0.05). Cross-reactivity was seen in 1 case of clonorchiasis sinensis by both the methods. Conclusion Microwave ELISA has the advantages of high sensitivity, specificity and rapidity.

Objective To establish and evaluate 3 kinds of minimally-invasive valve implantation model in vivo.Methods A novel tissue engineered heart valve(TEHV) manufactured by branched polyethylene glycol cross-linked acellular porcine valve and a minimally-invasive valve implantation system according to the design of Corevalve revalving system were adopted.After anesthesia,18 adult male goats were randomly divided into 3 groups: the ulrasound-directed orthotropic group (group A,n =6),angiography-directed orthotropic group (group B,n =6) and direct-released heterotopic group (group C,n =6),and all received minimally-invasive valve implantation orthotropically or heterotopically.4 weeks later,the valvular function was evaluated by CTA and/or echocardiography.Results All 3 kinds of caprine model were successfully constructed.The operation success rate of each group was A: 66.7％,B: 50.0％ and C: 100.0％,respectively(multiple x2 analysis,group A and B P ＞0.05; group A and C,group B and C,P ＜0.05).The operation-time of each group was A: (79 ± 18) min,B:(61 ±23) min,C: (45 ± 15) min(one-way ANOVA,P ＜0.05).The survival rate at4 weeks was A: 100％,B: 100％ and C: 83.3％ (multiple x2 analysis,P ＞ 0.05).Echocardiography and CTA proved the short-term function of implanted TEHV was satisfactory.Conclusion All 3 kinds of caprine valve implantation model can be established without cardiopulmonary bypass and blood transfusion.The devices and equipments required in group A is relatively simple,but the procedure cost longer time for it is hard to determine the right position by ultrasound.The application of angiography made the positioning much easier in group B while the procedure had to be performed in specific operation room with angiographic apparatus.Group C did rely on neither special equipments nor complex operation,but the valve leaflets cannot work normally,so this model was only suitable for testing in vivo characteristics such as biocompatiblities.

The purpose of this study was to fabricate decelluarized valve scaffold modified with polyethylene glycol nanoparticles loaded with transforming growth factor-β1 (TGF-β1), by which to improve the extracellular matrix microenvironment for heart valve tissue engineering in vitro. Polyethylene glycol nanoparticles were obtained by an emulsion-crosslinking method, and their morphology was observed under a scanning electron microscope. Decelluarized valve scaffolds, prepared by using trypsinase and TritonX-100, were modified with nanoparticles by carbodiimide, and then TGF-β1 was loaded into them by adsorption. The TGF-β1 delivery of the fabricated scaffold was measured by asing enzyme-linked immunosorbent assay. Whether unseeded or reseeded with myofibroblast from rats, the morphologic, biochemical and biomechanical characteristics of hybrid scaffolds were tested and compared with decelluarized scaffolds under the same conditions. The enzyme-linked immunosorbent assay revealed a typical delivery of nanoparticles. The morphologic observations and biological data analysis indicated that fabricated scaffolds possessed advantageous biocompatibility and biomechanical property beyond decelluarized scaffolds. Altogether this study proved that it was feasible to fabricate the hybrid scaffold and effective to improve extracellular matrix microenvironment, which is beneficial for an application in heart valve tissue engineering.

The purpose of this study was to fabricate decelluarized valve scaffold modified with polyethylene glycol nanoparticles loaded with transforming growth factor-β1 (TGF-β1),by which to improve the extracellular matrix microenvironment for heart valve tissue engineering in vitro.Polyethylene glycol nanoparticles were obtained by an emulsion-crosslinking method,and their morphology was observed under a scanning electron microscope.Decelluarized valve scaffolds,prepared by using trypsinase and TritonX-100,were modified with nanoparticles by carbodiimide,and then TGF-β1 was loaded into them by adsorption.The TGF-β1 delivery of the fabricated scaffold was measured by asing enzyme-linked immunosorbent assay.Whether unseeded or reseeded with myofibroblast from rats,the morphologic,biochemical and biomechanical characteristics of hybrid scaffolds were tested and compared with decelluarized scaffolds under the same conditions.The enzyme-linked immunosorbent assay revealed a typical delivery of nanoparticles.The morphologic observations and biological data analysis indicated that fabricated scaffolds possessed advantageous biocompatibility and biomechanical property beyond decelluarized scaffolds.Altogether this study proved that it was feasible to fabricate the hybrid scaffold and effective to improve extracellular matrix microenvironment,which is beneficial for an application in heart valve tissue engineering.

