Objective To explore the diagnostic value of helical CT in superior mesenteric vein(SMV) thrombosis.Methods Characteristic CT appearances of SMV thrombosis verified by clinic in 13 patients were retrospectively analysed.Precontrast and postcontrast CT scan were performed in all patients.After the data were acquired,they were transferred to workstation for maximum intensity projection of muti-plane.Results Hyperaemia and edema of the mesentery could be seen in all patients.After administration of contrast material,the filling defects of SMV could be showed in 8 cases,and the distal SMV was occluded in other patients.The thrombi could be directively showed by CT,but distended bowel loops,bowel wall thicking with or without the target sign,absent or poor enhancement of the bowel wall,and the pneumatosis at interbowel were showed by CT,the later two findings were more important and specific signs of ischemic bowel.There was not directively relation between bowel necrosis and the thrombus was whether or not localized at main SMV.Conclusion Helical CT is a important modality for the diagnosis of SMV thrombosis.

Objective To investigate the application value of spiral CT spinal cord and intervertebral disk 3D recontruction in vertebra trauma.Methods 78 patients with vertebra trauma were examined by CT axial, the primal date of each were retrospectively inserted and reconstructed, all the cases use 3D,SSD and sagittal MPR, compared with routine 2DCT.Results Spinal cord was normal in 23 cases.Spinal cord was pressed in 39 cases.Spinal cord was transected in 16 cases.Intervertebral disk was damaged in 38 cases.Conclusion Spiral CT can do spinal cord and intervertebral disk 3D reconstruction , it can show vertebra trauma and display intervertebral disk damage intuitionistically,which has instruction in making reasonable cure project and judging cure effect.

BACKGROUND: Hippocampal structure in brain is the division related to learning and memory, generally it is closely relevant to spatial cognitive activity. Marginal division of striatum is a latest discovered subdivision related to learning and memory function of brain, whether is its learning and memory function different from that in hippocampus?OBJECTIVE: To compare the difference, function and importance in learning and memory function between marginal division of striatum and hippocampus in brain and observe the difference in escape learning and memory between marginal division of striatum and hippocampus.DESIGN: Completely randomized controlled experiment.SETTING: Institute of Neuroscience in Zhujiang Hospital Affiliated to First Military Medical University of Chinese PLA.MATERIALS: The experiment was performed in Institute of Neuroscience in Zhujiang Hospital Affiliated to First Military Medical University of Chinese PLA from March 2002 to July 2003. Totally 109 normal male adult SD rats were employed and 75 rats of them were screened as the qualified animals by twice Y-maze test. Randomly, 25 rats were divided into damaged marginal division of striatum group (DMD group), 10 rats were into bilateral fimbria-fornix transection group (FFT group), 30 rats were into the control of marginal division of striatum (MD control) and 10 rats were into the control of bilateral fimbria-fornix group (FF control). After 24 hours training in Y-maze,In DMD group, 10 g/L kainic acid 0.1 to 0.2 μL was used to damage bilateral marginal division of striatum of rats. In MD control, physiological saline of minim dose was injected in bilateral marginal division of striatum of rats. In FFT group, bilateral fimbria-fornix was transectioned. In FF control, the cortical tissue of the superficial layer of bilateral fimbria-fornix was transectioned. The operation was done on the second day after the 2nd screening. The behavior of rats in learning and memory was observed in Y-maze on the 5th day after operation (during 30 times of maze test, if success frequency ≥ 15,normal capacity of learning and memory was identified.).MAIN OUTCOME MEASURES: Success frequency of rats in different groups in Y-maze learning before and after operation.RESULTS: Of 109 normal male adult SD rats, 75 rats were screened to be qualified after twice Y-maze test. During the experiment, 3 rats were died and other 32 rats fell into disuse for the drug or physiological saline was not injected accurately to the marginal division of striatum. Terminally, 40 rats entered the analysis in total, of which, 11 rats were in DMD group, 9 rats in MD quency in Y-maze learning of rats in DMD group after operation was lower than MD control, FFT group and FF control [(9.27±4.29) times, (22.56±4.25)frequency in Y-maze learning of rats in DMD group after operation was also significantly lower than that before operation [(9.27±4.29) time, (18.27±3.07)FFT group was basically same as FF control and MD control (P=0.660 and P=0.489) and it was basically same to the success frequency in Y-maze learning before operation (P=0.700).CONCLUSION: The learning of Y-maze in rats with damaged marginal division of striatum was remarkably reduced and there was no obvious change in learning and memory between the rats with fimbria-fornix transaction and without transaction. It is verified that marginal division of striatum can reflex complex learning and memory behavior in electric Y-maze test, which cannot be achieved in hippocampus. It is further explained the difference of the two divisions in controlling learning and memory in cerebrum, the marginal division of striatum is able to control hippocampus in learning and memory function.

