Objective To evaluate correlations between CT features and clinical activity index of Crohn’s disease(CD).Methods The CTE datasets from 37 patients with moderate active,severe active and remission stages CD were retrospectively analyzed.To ob-serve imaging features of intestinal wall,parenteral and complications.And analyze whether there was an association between imaging findings and clinical activity.Results A total of 147 bowel segments in 37 cases were involved.Wall thickening (intestinal wall≥4 mm)were observed in 121 segments.An average thickness was (12.1±3.2)mm.There are 42 bowel segments of trilaminar mural stratifica-tion,71 of the double-layed stratification and 34 of non-stratification.Enlarged mesenteric lymph nodes were observed in 20 patients. Comb sign was observed in 27 patients.Higher density of surrounding fat appeared in 22 cases.The other 37 cases inluced 4 cases with abdominal abscess,7 cases with fistula,1 6 cases with intestinal obstruction or stenosis and 1 7 cases of perianal disease.The in-testinal stratification,wall thickening,comb sign,mesenteric fat density increased,abdominal abscess,intestinal stenosis and obstruc-tion were closely associated with clinical activity.Conclusion CTE images could provide information about intestinal wall,parenteral changes and complications of Crohn’s disease,and effectively help identifying remission and active stages of Crohn’s disease.

OBJECTIVE Toinvestigatetheantidepressantandantianxietyeffectofproanthocyani-dins(OPC)inchronicallystressedratsanditsunderlyingmechanism.METHODS Onemethodwas selected from 8 different stress methods each day,and the rats were treated with OPC (25,50 and 1 00 mg·kg -1 )1 h before the stress method.The chronically stressed model was established.After 21 d stress experi ment,the i mmobility ti me in force swi mming test,sucrose consu mption and the nu mber of marbles buried in the marble burying test were observed respectively each day.OPC (25,50 and 1 00 mg·kg -1 )was given 1 h before each test.In addition,Western blotting was used to analyze the expression of brain derived neurotrophic factor (BDNF) and phosphorylated cyclic AMP response element-bindingprotein(p-CREB)inthehippocampusandfrontalcortex.RESULTS Comparedwith the control group,the chronically stressed group showed obvious depressive-like and anxiety-like behav-ior,while the immobility time decreased from (90.57 ±4.27)s in chronically stressed group to (78.25 ± 2.53)s (P<0.05),(72.12 ±3.21 )s(P<0.05)and (60.77 ±3.41 )s (P<0.05)when ig given OPC 25,50 and 100 mg·kg -1 respectively,the ratio of sucrose preference increased from (42.80 ±4.92)%to (67.54 ±4.32)%(P<0.05)and (72.21 ±7.99)%(P<0.05)when ig given OPC 50 and 1 00 mg· kg -1 respectively,the number of buried marbles decreased from 1 .57 ±0.21 in chronically stressed group to 0.63 ±0.26 (P<0.05)and 0.44 ±0.1 8 (P<0.05)when ig given OPC 50 and 1 00 mg·kg -1 respectively.The expression of p-CREB in the hippocampus and frontal cortex distinctively increased in OPC group (25,50 and 100 mg·kg -1 )(P<0.05),so did the expression of BDNF in the hippocampus andfrontalcortexinOPCgroup(50and100mg·kg-1)(P<0.05).CONCLUSION OPCcanreverse the depressive-like and anxiety-like behavior in chronically stressed rats,which may be related to the cAMP-CREB-BDNF signal transduction cascades.

Abstract A new microfluidic system with four different microchambers （a circle and three equilateral concave polygons） was designed and fabricated using poly（dimethylsiloxane） （PDMS） and the soft lithography method. Using this microfluidic device at six flow rates （5, 10, 20, 30, 40, and 50 μL/h）, the effects of microenvironmental geometry and aqueous flow on bacterial adhesion behaviors were investigated. Escherichia coli HB101 pGLO, which could produce a green fluorescent protein induced by L-arabinose, was utilized as the model bacteria. The results demonstrated that bacterial adhesion was significantly related to culture time, microenvironment geometry, and aqueous flow rates. Adhered bacterial density increased with the culture time. Initially, the adhesion occurred at the microchamber sides, and then the entire chamber was gradually covered with increased culture time. Adhesion densities in the side zones were larger than those in the center zones because of the lower shearing force in the side zone. Also, the adhesion densities in the complex chambers were larger than those in the simple chambers. At low flow rates, the orientation of adhered bacteria was random and disorderly. At high flow rates, bacterial orientation became close to the streamline and oriented toward the flow direction; All these results implied that bacterial adhesion tended to occur in complicated aqueous flow areas.The present study provided an on-chip flow system for physiological behavior of biological cells, as well as provided a strategic cue for the prevention of bacterial infection and biofilm formation.

A new microfluidic system with four different microchambers (a circle and three equilateral concave polygons) was designed and fabricated using poly(dimethylsiloxane) (PDMS) and the soft lithography method.Using this microfluidic device at six flow rates (5,10,20,30,40,and 50 μL/h),the effects of microenvironmental geometry and aqueous flow on bacterial adhesion behaviors were investigated.Escherichia coli HB101 pGLO,which could produce a green fluorescent protein induced by L-arabinose,was utilized as the model bacteria.The results demonstrated that bacterial adhesion was significantly related to culture time,microenvironment geometry,and aqueous flow rates.Adhered bacterial density increased with the culture time.Initially,the adhesion occurred at the microchamber sides,and then the entire chamber was gradually covered with increased culture time.Adhesion densities in the side zones were larger than those in the center zones because of the lower shearing force in the side zone.Also,the adhesion densities in the complex chambers were larger than those in the simple chambers.At low flow rates,the orientation of adhered bacteria was random and disorderly.At high flow rates,bacterial orientation became close to the streamline and oriented toward the flow direction.All these results implied that bacterial adhesion tended to occur in complicated aqueous flow areas.The present study provided an on-chip flow system for physiological behavior of biological cells,as well as provided a strategic cue for the prevention of bacterial infection and biofilm formation.