[Summary] In this case report , a 44-year-old female patient complained of three years of tightness and chest pain , and was hospitalized in January 2016.The thymus and tumor were completely resected under video-assisted thoracoscopic surgery (VATS). Postoperative pathological examination presented a thymic mucoepidermoid carcinoma .The patient received 30 times of chemotherapy after operation and were followed up for 2 months.Postoperative recovery was smooth without symptoms .The CT scanning showed negative result .We consider that VATS was feasible and safe for the treatment of thymic carcinoma .

[Objective]To investigate the feasibility of the fabrication of tissue-engineered anterior cruciate ligament(ACL)in vitro by studying biocompatibility and mechanical property of the braided polyvinyl alcohol(PVA)materials.[Method]Firstly,human ACL cells and NIH3T3 cells were isolated,expanded in vitro and seeded onto the surface of the braided PVA scaffold materials,the adhesion,proliferation and three-dimensional growth of cells on the scaffold were observed by SEM.Secondly,the biomechanical properties of the braided PVA scaffold materials were measured with electro-biomechanical machine.[Result]The braided PVA scaffold materials had no cytotoxicity,ACL and NIH3T3 cells adhered,grew and proliferated well both on the surface and in the holes of the braided PVA scaffold materials.The maximum load,the maximum strain and ultimate tensile stress of the braided PVA scaffold materials respectively were 169.78?9.18N,11.67?1.38% and 52.21?2.88MPa.[Conclusion]The braided PVA scaffold materials possess good biomechanical properties and biocompatibility,it may become an ideal biomaterial for fabricating tissue-engineering ACL if the biomechanical properties can be improved.

Combined with the features of neurology,this article discussed the assessing processes for quality postgraduates in neurology from four aspects: clinical skills,creative ability,ability in using English,ability of communication between doctors and patients.It also elaborated the purpose and meanings of setting the assessing goal,selecting assessing items and establishing criterion of the assessing items.

Objective To observe the effects of low frequency electromagnetic fields (LFEMFs) on the proliferation of human epidermal stem cells (hESCs) cultured in a three dimensional environment so as to provide an experimental basis for applying LFEMF in skin tissue engineering.Methods hESCs from human prepuces were isolated and purified by the method of rapid adherence to collagen type ⅣV. They were grafted into a type-I collagen sponge or chitosan scaffold in vitro, and then stimulated with different frequencies of LFEMF ( 1 Hz, 10 Hz or 50 Hz) at a magnetic field intensity of 5 mT for 30 min/d. The cells' growth and proliferation were tracked using hematoxylin and eosin (HE) and diamine pheny1 indole (DAPI) staining and observed under the scanning electron microscope at different time points ( on 2nd, 7th, 10th and 14th days of LFEMF intervention). The amounts of cell proliferation at every time point were analyzed and compared.Results LFEMFs of different frequencies showed significantly different efficacy in promoting hESC proliferation. The two scaffolds also showed significantly different effects.By the 10th day, hESCs had grown significantly better on collagen sponge scaffolds than on the chitosan ones. All LFEMF frequencies could promote proliferation of hESCs, but the differences in their effects were statistically significant.Conclusion Collagen sponge may be a preferable scaffold for hESCs cultured in vitro. Rapid proliferation of ESCs in three-dimensional settings can be promoted by LFEMF intervention. LFEMF has relatively great potential in skin tissue engineering.

