Objective To evaluate the effective and safety of ultrasound-guided percutaneous portal vein guide wire placement adjunct to thrombolytic catheter,which treating portal vein thrombosis after liver transplantation.Methods From Jan 2012 to Dec 2015,a total of 6 patients (5 male,1 female,average age 50.6 years old,age range 41-65 years old) with portal vein thrombosis after liver transplantation were retrospectively studied.The diagnosis was confirmed by contrast enhanced ultrasound (CEUS) with hypoechonic and no enhancement in portal vein.With ultrasound-guided a 18-guage guide wire was placed in right branch of portal vein,and a guidewire was placement.After exchanging the catheter,the thrombosis was confirmed again by venography.A thrombolytic catheter was placed and local thrombolysis therapy was performed.Results The guidewires were successfully placed in 6 patients.The thrombolytic catheters were successfully placed in 5 patients (day 2-60 after operation),and failed in 1 patient (9 years after operation).With 5-11 days urokinase injection,the patency of portal vein was found in 5 patients,of which 4 patients was treated by angioplasty and stent placement.With 16-31 months follow-up,the patency of portal vein was maintained.Neither server complication nor related-death was occurred.Conclusions Ultrasound-guided percutaneous portal vein guide wire placement adjuncts thrombolytic catheter is effective and safety for treating portal vein thrombosis after liver transplantation.

BACKGROUND:Finite element analysis is a commonly used mathematical modeling method to analyze the biomechanics of the lumbar spine.By constructing finite element models of the complex tissues such as muscles,blood vessels,and nerves in the lumbar region,mechanical analysis is performed to elucidate the pathogenesis of lumbar spine disorders and the mechanical mechanisms of treatment approaches. OBJECTIVE:To review the progress of finite element analysis in understanding the pathogenesis and treatment modalities of lumbar spine disorders,and to propose a new clinical workflow for the implementation of finite element analysis,aiming to provide a reference for future studies and promote the widespread utilization of finite element analysis in clinical diagnosis and treatment. METHODS:The PubMed database was searched using English keywords"finite element analysis,lumbar vertebra",while the WanFang and China National Knowledge Infrastructure(CNKI)databases were searched using Chinese keywords"finite element analysis,lumbar vertebra".A total of 73 articles were included for review. RESULTS AND CONCLUSION:(1)Lumbar spine degeneration in non-slipped patients typically originates from the posterior annulus fibrosus,while in patients with lumbar spine spondylolisthesis,degeneration starts from the lumbar facet joints due to abnormal mechanical mechanisms.(2)Restoring vertebral body height can prevent adjacent-level degeneration,and finite element analysis-measured vertebral compression strength can serve as an effective predictor of fracture risk,replacing bone density measurements.(3)In lumbar spine fusion surgery,selecting fusion devices of appropriate height and placing them transversely can prevent device subsidence.Increased intervertebral strain,circumferential stress,and intervertebral pressure in adjacent segments after fusion surgery may contribute to the occurrence of degenerative changes in neighboring segments.(4)Finite element analysis results suggest that preoperative planning for transforaminal endoscopic surgery should include considerations for osteotomy size to avoid excessive destruction of the articular process,and intraoperatively,preferential selection of a technique that traverses the superior articular process for foraminal dilatation.(5)In percutaneous kyphoplasty,bilateral pedicle screw augmentation should be performed,distributing bone cement on both sides of the pedicle.More advanced non-aluminum glass polyalkenoate cement materials should be selected.(6)Traction therapy should be personalized based on individual patient characteristics,including customized traction angles and forces,to achieve optimal therapeutic effects.(7)Manual therapy can induce relative displacement between the herniated intervertebral disc and the nerve root,thereby reducing compression.(8)The workflow involving CT/MR-AI Plus FEA-AI Plus Surgical robots can enable more precise diagnosis and treatment.

Objective:To qualitatively analyze the elasticity characteristics of boundaries and surrounding liver tissue of focal liver lesions (FLL) by real-time shear wave elastography (SWE), and to analyze the relating influencing factors.Methods:One hundred and fifty-two patients with FLLs (152 lesions) from February 2012 to October 2013 in the First Affiliated Hospital of Sun Yat-Sen University were collected. SWE of FLLs and the surrounding liver tissue was performed and baseline clinical data were collected. The elastic boundary (clear or not clear) of FLLs and elasticity distributions of surrounding liver tissue and their influencing factors were analyzed.Results:A total of 26 benign lesions and 126 malignant lesions were included in this study. Twenty-five cases (96.2%) of benign lesions showed clear elastic boundaries and 1 case (3.8%) showed unclear elastic boundary while 82 cases (65.1%) of malignant lesions showed clear elastic boundaries and 44 cases (34.9%) showed unclear elastic boundaries. Multivariate analysis showed benign/malignant lesion was an independent influencing factor for elastic boundary ( P<0.05). Twenty cases (76.9%), 6 cases (23.1%) and 0 case of liver tissue around benign lesions showed type A, B and C elastic distribution respectively while 17 cases (13.5%), 60 cases (47.6%), and 49 cases (38.9%) of liver tissue around malignant lesions showed type A, B, and C elastic distribution. There were statistically significant differences of benign and malignant lesions, different viral hepatitis backgrounds, different gender, and different ALB, TBIL, ALT levels in elasticity distributions of surrounding liver tissue of FLLs among type A, B and C (all P<0.05) while there was no significant difference in different lesion size( P=0.036). Conclusions:The elasticity characteristics of boundaries and surrounding liver tissue of FLLs on SWE images can provide a reference for differential diagnosis of benign and malignant FLLs. The elastic characteristics of surrounding liver tissue of FLLs are influenced by the nature of lesions and the background of liver disease, but are not influenced by lesion size. Further quantitative studies of elasticity characteristics of boundaries and surrounding liver tissue are needed for the differential diagnosis of different types of FLLs.

Objective To verify the mechanism of Buyang Huanwu decoction in the treatment of spinal cord injury based on network pharmacology and molecular docking.Methods The active ingredients and targets of Buyang Huanwu decoction were screened out by TCMSP,SymMap,PubChem and Swiss Target Prediction databases.Spinal cord injury targets were retrieved from OMIM,GeneCards,TTD,and DrugBank databases.Through venny software,the intersection target of Buyang Huanwu decoction and spinal cord injury was obtained.The active ingredient-target network for the treatment of spinal cord injury was constructed with Cytoscape software.Gene ontology and Kyoto Encyclopedia of Genes and Genomes enrichment analysis of common targets were carried out by DAVID,and the binding ability of drugs and targets was analyzed by molecular docking technology.Results A total of 106 active ingredients and 225 targets of Buyang Huanwu decoction,1315 targets of spinal cord injury and 112 targets of drug-disease intersection were obtained.The active ingredients of Buyang Huanwu decoction were quercetin,kaempferol,ellagic acid,luteolin and hederagenin in the treatment of spinal cord injury.Conclusion Buyang Huanwu decoction can achieve the purpose of treating spinal cord injury through various signal pathways.