Long tracheal lesions are mainly caused by stenosis, infection, trauma, malignant tumors and other factors. Resection of the diseased tissue or stenosis and end-to-end anastomosis is currently the gold standard for long tracheal lesions treatment. However, these treatment programs have proven to have major limitations. In recent years, tissue engineering technology has been regarded as a promising medical alternative treatment method, and the selection of scaffold materials is one of key parts. With the continuous exploration of domestic and foreign researchers, biological materials have been continuously developed and applied to the research of tissue engineering trachea. Tissue engineering degradable scaffold materials can be divided into natural polymer material scaffolds and synthetic polymer scaffolds according to the different sources. The scaffold material can be modified or compounded as needed to improve the biological properties of scaffolds. In addition, with the continuous development of biological printing technology, different scaffold materials can be better combined and used. Biodegradable scaffolds have become a new research direction in the field of tissue engineering trachea due to their polymer properties, and have good application prospects.

According to the course characteristics and teaching outline of medical psychology,problem-based learning (PBL) case about somatoform disorders was compiled based on a typical clinical real case.The PBL case covered a wide range of topics such as basic medicine,clinical medicine and medical psychology.Just as clinical treatment process,teachers gave information and put forward the corresponding questions in successive steps.By self-study and group discussion,students learned knowledge about anxiety,somatoform disorders,therapeutic relationship,sociocultural factors and individual personality.The course survey showed that PBL teaching was appreciated by medical students.The PBL model can improve learning interest and self-study ability,promote the connection of different subjects and combine theory and practice.The PBL model is useful for improving the quality of medical psychology teaching.

Object To probe into the objectivity and authenticity of four properties (cold, heat, warm, and cool) of raw Coptidis Rhizoma (RCR) and their preparations from biophysics and biochemistry. Methods Microcalorimetry was used to obtain the metabolic growth power-time curve of bacteria affected by the total alkaloid in different preparations of RCR and biothermokinetic parameters. Combined with the records of ancient herbal literatures, the influence of properties by different preparations to RCR were synthetically evaluated. Results All the effective total alkaloid in different preparations of RCR can restrain the Escherichia coli growth and metabolism in different level. Drugs, such as Coptidis Rhizoma Stir-fried with ginger juice (CRGJ), Coptidis Rhizoma stir-fried with wine (CRW), and Coptidis Rhizoma stir-fried with Fructus Evodiae (CRFE), with a little Warm Property can decrease the multiplication rate constants of E. coli index and increase heat output in growth metablism remarkably, while the drugs, such as RCR, Coptidis Rhizoma stir-fried with vinegar (CRV), and Coptidis Rhizoma stir-fried with gallbladder juice (CRGBJ), with a little Cold Property can decrease the multiplication rate constants and increase heat output a little. There was a stable difference between them. Conclusion Microcalorimetry is a new and useful mean for the study of the properties of tradition Chinese medicine.

OBJECTIVETo study the relationship between the protection of Ginsenoside(GS) for spinal cells and nitric oxide (NO).

METHODSpinal cells were cultured in vitro, the model of peripheral nerve was established by scarifying the cells, and NO was measured by Griess method.

RESULTNO in injury group was high than that in noninjury group and NO in group cultured by GS was less than that in group cultured by common medium.

CONCLUSIONNO increases when peripheral nerve is injuried, and the protective effect of GS on spinal cells may be through inhibiting NO release.

Animals ; Cells, Cultured ; Fetus ; Ginsenosides ; isolation & purification ; pharmacology ; Motor Neurons ; cytology ; drug effects ; metabolism ; Neurons, Afferent ; cytology ; drug effects ; metabolism ; Neuroprotective Agents ; pharmacology ; Nitric Oxide ; metabolism ; Panax ; chemistry ; Plants, Medicinal ; chemistry ; Rats ; Rats, Sprague-Dawley ; Spinal Cord ; cytology ; metabolism

It is the objective of this study to develop dynamic predictive model for the extraction process of red Ginseng using NIR spectroscopy. NIR spectroscopy was collected online and PLSR models were developed for total quantity of ginsenosides. The performance of NIR prediction model achieved R, RMSEC, RMSEP of 0.996 09, 0.018 9, 0.016 8, respectively. A first order dynamic mass transfer model was combined with NIR prediction of the quality indicator to predict the trajectory of the extraction process based upon the initial 3 or 4 data points. The results showed good agreement with actual measurements indicating reasonable accuracy of the predictive model. It could potentially be used for advanced predictive control of the extraction process.
Chemical Fractionation ; methods ; Ginsenosides ; chemistry ; isolation & purification ; Models, Theoretical ; Panax ; chemistry ; Spectroscopy, Near-Infrared

