0.05).[Conclusion]Porcine articular cartilage extracellular matrix derived scaffold used in heterogenic transplantation or allograft have no immunologic rejection.This research provides a feasibility for application of xenogenic acellular cartilage to clinic.

[Objective]To analyze factors related with surviving rate and to evaluate effectiveness of the adjuvant chemotherapy in the treatment of osteosareoma.[Method]Eighty-four patients aging from 9 to 47 years(averaged,21 years)were analysed respectively:52 of them were male and 32 were female.The tumors were located at the femur in 42,the tibia in 29,the humerus in 13.There were 22 patients classified as stage ⅡA and 62 patients as ⅡB.The pathological study,of subtype of osteosarcoma revealed that 47 were osteoblastic,11 chondroblastic,19 fibroblastic and 7 other subtypes.There were 46 patients who received the chemotherapy;38 patients without chemotherapy,49 of the 84 patients treated surgically had limb salvage procedures,35 had amputations.Multivariate analsis was done by using the proportional hazards model of Cox,categoric data were analyzed by using the chi-square statistic.[Result]All cases were followed up from 6 to 74 months(with an average of 25.5 months).Cox model analysis showed that age,sex,site,and subtype were not significant prognostic variables in this group of patients;the significant affecting prognosis in patients was Enncking staging and chemotherapy.Chi-square showed significant difference in the higher metastasis rates of lung in the group without chemotherapy than in those with chemotherapy group(P

Background and purpose: It has been reported that activation of Notch1 could strongly inhibit proliferation of HPV (human papilloma virus)-positive HeLa cells by down-regulation of the E6 and E7 genes. The aim of this paper was to investigate the role of the Notch signaling pathway in growth arrest of EC109 cells in vitro and the molecular mechanism. Methods: EC109 cell lines, a well differentiated human ESCC (esophageal squamous cell carcinoma) cell line with HPV18-positive, was used in the study. Exogenous intracellular domain of Notch1(ICN) was transfected into cultured EC109 cells by lipofectamine transfection, the proliferation of the transfected cells was measured by an MTT assay. Cell cycle distribution was analyzed by flow cytometry. Human papilloma virus type 18 (HPV18) E6/E7 mRNA expression was detected by RT-PCR, and p53 protein expression was detected by Western blot.Results: Activation of Notchl signaling resulted in inhibition of EC109 cell proliferation with the induction of G_2/ M arrest. There was a significant difference in terms of the percentage of G_2/M phase cells among the ICN-transfected group (42.57±1.57)% and the non-transfected group (1.88±0.66)% or the empty plasmid transfected group (1.99±1.02)% (P<0.01). Down modulation of HPV18 E6/E7 gene expression and upregulation of p53 expression was (2.15±0.23) in ICN-transfected group higher than non- transfected group (0.45±0.07) and empty plasmid transfected group (0.46±0.02) (P<0.01). Conclusion: Repression of HPV18 E6/E7 expression by Notch1 signaling results in growth suppression of HPV18-positive EC109 cells with concomitant activation of p53-mediated pathways.

BACKGROUND: As the end product of lipid peroxidation, malondialdehyde (MDA) content can be used for assessment lipid peroxidation injury.Glutathione peroxidase (GSH-Px) acts as a free radical scavenger. Currently the effect of static magnetic field on the organism, whether positive or negative, has not been elucidated.OBJECTIVE: To study the effect of static magnetic field on anti-oxidation capacity of mouse hepatic tissues and its intensity dependence for producing such effects.DESIGN: A controlled comparative experiment.SETTING: Laboratories of Medical Physics and Biochemistry of Jiangsu University.MATERIALS: The experiment was conducted in the Laboratories of Medical Physics and Biochemistry of Jiangsu University from January to December 2003. Totally 30 mice of either sex weighing 18-20 g were selected and subjected to magnetic filed exposure using a self-designed ferrite magnet apparatus.METHODS: The mice were equally randomized into normal control group and 4 exposure groups exposed to magnetic field of (24.6±4.2) mT,(42.0±2.1) mT, (63.5±3.0) mT, and (85.1±2.9) mT, respectively. The mice in the 4 exposure groups were exposed to static magnetic field of the specified intensity for 2 hours twice a day, while those in the normal control group were subjected to the sham exposure apparatus without magnetic field at scheduled time points every day. After 15 days of exposure, the mice were sacrificed and the GSH-Px activity and the MDA content in the hepatic tissue were assayed.MAIN OUTCOME MEASURES: GSH-Px activity and MDA content in hepatic tissue of the mice.RESULTS: Thirty mice entered the final analysis without losses. MDA content in (24.6±4.2) mT and (42.0±2.1) mT groups were obviously lower than that in the normal control group [(12.70±0.53), (12.96±0.72), and (17.62±0.91) μmol/g, respectively, F=10.4, 9.89, P ＜ 0.01]. The GSH-Px activity in the hepatic tissue in (24.6±4.2) mT and (42.0±2.1) mT groups were obviously higher than that in the normal control group [(143.36±8.34),(150.69±12.00), (87.51±11.34) μkat/g, respectively, F=10.0, 11.3, P ＜ 0.01].CONCLUSION: Static magnetic field of appropriate intensity can lower MDA content and enhance the GSH-Px activity in the hepatic tissue of mice, and may also improve the activity of antioxidase and reduce the production of lipid peroxidation to diminish the consequent injuries and delay the aging process.