BACKGROUND:Bone marrow mesenchymal stem cel transplantation is considered as a promising therapy for spinal cord injury. How to more effectively promote the survival of bone marrow mesenchymal stem cel s in the area of spinal cord injury and to accelerate the recovery of motor function after spinal cord injury is a current study focus. Previous studies have found that low-frequency electromagnetic fields can promote bone marrow mesenchymal stem cel proliferation and differentiation, but whether the low-frequency electromagnetic fields can be applied to bone marrow mesenchymal stem cel transplantation for treatment of spinal cord injury requires further studies. OBJECTIVE:To discuss the effects of low-frequency electromagnetic fields on motor function of spinal cord injury rats after transplantation of bone mesenchymal stem cel s. METHODS:Sixty-four rat models of incomplete spinal cord injury at T 10 were established by compression method and then randomized into control group, transplantation group (bone mesenchymal stem cel transplantation), electromagnetic field group and combination group (electromagnetic field+bone mesenchymal stem cel transplantation). After successful modeling, bone mesenchymal stem cel s labeled with 5-bromo-2'-deoxyuridine were injected into the original injured site in the transplantation group and combination group, which were isolated and purified with the fast adherence method;while alpha-minimum essential medium was injected into the electromagnetic field group and control group for instead. At 24 hours post-operation, the electromagnetic field group and combination group were explored to low-frequency electromagnetic fields (frequency 50 Hz, magnetic indaction intensity 5 mT) for 60 minutes per day. RESULTS AND CONCLUSION:After cel transplantation for 21 days, the Basso, Beattie, and Bresnahan scores in the combination group was higher than the other groups (P<0.05). 5-Bromo-2'-deoxyuridine positive cel s grew wel , and integrated into the normal spine;syringomyelia was reduced, and the number of spinal neural cel s was increased in the combination group. In addition, glial fibril ary acidic protein expression was decreased in the combination group, while matrix metal oproteinase 2 expression was increased. It indicates that low-frequency electromagnetic fields could promote recovery of motor function in the spinal cord injury rats transplanted with bone mesenchymal stem cel s, which could be associated that low-frequency electromagnetic fields facilitate the survival of transplanted bone mesenchymal stem cel s, up-regulate the expression of matrix metal oproteinase 2, and reduce glial scar formation in the spinal cord injured site.

Objective To study the feasibility of adult stem cell therapy in motor neuron disease. Methods From May 2008 to March 2010, twenty patients with motor neuron disease were treated with adult stem cell. The patients were divided into two groups with umbilical cord mesenchymal stem cell in 14 cases (group A)and autologous Hematopoietic stem cell in 6 cases( group B). 4 ml stem cell ( ＞ 1.0 × 107) were given through subarachnoid injection. 1.0 × 107 cell were injected each time, and rehabilitation were performed simultaneously. Results Seven patients have improved in the dysphagia, bucking, continuity of language and thinking and reaction after 2 weeks' treatment. Seven patients improved remarkably in myodynamia( from Ⅲ to Ⅳ ). There was no effect observed in 6 patients. Three patients died during the follow up for 3 - 6 months. Three patients were followed up for 18 to 24 months and their condition did not getting worse. Conclusion Adult stem cell transplantation may be a safe and practical new ways to treat motor neuron disease.

BACKGROUND:The repair and management of ful-thickness skin defects resulting from burns and chronic wounds remain a significant unmet clinical chal enge. Using epidermal stem cel s and keratinocyte growth factor for ful-thickness wound repair is a promising approach. Low-frequency electromagnetic fields which are a non-invasive physical stimulation therapy have been recognized as a good method to enhance wound healing. OBJECTIVE:To develop a new strategy to accelerate wound healing by transplanting transfected epidermal stem cel s and keratinocyte growth factor and treating with low-frequency electromagnetic fields in a mouse model. METHODS:Epidermal stem cel s from Sprague-Dawley neonatal rats were isolated and cultured in vitro, then the cel s were labeled with 5-bromo-2-deoxyuridine and transfected by Ad-KGF, a recombinant adenovirus carrying the keratinocyte growth factor. Mice were given to create ful thickness skin wound on the dorsum and randomly assigned to four groups:control group, transplantation of epidermal stem cel s group, transplantation of keratinocyte growth factor gene modified epidermal stem cel s group, and transplantation of keratinocyte growth factor gene modified epidermal stem cel s plus low-frequency electromagnetic field exposure group. RESULTS AND CONCLUSION:The best healing pattern was observed in the keratinocyte growth factor gene modified epidermal stem cel s plus low-frequency electromagnetic field exposure group (P<0.05) at days 9 and 16. 5-Bromo-2-deoxyuridine labeled cel s existed in the wound in the treated groups at day 9. A significantly increased expression of endogenous keratinocyte growth factor was detected in the transplantation of Keratinocyte Growth Factor gene modified epidermal stem cel s group, and transplantation of keratinocyte growth factor gene modified epidermal stem cel s plus low-frequency electromagnetic field exposure group at day 16. A wel-advanced epithelialization was observed in transplantation of keratinocyte growth factor gene modified epidermal stem cel s plus low-frequency electromagnetic field exposure group at days 16 and 30. These results suggest that low-frequency electromagnetic fields enhanced wound healing fol owing the transplantation of keratinocyte growth factor gene modified epidermal stem cel s.

