BACKGROUND: Studies showed cellular adhesion molecule and neurotrophic factor secreted from olfactory ensheathing cells (OECs) could protect the spinal neurons and promote the regeneration of spinal axon. OBJECTIVE: To compare the competence to repair spinal cord injury between olfactory mucosa OECs and olfactory bulb OECs. DESIGN, TIME AND SETTING: Randomized control animal experiment was performed in the central laboratory of Xidian Group Hospital between June 2007 and June 2008. MATERIALS: Twelve male SD rats were randomized selected and divided into experiment group (n=6, 23 months old) and control group (n=6, 3 months old). They were used for in vitro culture and purification of OECs; other 30 SD rats were randomized into three groups of 10 rats each: neonatal rat olfactory bulb OECs transplantation group, normal olfactory mucosa OECs transplantation group and blank control group.METHODS: Spinal cord injury models were produced in 30 rats, which were transplanted with the neonatal rat or SD rat OECs cultured in vitro. No transplant was given in the control group. MAIN OUTCOME MEASURES: At 4 and 8 weeks postoperation, the Basso, Beattie, Bresnahan (BBB) score for nerve function, the evoked potential of legs and the histopathological diversify of injured spinal cord. RESULTS: Seven rats died dudng the experiment process, and the death rate was similar between groups. At 4 and 8 weeks postoperation, there was no significant difference in the BBB scores between neonatal rat olfactory bulb OECs transplantation group and normal olfactory mucosa OECs transplantation group (P > 0.05), which were both significantly higher than blank control group (P < 0.001); the BBB scores in two transplantation groups were higher at 8 weeks than at 4 weeks (P < 0.01 ). At 4 weeks postoperaUon, no animal was shown to elicit motion evoked potential, but it was present in two transplantation groups at 8 weeks, with no significant difference between two groups (P > 0.05). The blank control group had still no motion evoked potential (P < 0.001 ). At 8 weeks postoperation, more cell infiltrations were found in the injured spinal cord of two transplantation groups, while few in the control group.CONCLUSION: Both OECs dissociated from olfactory bulb and olfactory mucosa have the same ability to repair the injured spinal cord, and their effect is similar.

Objective To investigate the relationship between histopathological changes of donor liver and those after liver transplantation and explore its effects on prognosis.Methods The histopathological changes of donor liver and post-transplantation live biopsy were observed in 87 cases.Results The percentage of hepatic degeneration at immediate biopsy of donor liver was 100%,the injury of sinusoid endothelial cell accounted for 41.3%,the hepatic steatosis for 18.3%and the necrosis of liver cells for 10.3%.Conclusion Most of the pathological changes of the donor liver during and after liver transplantation are reversible.The damage of the hepatic sinusoidal cells is the important criterion for the observation of ischemia reperfusion injury.Moderate and heavy hepatic steatosis can be used in the liver transplantation. After liver transplantation,if the necrosis of liver cells gradually gets serious,the risk of transplanted liver losing its function gets bigger,so the comparative observation has very important value in diagnosis.

Objective: To explore the value of convolutional neural network (CNN) algorithm based on deep learning (DL) for identification of subliminal depression (StD) patients using medical image data. Methods: MRI and fMRI data of 56 StD patients (StD group) and 70 normal controls(NC group) were collected and input into the constructed CNN, respectively. Then the network fusion technology was used to comprehensively analyze the two different modalities to obtain the classification result. Finally, the network fusion technology was used to integrate two different modal data and optimize the classification effect. Results: The identification accuracy of the structural image data alone was 73.02%, of the functional image data alone was 65.08%. With combination of the two modes, the final classification accuracy raised to 78.57%. Conclusion: DL can classify patients with StD and normal subjects. Multiple modal input methods can improve classification accuracy.

