BACKGROUND: Human acellular amniotic membrane is a kind of extracellular matrix material with good biocompatibility and biological activity. It has been widely used in various clinical studies because of its low immunogenicity, small rejection and easy preparation.OBJECTIVE: To review the applications of human acellular amniotic membranes in tissue engineering field, such as skin, blood vessel, cornea, cartilage and bone.METHODS: CNKI (from January 2005 to May 2017), CBMdisc (from January 2005 to May 2017), PubMed (from January 1990 to May 2017) and Elsevier (from January 1990 to May 2017) were retrieved for articles addressing the application of human acellular amniotic membrane as a tissue-engineered scaffold in the bone, cartilage, skin, and blood vessels.The keywords were acelluar amniotic membrane, scaffold, material, tissue engineering ECM in Chinese and English, respectively.RESULTS AND CONCLUSION: Human acellular amniotic membrane owns the structure and function of the natural extracellular matrix, which can be combined with stem cells from different sources to differentiate into different tissues and organs, such as bone, cartilage, skin, blood vessel, and corneal tissues. As a tissue-engineered scaffold, human acellular amniotic membrane has good biocompatibility, biodegradability and low immunogenicity, although it has some shortcomings, such as poor strength and post-transplantation rejection reactions. Therefore, the future studies are mainly focused on shortening the adhesion time between cells and scaffolds, increasing the own mechanical strength of human acellular amniotic membrane, optimizing the cell growth microenvironment, and combining human acellular amniotic membrane with other tissue-engineered scaffolds.

Objective:To investigate the anxious and despondent emotion in patients suffering from chronic eczema,and its influence factor thereof.Methods:The patients suffering from chronic eczema were investigated with self-rating anxiety scale(SAS),self-rating depression scale(SDS)and evsenck personality questionnaire(EPQ).The healthy persons were investigated with SAS and SDS.The severity of pruritus and skin rash in patients suffering from chronic eczema was assessed by visual analogue scale (VAS)and eczema area severity index (EASI).Results:The scores of SAS and SDS were significantly higher in patients with chronic eczema than that of healthy persons(P＜0.01).The multivariate stepwise regression analysis result demonstrated that the factors influencing anxious emotion were in turn severity of pruritus,disease position and stability of emotion introverted-extroverted disposition.The factors influencing despondent emotion were in turn disease position,course of disease,concealing,stability of emotion and severity of pruritus.Conclusion:There was obvious anxious and despondent emotion in patients with chronic eczema.These emotions were closely correlated with psychosocial factors,severity of pruritus and skin rash.

Objective To provide the reference for schistosomiasis control through analyzing the changes of endemic status of schistosomiasis in China in recent years. Methods The annual data of schistosomiasis prevention and control from 2002 to 2012 were collected, and the descriptive analysis was conducted to describe the changes of schistosomiasis endemic status. Re?sults Sichuan, Yunan and Jiangxi provinces reached the criteria of transmission controlled from 2002 to 2010 while Hubei, Hu?nan, Jiangxi and Anhui provinces reached the criteria of infection controlled in 2008. The number of counties where the trans?mission of schistosomiasis was controlled decreased from 110 in 2002 to 80 in 2010. The numbers of estimated schistosomiasis cases and reported acute cases fell from 810.4 thousands and 913 in 2002 to 325.8 thousands and 43 in 2010, respectively, and they were reduced by 59.79%and 95.40%respectively. The number of infected bovine went down from 23 199 in 2002 to 7 173 in 2010, with a fall of 69.03%. However, the Oncomelania hupensis snails breeding areas kept in 3.7 to 3.8 billion m2 and among which, 125 million m2 areas were newly discovered in non?endemic areas during the nine years. In 2010, 90%of schistosomiasis cases, acute cases, infected bovine, and snail breeding areas were concentrated in 5 provinces, especially in the Dongting Lake and Poyang Lake areas and the regions along the Yangtze River. Conclusions The epidemic of schistosomiasis decreased sig?nificantly from 2002 to 2010. The lake regions are the key and tough areas for schistosomiasis prevention and control. To consoli?date the achievements, the surveillance and case management need to be strengthened as the extension of snail breeding areas and acute cases reported from other places becomes common.

