Objective To investigate the mechanism of gastrointestinal motility disorder of severe acute pancreatitis (SAP) in rats. Methods SD rats were randomly divided into 2 groups:sham operation (SO) group (n=16) and SAP group (n=16). The gastric antrum interdigestive myoelectric complex (IMC) of rat was recorded by using bipolar silver electrode recording, the concentration of serum motilin (MTL) and vasoactive intestinal peptide (VIP) were detected by enzyme-linked immunosorbent assay (ELISA) method, and determined the pancreatic pathology score. Results Compared with SO group, the concentration of serum MTL obvious decreased and the concentration of VIP obvious rised in SAP group (P<0.01). Compared with SO group, the time of IMC cycle, andⅠand Ⅱ phase were extended, and time of Ⅲ phase was shortened, also the amplitude and frequency of peak electric of Ⅲ phase were declined in SAP group (P<0.01). And the concentration of MTL in SAP group showed positive correlation with the time of Ⅲ phase of IMC (r=0.967, P<0.01), the concentration of VIP in SAP group showed negative correlation with the time of Ⅲ phase of IMC (r=-0.592, P<0.05). The pancreatic organization pathological score in SAP group was higher than that in SO group (P<0.01). Conclusion There is gastrointestinal motility disorder in SAP rats, furthermore, it may induce gastrointestinal motility disorder through effecting the gastrointestinal smooth muscle electrical activity.
ObjectiveTo study the effect of deep sternal wound infections(DSWIs)treated by the techniques of pectoral major muscular(PM) turnover and non-suture remain after the wound restitution.MethodWe retrospectively analyzed the clinical data of 23 patients with DSWIs in our hospital between June 2016 and December 2016. There were 13 males and 10 females at age of 4-73(54.5±19.5) years. There were 8 patients with concomitant diabetes mellitus and 1 patient with chronic obstructive pulmonary disease(COPD) and brain infarction. Eigteen patients were of type Ⅱ, 5 patients of type Ⅲ according to Pairolero’ classification in the DSWIs. Five patients were with remaining abscess cavity in the mediastinum by thoracic compute tomography(CT). Under general anesthesia the DSWIs debrided thoroughly. The PM elevated from the anterior pectoralis major fascia off subcutaneous tissue to lateral to anterior axillary line, the PM cutted off, then made to the muscle flap, turnover PM flap filled and fixed to sternal wound by lighten tensile suture, the subcutaneous tissue and skin sutured by cutting full-thickness.ResultsThe sternal reconstruction after debridement of the sternal wound was used by bilateral PM flap in the 17 patients, unilateral PM in 6 patients. There were 21(91.3%) patients in stage Ⅰ healing, 2 patients deferment healing of local cut skin without reoperation. There were 22 patients with non-paradoxical breathing during the postoperation. One death resulted from multiple-organ failure of the concomitant disease. The average of hospital day was 10.6 days. The wound healing was good by chest CT at 1 month after the operation.ConclusionThe sternal forming by the technique of the PM flap turnover, without remain of fremde stoffe in wound for DSWIs is distinctive method, evident effect.
Objective To study the expression of human Runt-related transcription factor 1 (RUNX1) in rat airway epithelial cells stimulated by cigarette smoking extract (CSE), and explore the role of RUNX1 in regulating epithelial-mesenchymal transition (EMT). Methods Primary rat bronchial epithelial cells were cultured by enzyme digestion and stimulated with different concentrations of CSE. The viability of cells was detected by CCK-8 to explore the appropriate concentration of CSE. After the cells were treated with CSE, the Runx1 interference and overexpression vectors were constructed and transfected into the cells to silence or overexpress the Runx1 gene. Immunocytochemical method was used to detect RUNX1 expression and Western blot analysis was used to detect the expression of RUNX1, nuclear factor-κB (NF-κB), Snail, E-cadherin, and vimentin. Results The survival rate of bronchial epithelial cells could be reduced by CSE, and the degree of reduction was directly positively correlated to the concentration of CSE. After CSE stimulation, the expression level of E-cadherin in primary rat bronchial epithelial cells decreased significantly (P<0.05); the expression levels of RUNX1, NF-κB, Snail and vimentin significantly increased (P<0.05). After interfering with RUNX1 gene, the expression level of E-cadherin was up-regulated (P<0.05), and the expression levels of NF-κB, Snail and vimentin were down-regulated (P<0.05). After overexpression of RUNX1 gene, the expression level of E-cadherin decreased (P<0.05), and the expression levels of NF-κB, Snail and vimentin increased (P<0.05). Conclusions CSE promotes the expression of RUNX1 in rat airway epithelial cells. RUNX1 might regulate EMT process by involving in the regulation of NF-κB /Snail expression.
