BACKGROUND:At present,there are two main methods of isolating and purifying bone marrow mesenchymal stem cells(BMSCs):density gradient centrifugation and the whole bone marrow adherent method.The former has complicated procedures,and the latter has simple operation,but the purified outcomes are not ideal.OBJECTIVE:To establish a rat BMSCs isolated and cultured in vitro purification methods on the basis of the whole bone marrowadherence and isolation of BMSCs in combination of differential passage digestion method.METHODS:By whole bone marrow adherent culturing to isolate and differential digestion and passage of rat BMSCs,the speed ofMSCs in the process of digestion and passage was quicker than other bone marrow cells,as well as the characteristics of adherentspeed,instead of density gradient centrifugation to separate and purify MSCs,and their morphological characteristics wereobserved.Cell growth and proliferation of two kinds of culture method were compared with the density gradient centdfugationseparation.Alkaline phosphatase and oil red staining results were observed to verify BMSC differentiation capacity,to detect thecall surface markers,to validate immune properties and to test its purity.RESULTS AND CONCLUSION:The whole bone marrow adherent culture method isolated and differentially subcultured ratBMSCs.Flow cytometry and osteogenic and adipogenic culture results displayed cytoirnmunity property,purity and differentialcapacity,which have no significant difference compared with density gradient centrifugation.However,cell viability andreproductive activity are obviously elevated.

Objective To study the effect of apolipoprotein A5 gene polymorphism on the metabolic syndrome and cardiovascular events.Methods A total of 200 patients with metabolic syndrome include 100 cases of unconsolidated cardiovascular events (MS-1 group) and 100 cases of combined cardiovascular events (MS-2 group); 100 cases of healthy people were used as control group.Apolipoprotein A5 serum concentration was detected by ELISA in each group.PCR-RFLP method was used to determine ApoA5-1131T ＞ C gene polymorphism.The automatic analyzer was used to measure fasting plasma glucose (FPG).Results The MS-1-group ApoA5 Serum concentration was significantly lower than the control group [(96.68 ± 18.09) ng/ml vs (128.32 ±23.78) ng/ml,t =10.59,P ＜0.01] ; the MS 2 groups ApoA5 serum concentrations was significantly lower than the MS-1 group [(87.67 ± 17.09) ng/rnl vs (96.68 ±18.09) ng/ml,t =3.62,P ＜0.01] ; and ApoA5-1131C genotype frequency in MS-2 group and the MS-1 group was significantly higher than the control group (39.4％ ＞ 30％ ＞ 16.5％,P ＜ 0.05).Conclusions ApoA5 serum concentrations in patients with metabolic syndrome and cardiovascular events were significantly reduced,ApoA5-1131 C was related to the metabolic syndrome and cardiovascular events.

BACKGROUND:The preliminary findings confirm that bone marrow mesenchymal stem celltransplantation is safe and effective in the treatment of acute myocardial infarction, but its exact mechanism is unclear. There are few studies addressing the survival status of transplanted stem cells and its acting timing.
OBJECTIVE:To study the survival of rat bone marrow mesenchymal stem cells transplanted into the infracted myocardium. METHODS:Bone marrow mesenchymal stem cells were cultured using density gradient centrifugation. Eighty rat models of myocardial infarction were prepared. Bone marrow mesenchymal stem cells were injected via a microsyringe at four sites around the infarcted region at 14 days after modeling. Then, 70 rats with living cells were selected for detecting the survival of bone marrow mesenchymal stem cells at days 3, 5, 7, 10, 20, 28 after transplantation. RESULTS AND CONCLUSION:Under ×400 visual field, the number of Brdu-positive bone marrow mesenchymal stem cells was (36±12) at 3 days posttranplantation, (33±13) at 5 days, (28±9) at 7 days, (15±5) at 10 days, (5±3) at 14 days, 0 at 20 days, and 0 at 28 days, showing a overal downward trend after transplantation. The number of bone marrow mesenchymal stem cells was negatively correlated with transplant days (P<0.01, r=-0.47). The number of cells decreased most significantly within 1 week after transplantation, and then decreased to 0 at 20 days. These findings indicate that transplanted bone marrow mesenchymal stem cells in the myocardium cannot survive for a long term and also cannot be transformed into myocardial tissue.

ObjectiveTo discuss the role of neuronavigaition technique in localizing and facilliating microsurgical resection of intracranial ateriovenous malformations (AVM) .Methods Forty-three cases with intracranial AVM treated microneurosurgically asisting by Stryker Leibinger neuronavigation system were retrospectively analyzed.Results After reaching neuronavigation calculated technical accuracy (less than 2 mm) and continual intraoperative navigating accuracy, all of the 43 AVM lesions were completely resected.In 41 patients, syptoms were significantly improved (95.4％) at discharge, new neurofuntion defection were found in 2 patients(4.6％) , no death occured.ConclusionNeuronavigation techniques helps the surgery in planning a precise surgical approach to the targeted AVM lesion and tracing the neurovascular structures ,improves the safety of the surgery and the functional outcome of the patients, contribute to lesion resection and reduce operative complications.

objective To explore the application of navigation-assited microsurgery resection of posterior fossa solid hemangioblastoma.Methods The data of 16 patients with posterior fossa solid hemangioblastoma treated by navigation-assited microsurgery were analyzed retrospectively,compared with 19 patiems treated by microsurgery who suffered the same disease in the similar location(control group).Results The tumors were totally resected successfully acompanied by minimal blood loss and shortening of the operation time,compared with the control group.Manipulation and removal of these tumors were actually easier,in addition,adjacent structures can avoid damage.Conclusions Navigation-assited microsurgery is useful technique to surgical resection of fossa solid hemangioblastoma by significantly reducing blood loss at the time of surgery and operation procedure time,avoiding damage to the adjacent structures,and reducing the surgery complications and mortality.