Objective To observe the sequential ultrastroctural and electrophysiological changes in the sciatic nerve coagulated by a newly-designed microwave antenna. Methods A total of 75 Sprague-Dawley rats were randomly divided into groups A,B and C and irradiated with microwaves at 10,20 or 30 Watts,for 6 seconds to coagulate the left sciatic nerve.Electrophysiological effects and sequential uhrastructural changes were observed on the 0th,2nd,7th,30th and 60th days after coagulation.A static sciatic index was calculated based on measurements of the footprint on the 7th,30thand 60th days after coagulation.Results On the Oth,2nd,7th and 30th days after cpagulation,the static sciatic index,the nerve conduction velocity and the amplitude of the action potentials in groups B and C had decreased significantly compared with those before coagulation.On the 60th day after coagulation.significant recovery was observed in groups A and B,but not in group C.Only mild alteration in uhrastructure was found,and only in group A.The prominent changes in uhrastructure in group B included broken Schwann cell membranes and myelin disintegration.There were severe injuries in group C,including myelin disintegration,cell deformity,coagulative necrosis,axon necrosis,basement membrane necrosis and demyelination.The structure of the sciatic nerve in group B had partially recovered after 60 days,but group C showed no recovery at all. Conclusion Microwave coagulation of a nerve can block its conduction.and even destroy the nerve.Percutaneous microwave coagulation is clinically feasible and call be an alternative treatment for pain.

AIM: To evaluate the feasibility and safety of microwave coagulation with novel microwave antenna through observing physiological and pathological changes after the coagulation on rat skeletal muscle. METHODS: The experiment was performed at the Central Laboratory of Zhujiang Hospital of Southern Medical University from December 2006 and September 2007. ①Using MTC-3C microwave tissue coagulation device, monopole microwave antenna after anti-adhesion was vertically inserted into SD rat skeletal muscle for heat coagulation at 20 W?8 s. ②The instant enzyme activity changes after microwave coagulation therapy (MCT) was detected by 2, 3, 5-Triphenyl Tetrazolium Chloride (TTC) staining. The cell apoptosis rate in outer fields of coagulation was evaluated by flow cytometry 0, 12 and 24 hours after coagulation, and the treated muscle was examined pathologically on days 0, 2, 7, 30, and 60. RESULTS: ①The coagulation areas were stained in white immediately after MCT by TTC staining, while the outer normal areas were in red. There were apoptotic cells around coagulation areas, and the highest percentage appeared 12 hours later, reduced thereafter. ②In 24 hours after coagulation, only mild alteration of cellular morphology was found. Two days after MCT, necrosis cells were prominent in transition zone, and the inflammation cells were predominantly composed of macrophage and lymphocytes in the zone, while the cells in the coagulation zone remained structure; 7 days after MCT, the fibroblast and granulation tissue occurred in the transition zone, and the myocyte in the coagulation zone were of necrosis; 30 days after MCT, there were still many inflammation cells in the coagulation zone with some collagenous fibrils in the transition zone; 60 days after MCT, the necrosis cells reduced and the outer margin of the transition zone was encapsulated by marked collagenous fibrils. Tissue repair started from the outer margin of the transition zone to the central coagulation zone. CONCLUSION: Novel microwave tissue coagulation is safe and feasible to be used in the treatment of some minor-carcinoma and some tumors on body face.

BACKGROUND: Inherent modal analysis and harmonic response analysis on the human normal lumbosacral vertebraehave been reported, but there is a lack of comparative research on their modal analysis results before and after pediclescrew fixation.OBJECTIVE: To explore the dynamic characteristics of human lumbosacral vertebrae using three-dimensional finiteelement method.METHODS: Finite element model of lumbosacral vertebrae (L1-S1) before and after pedicle screw fixation was developedand validated based on CT images, and the modal analysis and harmonic response analysis were then conducted.RESULTS AND CONCLUSION: (1) Representative nodes were selected at the spinous process segments of L1, L3 andL5, and numbered as A, B, and C, respectively. (2) The maximum displacement of each node in Y and Z directions oflumbosacral vertebral model after internal fixation was significantly decreased compared with those of the normallumbosacral vertebral model, suggesting that screw fixation system plays a protective role in lumbosacral vertebrae, andreduces its amplitude under external load, thus diminishing its sensitivity to external load. (3) The lumbosacral vertebralmodal analysis can provide basis for further study on dynamic analysis, and the parameters such as natural frequency,modal shape and vibration amplitude of the lumbar spine have been determined.