In order to provide a theoretical basis for better understanding the function and properties of proteins, we proposed a simple and effective feature extraction method for protein sequences to determine the subcellular localization of proteins. First, we introduced sparse coding combined with the information of amino acid composition to extract the feature values of protein sequences. Then the multilayer pooling integration was performed according to different sizes of dictionaries. Finally, the extracted feature values were sent into the support vector machine to test the effectiveness of our model. The success rates in data set ZD98, CH317 and Gram1253 were 95.9%, 93.4% and 94.7%, respectively as verified by the Jackknife test. Experiments showed that our method based on multilayer sparse coding can remarkably improve the accuracy of the prediction of protein subcellular localization.
Algorithms ; Amino Acid Sequence ; Computational Biology ; Protein Transport ; Proteins ; Subcellular Fractions ; Support Vector Machine

Severe acute respiratory infection caused by a novel coronavirus(SARS-CoV-2), WHO named COVID-19, is the major clinical concern globally. Both the world health organization and the National Health Commission have issued interim guidelines and management strategy for the diagnosis and treatment of COVID-19. These comprehensive guidelines establish the basic norms for the clinical practice. However, cardiovascular diseases have their special pathophysiological characteristics. The surgical treatment strategies for emergency and critical cardiovascular diseases requires specific recommendations or guidelines. From 16 January to 12 February 2020, the department of cardiovascular surgery in Wuhan Union Hospital had performed 15 emergency cardiovascular operations. The perioperative success rate is 100%. Based on our clinical practice, we summarized the relevant experience as a complement to the WHO and National Health Commission guidelines, hope to provide references for the cardiovascular surgeons.

Objective:To explore the relations of changes in the cognitive function with brain structure network in patients with cerebellar infarction.Methods:Thirty-six patients with cerebellar infarction at the posterior lobe, admitted to our hospital from July 2016 to October 2019, were chosen as cerebellar infarction group; and 30 healthy subjects matched with age, gender, and education level at the same time period were used as control group. Neurocognitive and behavioral tests were performed on both groups to assess the cognitive functions, and MR imaging was performed to obtain diffusion tensor imaging (DTI) data. Deterministic tractography and graph theory were used to obtain the structural brain network and network parameters of all subjects. The differences of clinical data and brain network topological characteristic parameters between the two groups were compared, and the correlation between the subjects' brain structural network characteristic parameters and cognitive function was analyzed.Results:As compared with the control group, patients in the cerebellar infarction group had significantly lower Mini-mental State Examination (MMSE), Montreal Cognitive Scale (MoCA), Rey Auditory Verbal Learning Test (RAVLT), Digit Span Test (DST), Clock Drawing Test (CDT) and Berg Balance Scale (BBS) scores, and significantly longer Trail Making Test (TMT) time-consuming ( P<0.05). As compared with the control group, the cerebellar infarction group showed significantly decreased global efficiency (Eglob) and local efficiency (Eloc) in the brain network, and significantly increased clustering coefficient (Cp) and length of path (Lp, P<0.05). As compared with the control group, the cerebellar infarction group had significantly reduced nodal efficiency in 14 brain regions ( P<0.05), including bilateral median cingulate and paracingulate gyri (DCG), left inferior frontal gyrus-opercular part (IFGoperc), bilateral supplementary motor area (SMA), bilateral precuneus (PCUN), left inferior frontal gyrus-orbital part (ORBinf), left temporal pole-superior temporal gyrus (TPOsup), left temporal pole-middle temporal gyrus(TPOmid), left inferior parietal-supramarginal and angular gyri (IPL), bilateral posterior cingulate gyrus (PCG), left inferior frontal gyrus-triangular part (IFGtriang). MoCA scores were significantly negatively correlated with Lp ( r=-0.388, P=0.019), and were significantly positively correlated with Eglob ( r=0.350, P=0.036), and efficiencies in the right DCG ( r=0.428, P=0.009), left DCG ( r=0.359, P=0.031) and right PCG ( r=0.350, P=0.037) in the cerebellar infarction patients. The RAVLT scores showed a significantly positive correlation with Eglob ( r=0.338, P=0.044). The TMT-A time-consuming and left DCG had significant negative correlation ( r=0.357, P=0.032). TMT-B time-consuming was significantly negatively correlated with right DCG ( r=-0.432, P=0.008), right PCUN ( r=-0.350, P=0.036) and left DCG ( r=-0.398, P=0.016), and positively correlated with Lp ( r=0.406, P=0.014). Conclusions:There is cognitive dysfunction in multiple domains after acute cerebellar infarction, including memory, executive function, visuospatial ability and attention. At the same time, there are reduced efficiency of information transmission in bilateral PCUN, PCG and DCG, and the frontal temporal lobe; among them, the abnormal changes of the right PCG, bilateral DCG, and right PCUN may play key roles in cognitive dysfunction.

Hepatic artery thrombosis (HAT) is the most frequent vascular complication following with liver transplantation,whichis the foremost cause of primary graft nonfunction,graft loss and recipient's death.Hepatic artery thrombosis after liver transplantation wasdivided into early hepatic artery thrombosis (E-HAT) and late hepatic artery thrombosis (L-HAT).And the etiologywascomplex,clinical presentations were diversity,treatment effects were controversial,therefore,the early detection,early diagnosis and early treatment of hepatic artery thrombosis after liver transplantation are very important.In this paper,the progress in the diagnosis and treatment of hepatic artery thrombosis after liver transplantation were reviewed.