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BACKGROUND:Olfactory ensheathing cells can promote the repair of the central nervous system. Composite engineering materials prepared by the combination of chitosan and col agen have been widely used in the construction of tissue-engineered nerve conduits.
OBJECTIVE:To explore the repair effect of olfactory ensheathing cells and chitosan in the treatment of sciatic nerve injury in rats.
METHODS:Rat models of sciatic nerve injury were prepared. Olfactory ensheathing cells combined with chitosan scaffold were used to connect the injured sciatic nerve. In the chitosan scaffold group, only the chitosan scaffold was utilized. In the control group, no treatment was done.
RESULTS AND CONCLUSION:At 1-4 weeks fol owing surgery, sciatic functional index and motion evoked potential were monitored and histological examination was performed. Sciatic functional index was significantly improved in the olfactory ensheathing cells+chitosan scaffold group (P<0.05). Motion evoked potential was significantly lower in the olfactory ensheathing cells+chitosan scaffold group compared with other groups (P<0.001). Histological examinations showed new nerve fibers and rare inflammatory reaction in the olfactory ensheathing cells+chitosan scaffold group. These findings indicate that autologous olfactory ensheathing cells combined with chitosan scaffold exerts good repair effects on treatment of sciatic nerve injury, and can be considered as an ideal tissue engineering material.

Objective To explore the effect of low constant direct current (LCDC) in the medullary cavity on repairing of rabbit radial defect as to evaluate its clinical value. Methods DBX was put into the segmental osteoperiosteum defect of rabbit bilateral radius. The rabbits were divided into 2 groups: group A (subject group) with the defects stimulated by LCDC and group B (control group) with the defects left untreated. In week 2,5 and 9, 4 animals from each group were put into death, and the radius was taken for study using photograph, electron microscope, histological & morphologic technique, and the contents of the Calcium (Ca) and ALP were determined. Results Compared with group B, the healing of group A was better. The contents of Ca and ALP increased obviously in week 2 (P

Objective To analyze and summarize the treatment strategies for unstable angina with no-reflow phenomenon after PTCA during early percutaneous interventional procedures.Methods A total of 32 cases with unstable angina were divided into two groups:one group with drug therapy and the other group with drug therapy and thrombus aspiration catheter.The patients were chosen when there was no-reflow phenomenon after PTCA during early percutaneous interventional procedures and their clinical data were compared and analyzed.Blood flow TIMI grade,myocardial perfusion grade (MBG),TIMI myocardial perfusion (TMP) grade and other indexes were observed and recorded.Results The general conditions had no statistical difference between two groups.Compared with the drug therapy group,the proportion of patients with TIMI,MBG and TMP grade 3 was higher in aspiration and drug therapy group (89％ VS 71％ P＜0.05).Conclusion Drug therapy and thrombus aspiration catheter in treatment helps to improve myocardial perfusion level for unstable angina with no no-reflow phenomenon after PTCA during early percutaneous interventional procedures.

The shape and structure of granules are controlled by the granulation process, which is one of the main factors to determine the nature of the solid dosage forms. In this article, three kinds of granules of a traditional Chinese medicine for improving appetite and promoting digestion, namely, Jianwei Granules, were prepared using granulation technologies as pendular granulation, high speed stirring granulation, and fluidized bed granulation and the powder properties of them were investigated. Meanwhile, synchrotron radiation X-ray computed micro tomography (SR-µCT) was applied to quantitatively determine the irregular internal structures of the granules. The three-dimensional (3D) structure models were obtained by 3D reconstruction, which were more accurately to characterize the three-dimensional structures of the particles through the quantitative data. The models were also used to quantitatively compare the structural differences of granules prepared by different granulation processes with the same formula, so as to characterize how the production process plays a role in the pharmaceutical behaviors of the granules. To focus on the irregularity of the particle structure, the box counting method was used to calculate the fractal dimensions of the granules. The results showed that the fractal dimension is more sensitive to reflect the minor differences in the structure features than the conventional parameters, and capable to specifically distinct granules in structure. It is proved that the fractal dimension could quantitatively characterize the structural information of irregular granules. It is the first time suggested by our research that the fractal dimension difference (Df,c) between two fractal dimension parameters, namely, the volume matrix fractal dimension and the surface matrix fractal dimension, is a new index to characterize granules with irregular structures and evaluate the effects of production processes on the structures of granules as a new indicator for the granulating process control and optimization.