BACKGROUND: The marginal division, a new sub-region in rat brain striatum discovered in recent decades, has been found to closely relate to learning and memory function of the brain. The immediate-early genes such as c-fos and c-jun participate in the signal transduction of learning and memory in the marginal division. But what other intermediate events are initiated in the marginal division in the process of learning and memory?Cyclic adenosine monophosphate (cAMP) response element-binding protein (CREBP) is an molecule essential for the formation of long-term memory,and investigation of the expression and distribution of phosphorylated CREBP in the striatum may help understand the signal transduction mechanism in the striatum during learning and memory at the molecular level.OBJECTIVE: To investigate the expression of phosphorylated CREBP in rat brain stratum during learning and memory process.DESIGN: Completely randomized controlled study.SETTING: Institute of Neurosciences, Zhujiang Hospital of the First Military Medical University of Chinese PLA.MATERIALS: This experiment was conducted in the Institute of Neurosciences, Zhujiang Hospital of the First Military Medical University of Chinese PLA between April and August 2003. Totally 48 normal male adult SD rats were provided from the Experimental Animal Center of First Military Medical University, and after two Y-maze tests, 40 rats were selected for this study (MG-2 type, Sanshengxing electricity company).METHODS: The 40 SD rats were randomized into 4 equal groups. The rats in the first group were subjected to training to acquire dark avoidance reflex in a Y maze, those in the second group underwent sham training with only light stimulation in the Y maze without electricity on the floor.The rats in the third group were trained in the Y maze with electricity on the floor but not light stimulations, with the rest 10 rats serving as the control group subjected to sham training in the Y maze without either electric or light stimulations. After the training in the Y maze, the rats were sacrificed immunohistochemical detection of phosphorylated CREBP expression in the brain striatum.MAIN OUTCOME MEASURES: Expression of phosphorylated CREBPin rat brain striatum.RESULTS: All the 40 rats enrolled in this study were examined for phosphorylated CREBP expression. Positive expression of phosphorylated CREBP was observed in the medial marginal division of the brain striatum after the rats were trained in the Y maze with electric stimulation, but no obvious expression was seen in rats in the sham training or control groups.Massive expression of phosphorylated CREBP could be observed, typically,in the hippocampus, front prefrontal lobe cortex and cingulate gyrus of the rat brain.CONCLUSION: The transcriptional factor phosphorylated CREBP in the marginal division of the striatum participates in the signal transduction for learning and memory in rats receiving Y maze training to acquire dark avoidance reflex.

OBJECTIVE To investigated the anti-de-pressant effects of the fruit Areca catechu L.(ACL)and elucidated its potential underlying mechanism using a rat model of chronic unpredictable mild stress(CUMS).METHODS CUMS was induced in rats to establish a depression animal model for 28 d.According to the baseline sucrose preference,the male rats were divided into six different groups.They were treated with parox-etine hydrochloride,ACL,and water once a day until the behavioral tests were performed.The levels of corticoste-rone(CORT),malondialdehyde(MDA),catalase(CAT),and total superoxide dismutase(T-SOD)in serum were de-tected using a commercial kit,and the concentrations of 5-hydroxytryptamine(5-HT)and dopamine(DA)mono-amine neurotransmitters in the brain tissues were detect-ed by liquid chromatography-tandem mass spectrometry.Doublecortin(DCX)expression in the hippocampal den-tate gyrus(DG)was determined by immunofluorescence,and the relative abundance of brain-derived neurotrophic factor(BDNF),TrkB,PI3K,p-Akt/Akt,PSD-95,and p-GSK-3β/GSK-3β of brain tissues were assayed by West-ern blotting.RESULTS ACL markedly increased sucrose preference,decreased the immobility time,and short-ened the feeding latency of CUMS-induced rats.CUMS induction resulted in marked changes in the contents of the monoamine neurotransmitters(5-HT and DA)in the hippocampus and cortex of brain tissues and the levels of CORT,MDA,CAT,and T-SOD in serum,whereas ACL administration alleviated these considerable changes.ACL promoted DCX expression in DG and increased the protein levels of BDNF,TrkB,PI3K,p-Akt/Akt,PSD-95,and p-GSK-3β/GSK-3β in the brains of CUMS-induced rats.CONCLUSION Our results indicated that ACL may improve depression-like behaviors in CUMS-induced rats by decreasing the hyperfunction and oxidative stress of the hypothalamic-pituitary-adrenal axis,stimulating hippo-campal neurogenesis,and activating the BDNF signaling pathway.