According to the analysis of 9 237 hospitalized type 2 diabetic patients, the prevalence of diabetic retinopathy ( DR )was 32.9％ , with the prevalence of mild, moderate, and serious non-proliferative DR and proliferative DR being 10. 1％, 18. 3％, 3.2％, and 1.3％ respectively. The prevalence of diabetic macular edema ( DME ) was 3.56％ in type 2 diabetics and i 0. 8％ in patients with DR. Diabetes duration and proteinuria were the common risk factors of DR and DME.

Objective To investigate the prevalence and risk factors of metabolic syndrome (MS) in residents in Pudong New District of Shanghai. MethodsA total of 5 584 residents aged 20-80 years were randomly selected from Pudong New District of Shanghai through multistage sampling and interviewed from April to July of 2008. Metabolic syndrome was defined according to three diagnostic criteria for MS, issued by the modified National Cholesterol Education Program Adult Treatment Panel Ⅲ criteria ( NCEP-ATP Ⅲ ), International Diabetes Federation (IDF), and Chinese Diabetes Society (CDS). ResultsThe crude prevalences of MS in the adult population in Pudong New District were 18.2％ and 13.1％ standardized ( male 19. 1％, female 17.4％, the age-standardized 15.6％ and 13.2％ ) with CDS criterion, 31.8％ and 24.4％ standardized ( male 28.4％ ,female 35.1％ ,the agestandardized 22. 7％ and 25.0％ ) with NCEP-ATP Ⅲ criterion, and 21.7％ and 17.0％ standardized ( male 15.9％ ,female 26.7％, the age-standardized 13.8％ and 19.2％ ) with IDF criterion. The age-specific prevalence of MS increased according to three diagnostic criteria, and the age-adjusted prevalence was higher in males than females in junior age groups and higher in females than males in senior ones. Significant differences were present among region, education, marriage status, smoking, work intensity, recreation, and physical activity according to some diagnostic criteria. ConclusionsSubstantial proportions of adults in Pudong New District of Shanghai suffer from metabolic syndrome, and there exists a tendency for young people involved. MS has become a noteworthy public health problem. It suggests that community-integrated control strategy of MS should be made a priority.

BACKGROUND: Simple polyvinyl alcohol (PVA) has limited ability to cell adhesion. There are not generally accepted studies on improved effects of collagen protein modified polyvinyl alcohol on cell adhesion and proliferation.OBJECTIVE: To investigate the feasibility of PVA/type Ⅰ college (COL-Ⅰ) as anterior cruciate ligament (ACL) scaffolds in tissue engineering.DESIGN, TIME AND SETTING: The controlled observation experiment was performed at the Fourth Affiliated Hospital, Medical College. Ji'nan University, Guangzhou Red Cross Hospital, Guangzhou Institute of Trauma Surgery from August 2006 to October 2007.MATERIALS: COL-Ⅰ gel was produced by Guangzhou Institute of Trauma Surgery.METHODS: PVA filature was used to weave fascicular scaffolds. NIH-3T3 cell line and human ACL cells were in vitro incubated, amplified, and then implanted on the PVA/COL scaffolds.MAIN OUTCOME MEASURES: The growth of NIH-3T3 cell line and human ACL cells on the PVA/COL scaffolds and the secretion of extracellular matrix were observed using scanning electron microscope. Cell compatibility of PVA/COL scaffolds was assessed. Mechanics characteristic of PVA/COL scaffolds was measured by using the electric. tensile force apparatus. Mechanical property of PVA/COL scaffolds was analyzed using the SPSS 11.5 software package.RESULTS: NIH-3T3 cell line and human ACL cells on the PVA/COL scaffolds adhered, proliferated, and secreted extracellular matrix. NIH-3T3 cell line highly grew compared with human ACL cells on the PVA/COL scaffolds. The adhered number of NIH-3T3 cell line and human ACL cells was significantly increased on the PVA/COL scaffolds. NIH-3T3 cell line and human ACL cells presented well morphology on the PVA/COL scaffolds. COL-Ⅰ could promote the secretion of extracellular matrix from NIH-3T3 cells, but its effects on human ACL cells were not significant. Tensile force test showed that load-extension curve of the materials was identical to ACL of human and rabbits, and the scaffolds possessed strong flexibility. The maximal load, ultimate stress and elastic modulus were respectively 52.61 N, 14.96 MPa and 202.08 MPa.CONCLUSION: COL-Ⅰ accelerates the adhesion and proliferation of NIH-3T3 cell line and human ACL cells on the surface and in the pore of the PVA/COL scaffolds, promotes the secretion of extracellular matrix from NIH-3T3, and PVA filature material has mechanical property and good cell compatibility.