Objective To assess the theoretical knowledge and practical skills of parasitic diseases among technicians from disease control and prevention institutions. Methods The Assessment on National Parasitic Disease Control and Prevention Techniques was organized in September,2015. Together,124 subjects from disease control and prevention institutions at prov-ince,prefecture or county levels in 31 provinces joined the assessment. A database was built consisting of subjects'basic infor-mation and assessment scores. Statistical analysis was used to analyze the scores by gender,age,professional title,institutions and places of participants. Results The average total score of all the subjects was 123.3,with a passing rate of 57.3%. The av-erage scores of male subjects(48 subjects)and female subjects(76 subjects)were 125.9 and 121.7 respectively;the average scores of the subjects aged under 30 years(57 subjects),between 30 and 40 years(61 subjects)and above 40 years(6 sub-jects)were 119.6,128.1 and 111.2 respectively;the average scores of persons with junior(94 subjects),intermediate(28 sub-jects)and senior(2 subjects)professional titles were 119.2,135.9 and 140.5 respectively. The average theoretical assessment score of all the subjects was 61.9,with a passing rate of 62.9%. The average practical skill assessment score of all the subjects was 61.4,with a passing rate of 58.1%. Conclusions The theoretical assessment results range widely. The theoretical knowl-edge results of technicians from disease control and prevention institutions are low in general. Therefore ,the specific training based on daily work needs to be enhanced.

Objective:To conduct a comparative analysis of the biomechanical properties of Seinsheimer type V subtrochanteric femoral fractures treated with different fixation methods, including proximal femoral locking plate, Cephalomedullary nail + plate, Cephalomedullary nail + titanium cable, reconstructive intramedullary nail + plate, and reconstructive intramedullary nail+titanium cable, using finite element analysis.Methods:CT scan data of the left femur from a healthy adult volunteer was obtained and utilized to create a finite element model of Seinsheimer V subtrochanteric femoral fracture through software simulation. The construction of femoral proximal locking plates, cephalomedullary nails, reconstructive intramedullary nails, steel plates, and titanium cable internal fixation devices was based on manufacturer-provided product manuals. Following the assembly of fracture and internal fixation components, comparisons were made under physiological loads regarding the maximum displacement, maximum stress, and stress excitation effects on fracture fragments and internal fixation components across the various fixation models.Results:The maximum displacements of the femoral proximal locking plate, cephalomedullary nail + plate, cephalomedullary nail+titanium cable, reconstructive intramedullary nail+plate, and reconstructive intramedullary nail+titanium cable were 7.9, 5.7, 4.3, 4.3, and 4.9 mm, respectively. The maximum displacements of the internal fixation systems were 7.4, 5.8, 4.3, 4.3, and 4.9 mm, respectively. The maximum torsion angles of the internal fixation systems were 1.8°, 1.5°, 1.4°, 1.3°, and 1.5°, respectively. The maximum stresses on the fracture fragments of the femoral proximal locking plate were 172.0, 114.1, 115.4, 93.5, and 118.5 MPa, respectively. The maximum stresses on the internal fixation systems were 4,530.0, 993.6, 1,179.0, 890.4, and 847.2 MPa, respectively. The maximum contact stress on the contact surfaces of the distal and proximal fracture contact surface of the medial wall, and the distal and proximal fracture contact surface of the lateral wall of the proximal femoral locking plate was 48.9, 37.9, 4.4, 18.7 MPa, which was the highest among the five fixation methods, respectively. The contact stress of the cephalomedullary nail+titanium cable on contact surfaces mentioned above was 16.1, 18.1, 6.9, 11.7 MPa, exceeding the 0.0, 0.0, 5.5, 7.5 MPa of the cephalomedullary nail+plate. The contact stress of the reconstructive intramedullary nail+titanium cable on contact surfaces mentioned above was 13.7, 13.4, 6.9, 14.1 MPa, exceeding the 0.0, 0.0, 5.6, 11.0 MPa of the reconstructive intramedullary nail + plate as well.Conclusion:The utilization of the reconstructive intramedullary nail + titanium cable fixation method for treating Seinsheimer type V subtrochanteric femoral fractures demonstrates superior performance in terms of structural stability, durability, and stress stimulation on the bone cortex.

