Recently,achievement has been made in using brain neuron transplantation to treat central nerve damage and degradation diseases,which atract another wide concern from the medical circle.This article reviews the history,techniques and clinical application of brain neuron transplantation.

Glioma is the commonest intracranial tumor,and it accounts for almost half of intracranial tumors. Because the growth of most gliomas is invasive and operation results are not satisfactory,sometimes radiotherapies are necessary. Since the early years of last century, brachytherapy has been developing very fast along with inventions of new medical equipments. After 1980s,125I seeds have been widely used in many countries and partly replaced routine radiotherapies because of their good therapy results. 125I-seed-brachytherapy has already become an important treatment for brain gliomas. This article reviewed the present situation of brain gliomas treated by 125I seeds.

Loss of cerebellar Purkinje cells,neurons of brain stem and degeneration of spinal ciruits are major morphologic changes in most patients with ataxia.Studies on spinocerebellar ataxia have focused on pathogenesis in recent years. Different genotypes have been identified by genolineage analysis and gene study. This study reviews the literatare on the classification,clinical features and pathogenesis of spinocerebellar ataxia.

Neural stem cells are a study hot spot in neurobiological science and neurosurgery in the near future. The transplantation of neural stem cells already became a new way which be used for treating the injury and degenerative disease in the nervous system, because of the self-renewal and cell differentiation bionomics. However, how to get massive neural stem cells, which can be used in animal experiment and clinical application, has constrainted the development of stem cell technique.This article introduced the harvesting methods of embryonic stem cells, adult neural stem cells and mesenchymal stem cells, in order to lead cellular transplant treatment into clinical treatment plan by a safe and effective mode.

Objective To investigate the therapeutic effects of embryonic dopaminergic neurons,mesencephalon-derived neural stem cells with or without pre-differentiation as grafts in the treatment of Parkinson's disease(PD) in SD rats.Methods Forty SD Parkinsonian rats were randomly assigned to four groups as follows: normal saline grafted group(A),mesencephalon-derived neural stem cells without pre-differentiation grafted group(B),embryonic dopaminergic neurons grafted group(C) and mesencephalon-derived neural stem cells with pre-differentiation grafted group(D).Normal saline and different cells were transplanted into the rat's striatum by stereotactic technique.Therapeutic effects were evaluated based on the improvement of rat's rotation behavior at 2nd,4th and 8th week after operation and survival of tyrosine hydroxylase(TH)-immunoreactive(TH-ir) cells at 8th week after operation.Results No obvious amelioration in number of rotation was found in group A(F=0.294,P=0.830).In group B,the number of rotation was decreased after operation,but the difference was not significant compared with that before operation(F=0.335,P=0.800).The numbers of rotation were obviously decreased in group C(F=26.838,P=0.000) and group D(F=14.571,P=0.000) at 8th week after operation,but no significant difference was found between the two groups(P=0.764).TH immunohistochemical staining showed that the number of TH positive cells was 665?264 in group D,679?286 in group C,80?36 in group B,and 0 in group A,and no significant difference existed between group C and D(P=0.548).Conclusion As grafts,both embryonic dopaminergic neurons and mesencephalon-derived neural stem cells with pre-differentiation can improve the rotational behavior and cellular morphology of Parkinsonian rats after neural cells transplantation.

With Modified Webster Scale, 42 patients suffered from Parkinson disease were examined before and after operation. The symptoms were divided into 10 groups. 1～10 points was taken as slight disability, 11～20 as medium, and 21～30 as severe. Improvement less than 25% was taken as no effect, 26%～50% as effective, 51%～75% as significantly effective, and over 75% as very significantly effective. The score was (19 90?5 27) preoperatively and (10 57?6 10) postoperatively. The mean improvement was (8 95?3 37). Very significantly effective result was obtained in 4 cases (9 5%), significantly effective sesult was obtained in 17 cases (40 5%), and effective result was obtained in 16 cases (38 1%). The total effective rate was 88 1%. One target coagulation was performed in 34 cases, the mean improvement was in (8 59?3 53). Two target coagulation on one side was performed in 8 patients, the mean improvement was in (10 00?4 14). No significant difference was found between these two groups statistically. It is suggested, for patients with Parkinson disease in whom drug treatment is not efficacious or because of increased side effect, Modified Webster Scale is useful to evaluate the effect of surgical treatment. This scale is very easy to use especially for neurosurgeons.

To study the procedure in cutting intracranial minimal lesions, intracranial minimal lesions were removed in 9 cases (male 6, female 3.) through keyhole in the guidance of frameless stereotaxy with robot. Robot image navigation orientation system was used to provide 3D images, and then these markers were made sure the coordinates of lesion target to guide the operating approach, locating anatomical structures,size of lesion and lesions to be removed in all the patients. Cases included 2 meningiomas, 2 brain abscess, 1 cyst of cysticercosis, 1 angiocavernoma, 1 metastasis tumors, 1 granuloma and 1 foreign body of metal from Mar 1, 2001 to June 1, 2001. The robot frameless stereotaxy provided accuracy of the intracranial lesions and anatomy. The postoperative neurofunction defects were not found. The outcome of operation was very good. The robot navigation system provided surgical navigational function: localization, orientation and guidance of the cutting intracranial minimal lesions in exact. It is useful in minimally invasive neurosurgery and is a good therapeutic method.

Based on detailed analysis of the status of and problems in the use and management of implantable medical devices and equipment in clinical departments of hospital, we propose some clinically operable solving strategies and methods. It is important to further regulate the use and management of implantable medical devices for timely and safe use the devices in clinical departments.

Objective:To study the clinical feasibility of transplanting human neural stem cells in treatment of cerebellar atrophy (CA).Methods:The cells from human fetal cerebellum(8-10 weeks gestation) were expanded in vitro and were allowed to differentiate into neurospheres,the latter were then implanted into CA dentate nuclei with stereotactic operation in 21 CA patients(8 male and 13 female with age ranging 19-71,mean 46) from Feb. 2000 to Aug. 2003. Results:The cells of fetal cerebellum were expanded by 10 7 folds in undifferentiated state. The effective rates were 61.9% 3 months after transplantation,85.7% 6 months after transplantation, and 90.4% during a follow-up of 12-28 months (mean 18 months).Conclusion:It is feasible and effective to implant the neural stem cells expanded in vitro for treatment of CA,but the long-term effectiveness should be futher observed.

Objective:To explore the feasibility of mesencephalon progenitor cells as dopamine neuron's graft in treatment of Parkinson disease(PD) in rats. Methods: Animal model of PD were established in SD rats by 6 hydroxydopamine. Mesencephalon progenitor cells were obtained from 13 day old fetal rats. After in vitro proliferation and differentiation, the cells were planted into PD rat striatum. Results: Progenitor cells were expanded in an undifferentiated state with endothelia growth factor and basic fibroblast growth factor as mitogens. IL 1 and striatal culture media further increased the number of TH immunoreactive cells. Transplantation of these neurons relieved the rotation symptom of PD rats. Conclusion: Transplantation of mesencephalon progenitor cells has certain effects on PD rats.