Objective To construct the expressing vector of shRNA/mrp1 and study its expression in vitro. Methods 64bp oligonucleotides of pSUPER and the targeted senquence of siRNA/mrp1 were synthesized and annealed to form duplex strand, then were cloned into pSUPER to construct pSUPER-shRNA/mrp1 vector. Competenced Ecoli was transfected by vector of pSUPER-shRNA/ mrp1 to screen the positive clones for sequencing and extracting plasmid. The plasmids extracted were used to transfected HepG2/mrp1 cells with a control groups by negative vectors. The expression of mrp1 mRNA and MRP1 was measured by real-time PCR and resistance of HepG2/mrp1 by flowcytometry. Results pSUPER-shRNA/mrp1 was established successfully and was sequenced to test its accuracy. Expression of mrp1 mRNA in HepG2/mrp1-si was lower than that in HepG2/mrp1 (1-fold vs 179.76-fold, P<0.001). Compared to HepG2/mrp1, the expression of MRP1 in HepG2/mrp1-si was lower (11.2% vs 97.6%, P<0. 05). The sensitivity of HepG2/mrp1-si to adiramycin was higher than that of HepG2/mrp1(45.0-fold vs 1.2-fold, P<0.01). Meanwhile, the accumulation of DNR in HepG2/mrp1-si increased significantly as compared with the control (78.58 % vs 38.44%,P<0.05).Conclusion Vector of pSUPER-shRNA/mrp1 can be constructed by the technique of enzymatic incision. The multidrug resistance of HepG2/mrp1 can be reversed by RNA interference.

The essential medium of B115 composed of 1% tryptone, 0.25% yeast extract and 0.5% sodium chloride was determined by using an orthogonal design. The orthogonal design was also employed in testing the optimum additions. It was composed of 0.1%(NH_(4))_(2)SO_(4),1.4%K_(2)HPO_(4), 0.6% KH_(2)PO_(4) and 0.1% (Na_(3)C_(6)H_(5)O_(7)). The yield of B115 cultured in optimum medium was compared with the one in essential medium. Statistic analysis showed that the growth of B115 was most significantly improved by adding K~(+)、NH~+_(4) and (Na_(3)C_(6)H_(5)O_(7)) to essential medium. The antibacterial effect of Bacillus subtilis strain B115 on pathogenic Aeromonas was studied. The results showed different antibacterial effects of B115 on different aeromonads. There were obvious antibacterial effects on BSK-10 and CL990920, while no effect on the growth of TL970424.

Objective To make it clear whether dust storms may produce same acute adverse impacts on community population. Methods 2 primary schools in Baotou City were selected. During the period of dust storm in March of 2004 an investigation among 918 pupils from third to fifth grades and 1 770 parents of them was conducted by questionnaires. Meanwhile the concentrations of PM2.5 were also determined. Results On the day of dust storms developed the concentrations of PM2.5 obviously increased (212.9 ?g/m3)then decreased rapidly(

Objective:It is demostrated that the porous protein-mineral mechanics model could provide more accurate prediction for biomaterial properties of dentine compared with the other established models.This paper would use the model to reevaluate the mechanical properties and its interacting mechanism of human dentine.Method:By using a porous proteinmineral mechanics model,the effect from the interactions between tubules,pedtubular and intertubular matrix on dentine microstructure was discussed.Results:The dentinal micromechanical properties were dependent on the tubular direction,and the absolute values of the stresses derived from the hydraulic and gas tubular pressures increased parabolically with theincreasing diameter of the tubules.It was also found that the effective elastic constants of the dentine microstructure would vary with the aging and the distribution of mineral and collagen within peritubular and intertubular matrix of detine.Conclusions:The theoretical analyses provided in this paper demonstrated that the microstructural characteristics of tubules,peritubular and intertubular dentinal matdx could have different influences on the micromechanical properties of human dentine,which showed the validity of porous protein-mineral mechanics model,and the limitation of some models that neglected the interacting mechanism.

Objective:It is demostrated that the porous protein-mineral mechanics model could provide more accurate prediction for biomaterial properties of dentine compared with the other established models.This paper would use the model to reevaluate the mechanical properties and its interacting mechanism of human dentine.Method:By using a porous proteinmineral mechanics model,the effect from the interactions between tubules,pedtubular and intertubular matrix on dentine microstructure was discussed.Results:The dentinal micromechanical properties were dependent on the tubular direction,and the absolute values of the stresses derived from the hydraulic and gas tubular pressures increased parabolically with theincreasing diameter of the tubules.It was also found that the effective elastic constants of the dentine microstructure would vary with the aging and the distribution of mineral and collagen within peritubular and intertubular matrix of detine.Conclusions:The theoretical analyses provided in this paper demonstrated that the microstructural characteristics of tubules,peritubular and intertubular dentinal matdx could have different influences on the micromechanical properties of human dentine,which showed the validity of porous protein-mineral mechanics model,and the limitation of some models that neglected the interacting mechanism.