OBJECTIVE:To explore the clinical role of two-hour(C2)of CsA in allogeneic hematopoietic stem cell transplantation.METHODS:The whole blood CsA concentration of 9 patients of C0 and 12 of C2 were determined by FPIA method . RESULTS: The satisfactory immunosuppressive concentration was found as follow: C0 was 200～400 ?g?L-1and C2 was 500～700 ?g?L-1.Both C0 and C2 could predict the acute rejection and side-effects,but C2 is more effective.CONCLUSION:The factors that affect the whole blood concentration of CsA were complex. CsA blood concentration monitoring can be used to guide rational use of CsA,but C2 is more effective than C0.

BACKGROUND:The main therapy of severe aplastic anemia in children is immunosuppressive therapy or stem celltransplantation, but the latter one is restricted due to few donor sources. Haploidentical hematopoietic stem celltransplantation is commonly used in leukemia, but it is stil rarely reported in the treatment of aplastic anemia. OBJECTIVE:To investigate the effect of haploidentical hematopoietic stem celltransplantation combined with placenta-derived mesenchymal stem celltransplantation for children with severe aplastic anemia. METHODS:A 7-year-old girl who had been confirmed as having severe aplastic anemia for 1.5 years received a cotransplantation of haploidentical hematopoietic stem cells combined with placenta-derived mesenchymal stem cells on July 9th , 2012. The donor was her mother. The preconditioning regimen consisted of fludarabine, cyclophosphamide, and anti-thymocyte globulin. RESULTS AND CONCLUSION:Time of neutrophil recovery (>0.5×10 9/L) was+9 days, and hematopoietic reconstruction was complete at+12 days. The short tandem repeat analysis showed 100%donor’s genotype at+100 days. Immunosuppressive drugs were stopped at+8 months, and no acute or chronic graft-versus-host disease occurred. With a fol ow-up of 18 months, she was in the disease-free survival period. Our findings suggest that the cotransplantation of al ogeneic haploidentical hematopoietic stem cells and placenta-derived mesenchymal stem cells is a new effective approach for children with severe aplastic anemia, which is worth exploring in the future.

BACKGROUND:Accumulative evidence supports that co-culture technology can be applied to construct the tissue-engineered cartilage with excellent biological characters. OBJECTIVE:To elaborate the co-culture concept and conclude and analyze seed cell sources, cel mixed ratio, spatial y-defined co-culture models and biomaterials in co-culture systems to conclude and analyze the biological characters of tissue-engineered cartilage, and to prospect progression of co-culture systems in cartilage tissue engineering. METHODS:The first author retrieved the databases of PubMed, Web of Science, and CNKI for relative papers published from January 1976 to May 2016 using the keywords ofco-culture, co-culture systems;articular cartilage, chondrocytes, mesenchymal stem cells;tissue engineering, articular cartilage tissue engineeringin English and Chinese, respectively. Finally 60 literatures were included in result analysis, including 1 Chinese and 59 English articles. RESULTS AND CONCLUSION:Co-culture technology emphasizes the role of microenvironment in terms of various physical, chemical and biological factors in the cell processing. In cartilage tissue engineering, co-culture systems contribute to maintain the viability and natural cell phenotype of chondrocytes and induce cartilage differentiation of mesenchymal stem cells. In addition, co-culture technology provides a novel way for cartilage tissue engineering to overcome the shortage of chondrocytes and repair injury to the cartilage-subchondral bone. However, the mechanisms of cell-cell interaction in co-culture systems still need to be explored in depth, so as to optimize the co-culturing conditions and construct perfect tissue-engineered cartilage.