O6-carboxymethyl guanine(O6-CMG) is a highly mutagenic alkylation product of DNA that causes gastrointestinal cancer in organisms. Existing studies used mutant Mycobacterium smegmatis porin A (MspA) nanopore assisted by Phi29 DNA polymerase to localize it. Recently, machine learning technology has been widely used in the analysis of nanopore sequencing data. But the machine learning always need a large number of data labels that have brought extra work burden to researchers, which greatly affects its practicability. Accordingly, this paper proposes a nano-Unsupervised-Deep-Learning method (nano-UDL) based on an unsupervised clustering algorithm to identify methylation events in nanopore data automatically. Specially, nano-UDL first uses the deep AutoEncoder to extract features from the nanopore dataset and then applies the MeanShift clustering algorithm to classify data. Besides, nano-UDL can extract the optimal features for clustering by joint optimizing the clustering loss and reconstruction loss. Experimental results demonstrate that nano-UDL has relatively accurate recognition accuracy on the O6-CMG dataset and can accurately identify all sequence segments containing O6-CMG. In order to further verify the robustness of nano-UDL, hyperparameter sensitivity verification and ablation experiments were carried out in this paper. Using machine learning to analyze nanopore data can effectively reduce the additional cost of manual data analysis, which is significant for many biological studies, including genome sequencing.
Objective To explore the effect of NaOH on the surface morphology of three-dimensional (3D) printed poly-L-lactic acid (PLLA) mesh scaffolds. Methods The 3D printed PLLA mesh scaffolds were prepared by fused deposition molding technology, then the scaffold surfaces were etched with the NaOH solution. The concentrations of NaOH solution were 0.01, 0.1, 0.5, 1.0, and 3.0 mol/L, and the treatment time was 1, 3, 6, 9, and 12 hours, respectively. There were a total of 25 concentration and time combinations. After treatment, the microstructure, energy spectrum, roughness, hydrophilicity, compressive strength, as well as cell adhesion and proliferation of the scaffolds were observed. The untreated scaffolds were used as a normal control. Results 3D printed PLLA mesh scaffolds were successfully prepared by using fused deposition molding technology. After NaOH etching treatment, a rough or micro porous structure was constructed on the surface of the scaffold, and with the increase of NaOH concentration and treatment time, the size and density of the pores increased. The characterization of the scaffolds by energy dispersive spectroscopy showed that the crystal contains two elements, Na and O. The surface roughness of NaOH treated scaffolds significantly increased (P<0.05) and the contact angle significantly decreased (P<0.05) compared to untreated scaffolds. There was no significant difference in compressive strength between the untreated scaffolds and treated scaffolds under conditions of 0.1 mol/L/12 h and 1.0 mol/L/3 h (P>0.05), while the compression strength of the other treated scaffolds were significantly lower than that of the untreated scaffolds (P<0.05). After co-culturing the cells with the scaffold, NaOH treatment resulted in an increase in the number of cells on the surface of the scaffold and the spreading area of individual cells, and more synapses extending from adherent cells. Conclusion NaOH treatment is beneficial for increasing the surface hydrophilicity and cell adhesion of 3D printed PLLA mesh scaffolds.