Objective To search the most suitable concentration of calcium in the medium for the basement membrane reconstruction in tissue engineering skin in vitro. Methods Composite chitosan tissue engineering skin was prepared according to previous studies. Four groups were included according to the concentrationof calcium (1.00, 1.45, 1.65 and 1.95 mmol/L respectively). After 7 days and 15 days of culture, the histological manifestation of basement membrane in tissue engineering skin was observed by hematoxylin amp; eosin staining and PAS staining, and collagen Ⅳ of basement membrane was detected immunohistochemicallyatthe dermalepidermal junction. Results This tissue engineering skin shared some histological features of normal skin, including a welldifferentiated stratifiedepidermis and a dense dermis. The epithelium in the group of 1.95 mmol/L calcium differentiated better than those in other groups. PAS staining showing a regularly red dying strap domain at the dermal-epidermal junction. Collagen Ⅳ was positively stained immunohistochemically at the dermalepidermal junction inthe tissue engineering skin. Conclusion The above results suggest that the medium with 1.95 mmol/L calcium should be suitable for the growth of composite chitosan tissue engineering skin and the reconstruction of basement membrane.
Objective To construct human secreted apoptosis-related protein 1 (SARP1) gene yeast two-hybrid bait vector so as to study the biological functions of the SARP1 gene in the scar tissue. Methods The target gene from SARP1 gene full-length DNA segment was amplified by PCR, the upstream and downstream primers of the SARP1 gene with restriction enzymes Nde I and Sal I were designed. pGBKT7-SARP1 recombination plasmid was constructed by ligating the vector and the PCR production and identified by PCR and sequencing. Further more, pGBKT7-SARP1 was transformed into competent AH109 which contained kanamycin for selecting positive clones and screened the positive clony on the plate of SD/-Trp. The toxicity and transcriptional activation were tested by the phenotype assay. Results SARP1 was amplified and cloned into pGBKT7 successfully, SARP1 gene sequence in recombinant plasmid pGBKT7-SARP1 was verified by gel electrophoresis and DNA sequencing analysis. The sequence of inserted SARP1 gene was the same as the corresponding sequence found in GenBank database. The recombinant pGBKT7-SARP1 plasmids and empty pGBKT7 vector could form white colonies on SD/-Trp plates and none could survive on SD/-Leu plates. Conclusion The recombinant pGBKT7-SARP1 gene yeast two-hybrid bait vector is successfully constructed.
Objective To study the interferencing and anti-tumor effects of lentiviral vector of siRNA targeting IGF1R and EGFR gene of the liver cancer cell. Methods The complementary DNA containing both sense and antisense Oligo DNA of the targeting sequence was designed, synthesized and connected to the pLVTHM vector, named pLVTHM-IGF1R, into whom the EGFR-siRNA expression frame containing H1 promotor synthesized by RT-PCR was cloned to generate pLVTHM-IGF1R-EGFR-siRNA. The 293T cells were cotransfected by 3 plasmids of pLVTHM-IGF1R-EGFR-siRNA, psPAX2 and pMD2G to enclose LVTHM-IGF1R-EGFR-siRNA, which was amplified in large amount and purified by caesium chloride density gradient centrifugation for measurement of virus titer. SMMC7721 cells infected by LVTHM-IGF1R-EGFR-siRNA were infection group, the untreated SMMC7721 cells and blank vector plasmid LVTHM were two control groups (SMMC7721 cell group and blank vector group). The effect of LVTHM-IGF1R-EGFR-siRNA on IGF1R and EGFR expressions of SMMC7721 cells were detected by RT-PCR and Western blot. The antitumor potential of LVTHM-IGF1R-EGFR-siRNA to SMMC7721 cells was evaluated by Cell Counting Kit-8 assay for cell growth and TUNEL for apoptosis respectively. Results LVTHM-IGF1R-EGFR-siRNA was constructed successfully. Functional pfu titers of LVTHM-IGF1R-EGFR-siRNA was 4.58×109 pfu/ml. Protein and mRNA expression of IGF1R and EGFR of infection group were less than those of blank vector group and SMMC7721 cell group (P<0.05), LVTHM-IGF1R-EGFR-siRNA was more effective to inhibit the proliferation and promote apoptosis of SMMC7721 cells (P<0.05). Conclusion LVTHM-IGF1R-EGFR-siRNA expressing IGF1R-EGFR-siRNA can inhibit the expression of IGF1R and EGFR, and may be used for further investigation of gene therapy of liver cancer.
Objective To construct yeast eukaryotic expression vector carrying human endostatin (ES) cDNA. Methods The functional fragment of endostatin gene in human hepatic tissue was amplified by using RT-PCR technology, and cloned into yeast pPIC9 expression vector. The positive clone was sequenced by using automatized sequencer. Results The endostatin cDNA was successfully cloned. The positive ES clone gene in pPIC9 expression vector was sieved, and its coding sequence was identified to be as same as the previously reported sequence. Conclusion The successful construction of ES gene in pPIC9 expression vector using molecular biological method maybe helpful for the high expression of ES protein, which may lay the foundation for the treatment of malignant tumor through anti-angiogenesis appoach.