BACKGROUND:Prosthesis loosening and wear are still the main problems in the failure of total ankle replacement,which are closely related to the micro-motion of the implant-bone interface,the contact stress of the articular surface and joint motion.The design of artificial joint components,including insert and tibial/talar stem prosthesis,is a key factor affecting the force,motion,and micromotion of the contact interface of the ankle joint.The development of new inserts is of great significance to improve the survival rate of artificial ankle joints. OBJECTIVE:The finite element model of the total ankle replacement model was constructed to detect the biomechanical properties of the porous structure-optimized inserts,and the effect of the porous structure-optimized inserts on reducing prosthesis micromotion and improving the contact behavior of the articular surface was analyzed. METHODS:Based on the CT scan data of the right ankle joint of a healthy adult and the INBONE Ⅱ system product manual,a three-dimensional model including bone and artificial joint system was established,and the total ankle replacement model(model A)was obtained after osteotomy and prosthesis installation,and then through four new types of inserts,G50,G60,D50,and D60,were obtained by transforming the porous structure of the original insert,and the original one was replaced with different inserts to establish an optimized total ankle replacement model(models B-E)corresponding to the inserts.The gait loads were applied on the five models to simulate the gait conditions.The differences in micromotion and articular surface contact behaviors at the implant-bone interface of all five models were compared. RESULTS AND CONCLUSION:(1)In the gait cycle,the micromotion of the prosthesis of the four optimized total ankle replacement models was lower than that of the original model.Compared with model A,the micromotion of the prosthesis in models B-E decreased by 5.4%,10.1%,8.1%,and 20.9%,respectively.The high micromotion area of t ??he tibial groove dome in the optimized model was significantly smaller than that of the original model.(2)The four optimized models obtained a larger articular surface contact area.Compared with model A,the average contact area of t ??he inserts in models B-E increased by 11.8%,14.7%,8.1%,and 32.6%,respectively.(3)Similar to the effect of increasing the contact area,compared with the original model,the contact stress of the optimized model decreased in varying degrees,and the value of model E decreased the most significantly(P<0.05),it is due to good mechanical properties and large porosity of the Diamond lattice that constitutes the D60-type insert.(4)The research results show that the use of porous structure to improve the inserts can improve the elasticity of the inserts and increase its ability to absorb joint impact,for favorable conditions are created for reducing micromotion at the implant-bone interface and improving joint contact behavior.

Management of bone defects caused by fractures，bone tumors or infections is clinically difficult as well as a hot topic in current studies. With further researches over bone defects，the construction of tissue-engineered bone has played a great role in the treatment of bone defects. Blood vessels not only provide the necessary nutritional mineral salts，growth factors，hormones for bone formation，also are able to mediate the interaction among osteoblasts and osteoclasts，osteocytes，bone autonomic nerve and endothelial cells，since bone formation exist spatially and temporally connection with angiogenesis. Therefore，the authors make a systematic literature review on the research progress of the coupling mechanism of angiogenesis and osteogenic differentiation，blood vessels and related signal pathways on osteogenic differentiation and angiogenesis-related molecules in osteogenic differentiation during the process of traumatic bone defects，so as to provide new ideas for the treatment of bone defects.