BACKGROUND:Choose an ideal vector for amplified chondrocytes arouses more and more attention during the construction of epiphyseal cartilage tissue engineering. OBJECTIVE:To explore the feasibility and performance of epiphyseal cartilage tissue engineering scaffold constructed by chitosan and extracellular matrix of cartilage. DESIGN,TIME AND SETTING:An in vitro study was performed at Department of Orthopedics,General Hospital of Chinese PLA from December 2007 to March 2003. MATERIALS:Chitosan(deacetylation:90%;Mr10?105) was provided by Haihui Bioengineering Company,Qingdao;articular cartilage of swine was collected from market. METHODS:Fresh porcine articular cartilages were obtained and shattered in the iso-osmia liquid. After pulverization and gradient centrifugation,3% artilage microfilament suspension was equally mixed with 2% chitosan. Three-dimensional porous scaffolds were fabricated using a simple freeze-drying method. MAIN OUTCOME MEASURES:After the second gradient ethanol treatment,the scaffolds were investigated by histological staining and scanning electron microscopy to measure aperture,porosity,and water absorption rate. MTT test was also done to assess cytotoxicity of the scaffolds. After induced by transforming growth factor-?1(TGF-?1) ,bone marrow mesenchymal stem cells(BMSCs) of rabbits were incubated onto the scaffolds. Cell proliferation and differentiation were analyzed using inverted microscopy and scanning electron microscopy. RESULTS:The three-dimensional porous scaffold had good pore interconnectivity with pore diameter(161?31) ?m,(90.1?1.6) % porosity and(2 361?132) % water absorption rate. The histological staining showed that toluidine blue,safranin O and anti-collagen II immunohistochemistry staining were positive. The intrinsic cytotoxicity assessment of the scaffolds using MTT test showed that the scaffolds had no cytotoxic effect on BMSCs. Most of the BMSCs attached and covered the surface of the scaffolds with matrix secretion. CONCLUSION:The three-dimensional porous scaffold constructed by extracellular matrix of cartilage and chitosan has good pore diameter and porosity,non-toxicity and good biocompatibility,so it is a suitable scaffold for epiphyseal cartilage tissue engineering.

Objective To investigate prevalence and risk factors of urgency urinary incontinence (UUI) among adult women in Beijing.Methods Multiple-stage stratified sampling was used to recruit women equal to and more than 20 years old from 48 communities ( villages and neighborhoods ) in six districts of Beijing,by household interview with a standardized questionnaire to collect information of demographic characteristics,delivery history,health conditions and UUI related clinical data.Data analysis was performed by SPSS software version 16.0.Results Totally,3058 adult women completed the survey,with an overall prevalence of UUI of 1.7 % (52/3058).Distribution of age,cultural background,family income,number of pregnancy,number of abortion,delivery history,history of chronic diseases,general surgery,pelvic surgery,abdominal pain and abdominal distension were found significantly different between UUI participants and non-UUI ones with univariate analysis ( all P ＜ 0.05 ).Results of multivariate logistic regress analysis showed that number of pregnancy ( OR = 1.29,95% CI = 1.06-1.58 ),history of chronic diseases ( OR = 2.53,95% CI = 1.38-4.62 ) and history of abdominal pain ( OR = 2.32,95%CI= 1.10 -4.91 ) all significantly associated with UUI.Conclusions UUI associates with complicated factors and its prevention and intervention at communities is necessary targeting at related factors.

Objective To fabricate cartilage extracellular matrix (ECM) oriented scaffolds and investigate the attachment, proliferation, distribution and orientation of bone marrow mesenchymal stem cells (BMSCs) cultured within the scaffolds in vitro. Methods Cartilage slices were shattered in sterile phosphate-buffered saline (PBS) and the suspension were differentially centrifugated untill the micro- fiber of the cartilage extracellular matrix was disassociated from the residue cartilage fragments. At last the supernatant were centrifugated, the precipitation were collected and were made into 2%-3% suspension. Using unidirectional solidification as a freezing process and freeze-dried method, the cartilage extracellular matrix derived oriented scaffolds was fabricated. The scaffolds were then cross-linked by exposure to ultraviolet radiation and immersion in a carbodiimide solution. By light microscope and scan electron microscope (SEM) observation, histological staining, and biomechanical test, the traits of scaffolds were studied. After being labelled with PKH26 fluorescent dye, rabbit BMSCs were seeded onto the scaffolds. The attachment, proliferation and differentiation of the cells were analyzed using inverted fluorescent microscope. Results The histological staining showed that toluidine blue, safranin O, alcian blue and anti-collagen Ⅱ immunohistochemistry staining of the scaffolds were positive. A perpendicular pore-channel structures which has a diameter of 100 μm were verified by light microscope and SEM analysis. The cell-free scaffolds showed the compression moduli were (2.02±0.02) MPa in the mechanical testing. Inverted fluorescent microscope showed that most of the cells attached to the scaffold. Cells were found to be widely distributed within the scaffold, which acted as a columnar arrangement. The formation of a surface cells layer was found on the surface of the scaffolds which resembled natural cartilage. Coclusion The cartilage extracellular matrix derived oriented scaffolds have promising biological, structural, and mechanical properties.