ObjectiveTo construct a framework and functional items of a scientific research assistant tool for conducting systematic review for patient-reported outcome measures. MethodsBased on the research foundation and work experience of the system evaluation of two patient-reported outcome measures systematic reviews carried out by the research group in the early stage, the framework and function system of scientific research aid tool was initially constructed, and two rounds of correspondence were carried out by Dephi expert consultation method. ResultsThe effective recovery rates of the two rounds of expert consultation questionnaires were 90% and 100%, the expert authority coefficient was 0.839, and the compatibility coefficients of suitability and importance were 0.105 and 0.177, respectively. The final the patient-reported outcome measures tool system evaluation scientific research aid tool system consists of 7 frames and 31 items. ConclusionThis study has developed a scientific and comprehensive set of functional criteria for research-assistant tools that systematically review patient-reported outcome measures based on the COSMIN methodology and it lays the foundation for subsequent tool research and development.
This study introduced the construction of individualized risk assessment model based on Bayesian networks, comparing with traditional regression-based logistic models using practical examples. It evaluates the model's performance and demonstrates its implementation in the R software, serving as a valuable reference for researchers seeking to understand and utilize Bayesian network models.
Objective To construct and screen neurite outgrowth inhibitory 66-samll interfering RNA (nogo66-siRNA) eukaryotic expression vectors of effective interference, so as to lay a foundation for further reconstruction of related viral vector. Methods The nogo66-siRNA fragments were designed and cloned into pGenesil-1.1, 4 plasmids of pGenesil-nogo66-siRNA-1, pGenesil-nogo66-siRNA-2, pGenesil-nogo66-siRNA-hk, and pGenesil-nogo66-siRNA-kb were obtained, sequenced and identified, then were transfected into C6 cell l ine. The transfection efficiency was measured by fluorescence microscope. RT-PCR and Western blot were used to detect the expression of nogo gene and select the plasmid of effective interference. Results DNA sequencing results showed interference sequences were correct. The bands of 800 bp and 4.3 kb were detected when pGenesil-nogo66-siRNAs were digested by Kpn I /Xho I. The expression of green fluorescent protein could be detected under fluorescence microscope, and the transfection efficiency was about 73%. RT-PCR and Western blot results showed that compared to non-transfected cells, the transfection of pGenesil-nogo66-siRNA-1 made the expression of nogo gene decl ine 22% and the expression of nogo protein decl ine 73%; the transfection of pGenesil-nogo66-siRNA-2 made the expression of nogo gene decl ine 28% and the expression of nogo protein decl ine 78%; the differences were significant (P lt; 0.05); and the transfection of pGenesil-nogo66-siRNA-hk and pGenesil-nogo66- siRNA-kb did not make the expressions of nogo gene and nogo protein decrease significantly (P gt; 0.05). Conclusion Nogo66-siRNA eukaryotic expression vector is successfully constructed, it lays an experimental foundation for repair of spinal cord injury.
Sichuan provincial health emergency team has completed a number of domestic emergencies, as well as the emergency medical rescue of the Nepal earthquake, since constructured. It established a great industry image, moreover, the people’s health and safety of life were ensured. This paper summarized the experience of Sichuan provincial health emergency team construction, to provide scientific evidence of optimizing health emergency team construction in China.
Objective We aimed to evaluate the current status of the construction and practice of the stroke center in West China Hospital of Sichuan University and develope a future strategy to promote the standardized developement of inpatients care and evidence practice. Methods The current status of the Stroke Center in West China Hospital of Sichuan University was assessed. The procedure of diagnosis and treatment was inspected in detail, including triage, thrombolytic therapy, antithrombotic medication and anticoagulant, primary and secondary prevention, filter of risk factors, rehabilitation and education for patients. After that, new plans were made on the basis of the assessment and experiences acquired from practices in the Stroke Center in West China Hospital. Results The primary Stroke Center had been constructed in West China Hospital. The practice in West China Hospital showed that the Stroke Center significantly reduced the mortality and shortened the length of hospital stay of the patients with stroke. Conclusion It is proved that construction and implementation of the Stroke Center in West China Hospital are feasible.
【Abstract】 Objective To reconstruct three different kinds of tympanic membrane in vitro by tissue engineeringtechnique, and to examine their histological structures and mechanical properties. Methods The skin and dura of pig(weight 30 kg) were processed with high satuated sal ine and enzymes to make extracellular matrix. Meanwhile, fibroblasts(1×106 /mL,0.2 mL) were seeded on the surface of these two scaffolds and collagen. The composite tissues were cultured in vitro for 1 week and examined in histological structure and mechanical properties. Results Fibroblasts cultured were spindle–shaped and could grow and attach to these scaffolds with a arrangement of sarciniform and parallel. The reconstructed tissue of ECM and collagen appeared to integrate well and had better bio-compatibil ity. The mean thickness of the collagen, the skin and the dura (all covered with fibroblasts) were 9.4, 10.0 and 10.4 μm respectively. The tension of the collagen was (1.417±0.030) N/mm2, of the acellular dermal matrix was (24.500±2.040) N/mm2(being close to the tension of normal tympanic membrane, 26.700 N/ mm2),of the acellular dura was (53.300±2.600) N/mm2. Conclusion The results suggest that the tension and the thinkness of acellular dermal matrix is similar to the normal tympanic membrane of guinea pig, it is an ideal material for tympanoplasty.