OBJECTIVE: To discuss the influence of artificial ankle elastic improved inserts (hereinafter referred to as "improved inserts") in reducing prosthesis micromotion and improving joint surface contact mechanics by finite element analysis. METHODS: Based on the original insert of INBONE Ⅱ implant system (model A), four kinds of improved inserts were constructed by adding arc or platform type flexible layer with thickness of 1.3 or 2.6 mm, respectively. They were Flying goose type_1.3 elastic improved insert (model B), Flying goose type_2.6 elastic improved insert (model C), Platform type_1.3 elastic improved insert (model D), Platform type_2.6 elastic improved insert (model E). Then, the CT data of right ankle at neutral position of a healthy adult male volunteer was collected, and finite element models of total ankle replacement (TAR) was constructed based on model A-E prostheses by software of Mimics 19.0, Geomagic wrap 2017, Creo 6.0, Hypermesh 14.0, and Abaqus 6.14. Finally, the differences of bone-metal prosthesis interface micromotion and articular surface contact behavior between different models were investigated under ISO gait load. RESULTS: The tibia/talus-metal prosthesis interfaces micromotion of the five TAR models gradually increased during the support phase, then gradually fell back after entering the swing phase. The improved models (models B-E) showed lower bone-metal prosthesis interface micromotion when compared with the original model (model A), but there was no significant difference among models A-E ( P>0.05). The maximum micromotion of tibia appeared at the dome of the tibial bone groove, and the ​​micromotion area was the largest in model A and the smallest in model E. The maximum micromotion of talus appeared at the posterior surface of the central bone groove, and there was no difference in the micromotion area among models A-E. The contact area of the articular surface of the insert/talus prosthesis in each group increased in the support phase and decreased in the swing phase during the gait cycle. Compared with model A, the articular surface contact area of models B-E increased, but there was no significant difference among models A-E ( P>0.05). The change trend of the maximum stress on the articular surface of the inserts/talus prosthesis was similar to that of the contact area. Only the maximum contact stress of the insert joint surface of models D and E was lower than that of model A, while the maximum contact stress of the talar prosthesis joint surface of models B-E was lower than that of model A, but there was no significant difference among models A-E ( P>0.05). The high stress area of the lateral articular surface of the improved inserts significantly reduced, and the articular surface stress distribution of the talus prosthesis was more uniform. CONCLUSION Adding a flexible layer in the insert can improve the elasticity of the overall component, which is beneficial to absorb the impact force of the artificial ankle joint, thereby reducing interface micromotion and improving contact behavior. The mechanical properties of the inserts designed with the platform type and thicker flexible layer are better.
Adult ; Male ; Humans ; Ankle ; Ankle Joint/surgery* ; Finite Element Analysis ; Tibia/surgery* ; Talus ; Stress, Mechanical ; Biomechanical Phenomena

Previous studies suggest that the reduction of SMAD3 (mothers against decapentaplegic homolog 3) has a great impact on tumor development, but its exact pathological function remains unclear. In this study, we found that the protein level of SMAD3 was greatly reduced in human-grade IV glioblastoma tissues, in which LAMP2A (lysosome-associated membrane protein type 2A) was significantly up-regulated. LAMP2A is a key rate-limiting protein of chaperone-mediated autophagy (CMA), a lysosome pathway of protein degradation that is activated in glioma. We carefully analyzed the amino-acid sequence of SMAD3 and found that it contained a pentapeptide motif biochemically related to KFERQ, which has been proposed to be a targeting sequence for CMA. In vitro, we confirmed that SMAD3 was degraded in either serum-free or KFERQ motif deleted condition, which was regulated by LAMP2A and interacted with HSC70 (heat shock cognate 71 kDa protein). Using isolated lysosomes, amino-acid residues 75 and 128 of SMAD3 were found to be of importance for this process, which affected the CMA pathway in which SMAD3 was involved. Similarly, down-regulating SMAD3 or up-regulating LAMP2A in cultured glioma cells enhanced their proliferation and invasion. Taken together, these results suggest that excessive activation of CMA regulates glioma cell growth by promoting the degradation of SMAD3. Therefore, targeting the SMAD3-LAMP2A-mediated CMA-lysosome pathway may be a promising approach in anti-cancer therapy.