Purpose:To investigate the status of p16 gene and its influence in p16 mRNA expression in primary hepatocellular carcinoma (HCC). Methods:The methylation status of p16 gene and expression of p16 mRNA were examined by methylation-specific PCR (MSP) and RT-PCR in twenty-five primary HCC and corresponding paracancerous tissue specimens.Results:Methylation was detected in 12 of 25 (52.0%) tumor tissue specinmens, while 6 of 25 (24.0%) in corresponding paracancerous tissue specimens. Loss of p16 mRNA expression was found in 19 specimens with methylated p16 gene,while expression of p16 mRNA was detected in 27 of 31 specimens with unmethylated p16 gene. There was significant difference in mRNA expression between specimens with methylated p16 and unmethylated p16.Conclusions:p16 gene methylation is a frequent event in HCC. The methylation of p16 gene might lead to loss of p16 mRNA expression. Detection of p16 gene methylation may be a useful marker in the molecular diagnosis of hepatocellular carcinomas.

BACKGROUND:The thermosensitive chitosan is a kind of chitosan, its hemostatic effect, tissue compatibility andin vivo absorption need further investigations.
OBJECTIVE:To investigate the hemostasis,in vivo degradation and tissue compatibility of thermosensitive chitosan hemostatic film.
METHODS: A total of 48 Sprague-Dawley rats were randomly divided into four groups, and carried out two
experiments at the same time. (1) The incisions of the liver in three groups were covered with the thermosensitive chitosan hemostatic film, celulose hemostatic cotton and gelatin sponge, respectively. Blank control group
received no treatment. The bleeding time and bleeding amount were recorded. (2) The incisions of the quadriceps femoris muscle of rats in the above three groups were embedded with the same hemostatic materials respectively. Blank control group was not embedded. At 1, 2, 3, 4, 6 weeks, the incision tissues of the liver and the quadriceps femoris muscle were harvested for observation. After 4 weeks, the incisions were observed with hematoxylin-
eosin staining and transmission electron microscopy.
RESULTS AND CONCLUSION: The bleeding time and bleeding amount of thermosensitive chitosan hemostatic film and celulose hemostatic cotton groups were significantly lower than those of gelatin sponge and blank
control groups (P < 0.05). After 6 weeks, the thermosensitive chitosan hemostatic film was absorbed completely. After 3 weeks, the celulose hemostatic cotton was absorbed completely. After 2 weeks, the gelatin sponge was absorbed completely. The liver lobules of thermosensitive chitosan hemostatic film were complete, the liver cellwere normal structure, showing light sweling and little inflammatory cellinfiltration. Under transmission electron
microscopy, the liver cels had integral structure, cellnucleus and organeles remained intact. The muscle fibers showed complete structure and little inflammatory cellinfiltration. Under transmission electron microscopy, the muscle fibers
ranked tidily, with integral cellnucleus and organeles. The thermosensitive chitosan hemostatic film has good hemostasis effect and tissue compatibility.

A comprehensive, geometrically accurate, nonlinear C0-T1 three-dimensional finite element (FE) model was developed for the biomechanical study of human cervical spine and related disorders. The model was developed with anatomic detail from the computed tomography (CT) images of a 46-year-old female healthy volunteer, and applied the finite element model processing softwares such as MIMICS13.1, Hypermesh11.0, Abaqus 6.12-1, etc., for developing, preprocessing, calculating and analysing sequentially. The stress concentration region and the range of motion (ROM) of each vertebral level under axial rotation, flexion, extension, and lateral bending under physiologic static loadings were observed and recorded. The model was proven reliable, which was validated with the range of motion in previous published literatures. The model predicted the front and side parts of the foramen magnum and contralateral pedicle and facet was the stress concentration region under physiological loads of the upper spine and the lower spine, respectively. The development of this comprehensive, geometrically accurate, nonlinear cervical spine FE model could provide an ideal platform for theoretical biomechanical study of human cervical spine and related disorders.
Biomechanical Phenomena ; Cervical Vertebrae ; Female ; Finite Element Analysis ; Humans ; Middle Aged ; Models, Biological ; Range of Motion, Articular ; Rotation

Objective To investigate the co-transfection of p53 and angiostatin gene in the inhibition of SG7901. Methods Transfected the pVITRO2-hp53-hAS into SG7901 with lipofectamine.After transfection, RT-PCR were used to know whether the aimed gene had been transfected and expressed or not. Cell clones trial, MTT growth curve, cell cycle measuring were used to analyze the differences. Results The cells were suppressed by the two genes and inhibition of the combined genes is more powerful than single one. Conclusion The effection of combined genes pVITRO2-hp53-hAS on SG7901 is stronger than either single one. Combined-gene-therapy is a useful anti-carcinoma method.