Directive 2004/24/EC of the European Parliament and the Council entered into force on April 30th, 2004. After 7 years, there is no Chinese medicine to be registered successfully in European market as traditional herbal medicinal products. The thesis gives some ideas to tackle this problem. Procedure for the Preparation of Community Monographs for Traditional Herbal Medicinal Products (EMEA/HMPC/182320/2005) published by European Medicines Agency is an important guidance for traditional herbal products to enter European Community monographs. The thesis introduces and details the procedure as well as gives feasible suggestions about the procedure. It suggests that Chinese medicines enter European Community monographs first, and then apply the registration according to the directive 2004/24/EC. This is an easier access to European market.

The present paper introduced the management status of wild medicinal resources (WMR) including the law system, the government system and the rule system, and analyzed the main problems and their reasons for WMR management. It pointed out that the old management system for WMR was not fit the need of conversation and management of WMR. It suggested to revise the "the Law of Conversation and Manage System of Wild Medicinal Resources", and discussed the law type, the objective and the principle he government system, management field and rule system for the revised law in details.
Conservation of Natural Resources ; legislation & jurisprudence ; Government Regulation ; Medicine, Chinese Traditional ; Plants, Medicinal

Objective To explore the value of prophylactic anticoagulation in the 28-day prognosis of patients with severe COVID-19.Methods The clinical data of COVID-19 patients admitted to Guangdong Provincial People's Hospital from December 2022 to January 2023 were collected,including age,gender,past medical history,routine blood test,liver and renal function,procalcitonin,coagulation function,Padua prediction score,antiviral therapy,hormonotherapy,immunotherapy and anticoagulation therapy.The patients were divided into an anticoagula-tion group and a non-anticoagulation group.The differences in various indicators were compared between the two groups.Cox regression was performed to assess the independent risk factors for 28-day mortality and the anticoagula-tion efficacy between the subgroups.Results Among 158 patients,128 received anticoagulation;There were significant differences between the two groups in case number of hypertension and critical condition,lymphocyte count,prothrombin time,D-dimer,and case number of immunotherapy.COX logistic regression showed that antico-agulation(HR = 2.25,95%CI:1.01～5.01,P = 0.048)was an independent risk factor for all-cause mortality of COVID-19 patients within 28 days.Subgroup analysis showed that anticoagulation therapy led to an increase in the 28-day mortality as level of procalcitonin of≥0.5 pg/mL(HR = 2.72,95%CI:1.05～7.04)or D-dimer of<2 000 ng/mL(HR = 9.16,95%CI:1.63～51.48).Conclusions Prophylactic anticoagulation did not reduce all-cause mortality of COVID-19 within 28 days.

In the process of natural uranium purification and conversion, low-level uranium-containing radioactive wastes will be produced. On the basis of introducing the characteristics of wastes from natural uranium purification and conversion and their treatment, we review the main strategies and good practices of minimization of wastes from natural uranium purification and conversion, analyze the main problems in minimization of wastes from natural uranium purification and conversion in China, and propose corresponding improvement measures, which provides a reference for the implementation and management of minimization of wastes from natural uranium purification and conversion.

Objective To establish the three-dimensional (3D) finite element (FE) model of thoracolumbosacral T1-S spine based on the computed tomography (CT) images of patients with scoliosis and study its dynamic characteristics. Methods The established scoliotic model was validated by axial compression and shear loading, and the predicted responses were in good agreement with the experimental data. The modal and harmonic analyses were performed using the ABAQUS software, and during the harmonic analysis, the dynamic response of the model was collected at frequencies 5 Hz and 10 Hz. Results From the modal analysis, the first fourth-order modal was extracted. The first- and second-order resonant frequencies of the model were 1.097 Hz and 1.384 Hz, respectively, and the vibration mode was longitudinal bending and lateral bending, respectively. The distribution of the second- and third-order modal resonant frequencies were 5.688 Hz and 28.090 Hz, and the vibration mode was vertical vibration and twisting around the long axis, respectively. The peak amplitude in the harmonic analysis appeared near the modal frequencies, and the average amplitude of vertebral body of the lateral convex segment was larger than that of other segments of the scoliotic spine. Under the vibration frequencies of 5 Hz and 10 Hz, the stress inhomogeneously concentrated on the concave and convex sides of the segments of the vertebral deformity as well as on the intervertebral disc. Conclusions The segments of the spinal deformity in patients with scoliosis were the weak links of their spines and more vulnerable to damage in a vibrating environment. Patients with scoliosis should avoid a vibrating environment, particularly in a sensitive frequency range. The research outcomes provide methodological assistance and mechanical analysis references for the protection, rehabilitation treatment, and clinical pathological studies of patients with scoliosis.