and inducing neural stem cell spheres to differentiation. The NSCs which would be used in the transplantation experiment were labeled by BrdU incorporation when cultured in vitro. The focal ischemic models were made by opening the skulls and removing the cerebral menings of 4-day-old rats to stop the blood supply for the neopallium. The BrdU-labeled NSCs were transplanted into the cerebral lesion boundary zones of the focal ischemic sibling rat models. The experiment rats were divided into lesion-transplantation group, lesion-control group and sham-operation-control group. Recipients were killed and the brains were examined by detecting the BrdU-labeled cells with enzyme immunohistochemistry at 4,7,14,30 days postgrafting, indicating the grafts living and migration in the host. Results The neural stem cell spheres, which floated and grew in medium, expressed nestin, as well as gave rise to neurons and astrocytes, could be obtained through culturing the cells derived from the cerebral cortex of newborn rats in vitro for a week. In the transplantation of the NSCs, the grafts were easy to migrate along the boundary zones of the focal ischemic lesions, and promoted the restore of the tissue structures in the damaged areas, the damage recovered well through the cell-replace responses. The BrdU-labeled positive cells in the lesion areas were full of the visual fields under microscope, the greatest density of the positive cells were focused in the granular layer of the injured cerebral cortex and not found in remote sites from the lesion. The number of BrdU-labeled cells gradually decreased in the brains of the sham-operation-control rats, only a few positive cells were found when examined at 14 days postgrafting, significantly less than that in the lesion-transplantation rats. Conclusions NSCs exist in the cerebral cortex of newborn rats. The ischemia can promote proliferation and graft of NSCs. The grafted NSCs play an important role in the recovery of focal cerebral cortex ischemic lesion.
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Objective: To investigate if bFGF can penetrate placental barrier. Methods: Sixteen day pregnant Wistar rats were selected. bFGF labeled with 125 I was injected peritoneally into the rats. The radioactivity of bFGF in different organs were determined in 30 min. Results: (1) 125 I bFGF was detected in the brain, heart, liver,lung and spleen. (2)With the same dose of 125 I bFGF, the concentration of it in the brain was at lowest level of all other organs.(3) In the range of safe dose, the permeability of bFGF through placental barrier was increased obviously. Conclusion: bFGF may penetrate placental barrier into rat's brain, which makes possible for the therapeutic intervention of bFGF in feotus. [
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0.05) . No significant differences were observed between the expansion folds of hNSC derived from various fetal brain samples when cultured under the same conditions. LIF played great roles on cell proliferation,in LIF + groups, hNSC cell number increased ranging from 4 000-8 400 folds, no cell differentiation occurred; and in LIF" groups,only 43 to 96 folds.The differentiation phenomenons were watched when cultured more than two months. In the course of cell culturing, observed that the effects of LIF on hNSC expansion were obviously demonstrated 50-60 days after inoculation.The number of neurons and astrocytes differentiated from the cultured hNSC were respectively identified by means of Immuno-cytochemical fluorescent assay, and the percentages of neurons(as a proportion of neuron and astrocyte number) were calculated,which were ranging from 12% to 83% in LIF+ cultures, significantly higher than 8% to 23% in LIF- ones(P