AIM:To investigate whether oxidative stress is able to induce autophagy in mesenchymal stem cells (MSCs), and to explore the effects of autophagy on MSC proliferation and apoptosis under oxidative stress circumstance as well as the underlying mechanism for promoting the therapeutic effects of transplanted MSCs on treating diabetes mellitus e -rectile dysfunction ( DMED) .METHODS: Hydrogen peroxide ( H2 O2 ) was applied to simulate the oxidative stress cir-cumstance.The effects of H2 O2 at concentration of 0, 50, 100, 200, 400μmol/L on the viability of MSCs were tested by the method of Trypan blue exclusion and MTT assay respectively .The methods of MTT assay , Western blot and transmis-sion electron microscope ( TEM) were used to explore the effects of H 2 O2 on MSC apoptosis and autophagy .RESULTS:The proliferation of MSCs was obviously inhibited by H 2 O2 in a dose-dependent manner ( P<0.01) and the 50%inhibiting concentration (IC50) was (384.58 ±16.89) μmol/L.H2O2 induced apoptosis and autophay of MSCs .The proliferation rate of MSCs was suppressed by H 2 O2 significantly ( P<0.05 ) , with a further decline by blockade of autophagy ( P<0.05) whereas increased by blockade of apoptosis (P<0.05).H2O2 induced MSCs apoptosis obviously (P<0.05), with an augment of apoptosis ( P<0.05) by blockade of autophagy .Furthermore, the H2 O2 increased expression of cleaved caspase-3 and cleavage of poly ADP-ribose polymerase 1 (PARP1), Which were decreased by apoptosis blockade whereas were enhanced by blockade of autopahgy .CONCLUSION:Oxidative stress plays a dual role in MSC survival , which in-duces MSC apoptosis and autophagy .Moreover , blockade of autophagy intensifies MSC apoptosis .Therefore , it is a promis-ing method to ameliorate the effects of stem-cell based therapy on DMED by enhancing protective autophagy to increase the survival rate of transplanted MSCs against oxidative stress circumstance caused by diabetes mellitus .

Objective To observe the surface structures of cardiovascular endothelial cells in situ with atomic force microscope (AFM). Methods Fresh aorta and aortic valve were dissected from 10 healthy male New Zealand white rabbits. Before fixed in 1% formaldehyde, the fresh tissues were washed in the buffer phosphate solution. Under general microscope, the fixed aorta or valve was spread on the double side stick tape which had already been stuck on the glass slide. The intima of aorta or the aorta side of valve was towards upside. Then the specimen was dried under 37 degrees centigrade in an attemperator and was washed with pure water. After dried again, the specimen was loaded on the platform ofNanoScope llla AFM and was scanned in tapping mode with the scanning speed of 0.5 HZ. Results The surface structures of endothelial cell on the fixed and dried tissue could be obsserved clearly in situ with AFM. Aortic endothclial cells were large, branched and arranged sparsely and parallel to the direction of blood flow, whereas endothelial cells on aorta valve surface were small, less branched and arranged intensively and vertical to the direction of blood flow. When the scanning range was dwindled, granular ultra-structures could be observed on the surface of endothelial cells, and, as the scanning range was dwindled further, fissure and convolution could be seen on the surface of granules from aortic endothelial cells. Centre cavity and surrounding swelling volcano-like structure could be seen on the surface of granules from endothelial cells of aortic valve. Conclusions It's feasible to observe the surface ultra-structures of cardiovascular endothelial cells in situ with AFM and morphological information provided by A FM might be of clinical value in future histopathological diagnosis.