Background:Understanding and minimizing existing global coronavirus disease 2019(COVID-19)vaccination disparities is critical to global population health and eliminating health inequities.The study aims to investigate the disparities of vaccination coverage and progression and the associated economic and educational determinants to inform global COVID-19 vaccination strategies.Methods:COVID-19 vaccination coverage data from 206 countries used in the study were derived from"Our World in Data"website.After obtaining the vaccination coverage indicators,we fitted the progression indicators for vaccination.Correlation and multiple linear regression analysis were used to examine the effects of gross domestic product(GDP)per capita,Gini index,education,and their interactions on the coverage and progression of the COVID-19 vaccination.Results:The coverage of COVID-19 vaccination ranged from less than 30 doses to more than 150 doses per hun-dred people,from less than 15％to more than 75％for proportion of people vaccinated,from less than 15％to more than 60％for proportion of people fully vaccinated.Similarly,the progression of vaccination ranged from less than 0.1 to more than 0.6 for progression of total number of doses,from less than 0.1 to more than 0.3 for progression of proportion of people vaccinated,and from less than 0.1 to more than 0.4 for progression of propor-tion of people fully vaccinated.GDP per capita and education were positively associated with the coverage and progression,while Gini index was negatively associated with the coverage and progression.Negative interaction between GDP per capita and education was also observed for coverage(β=-0.012 to-0.011,P＜0.05)and progression(β=-0.012 to-0.011,P＜0.05).Conclusions:Substantial geographic disparities existed for the coverage and progression of COVID-19 vaccination.Economy and education are two important factors contributing to the disparities.Different countries may adopt varied strategies to promote the national distribution and vaccination of COVID-19 vaccines.

Objective To study the effect of using different tibial nerve proximal muscle branchs to repair deep peroneal nerve injury in animal experiment, and to screen out the most optimal donor nerve branch. Methods From June, 2016 to August, 2016, 64 adult female SD rats were randomly divided into 4 groups, which were LHG (using lateral head of gastrocnemius to repair peroneal nerve), MHG(using medial head of gastrocnemius to repair peroneal nerve), SNB (using soleus nerve branch to repair peroneal nerve), and blank. There were16 rats in each group. At 4 and 8 weeks after surgery, each group were tested on behavior, electrophysiology, muscle tension, muscle wet weight and histology, to evaluate function recovery of the muscles controlled by deep peroneal nerve in each group, and to compare recovery of the deep peroneal nerve repaired by different tibial nerve branches. Results Eight weeks after surgery,right foot of the rats in LHG,MHG and SNB group can be extended,toes can be completely opened. Rats in blank group showed limping gait, whose right foot can not be extended, right toe can not be opened, and muscle atrophied. At 4 and 8 weeks after the operation, the recovery rate of LHG, MHG, SNB group (at 4th weeks, 33.60 ±2.22)%, 33.07 ±2.38% and 35.91 ±2.02%; at 8th weeks, 67.16 ±5.74)%, 66.56 ±3.18% and 73.17 ± 5.33%, respectively)was higher than blank group(7.71±1.05% and 7.84±0.78%, respectively)on CMAP amplitude, tibialis anterior muscle contractility, tibialis anterior muscle cell area, muscle cell area. SNB group was superior to the LHG group and LHG group.And the difference was statistically significant(P<0.05). Conclusion All the proxi-mal tibial nerve muscle branchs can be used to repair the deep peroneal nerve injury, and the soleus nerve branch is the preferred donor nerve.

Clinical advantages of Chinese spinal manipulation therapy (CSMT) were recognized for spinal chronic lesions of soft tissues and bones, such as cervical spondylosis, etc. However, the security of CSMT and the hypotheses of practice mechanisms were questioned for lacking of the relevant basic researches. Researches have proved that these methods could be used to observe the dynamic effects of spine with application of finite element analysis (FEA) computer technology. Combining with other biomechanical experimental methods and applying advanced FEA technology for mechanical problems of CSMT, we may not only find the mechanisms of action and provide theoretical supports for the traditional Chinese therapy, but also standardize the key techniques and optimize the treatment options improving clinical outcomes, and even promote spreading of CSMT. Computer models are ideally suited for studying phenomena that cannot be satisfactorily investigated with other models. However, computer models of CSMT practice remain to be further refined. The results which had been acquired so far not only verified some of the traditional points of view, but also revised and specified some perspectives of the past. This paper intends to review FEA studies with Chinese cervical manipulation therapy (CCMT) for cervical spinal chronic lesions of soft tissues and bones, involving different effects for cervical spine joints (pulling/traction and thrusting) with practice techniques and cervical spine soft tissues (including vessels and its hemodynamics, muscles and fasciae, etc).
Biomechanical Phenomena ; Cervical Vertebrae ; anatomy & histology ; physiopathology ; Finite Element Analysis ; Humans ; Manipulation, Spinal ; methods ; Spondylosis ; physiopathology ; therapy