Objective To evaluate the effect and mechanism of IL‐6 induced Gefitinib resistance in non small cell lung cancer (NSCLC) .Methods The sensitivity of cells to Gefitinib ,the invasion ability of cells and the expression of phosphorylated p‐mTOR was assessed by MTT assay ,Transwell assay and Western blot ,respectively .PC‐9psb388 stable over expressing human recombi‐nant IL‐6(hrIL‐6) cell line was established by transfecting PC‐9 cells with a lentivirus psb388 expressing IL‐6 and stable transfecta‐nts over‐expressing IL‐6 in human lung cancer cell line PC‐9 .The sensitivity of cells to Gefitinib ,the invasion ability ,expression of p‐mTOR were then detected .PC‐9/PC‐9psb388 xenografts were established and the expression of p‐mTOR and IL‐6 in tumor sec‐tions were then detected .Results The sensitivity of PC‐9 cells to Gefitinib was reduced by IL‐6 ,the invasion ability of PC‐9 cells and the expression of p‐mTOR was significantly increased with IL‐6 treatment .The sensitivity of PC‐9 cells to Gefitinib was promi‐nent higher in PC‐9psb388 cells ,while the invasion ability of PC‐9psb388 cells and the expression of p‐mTOR was higher than PC‐9 cells .The sensitivity to Gefitinib was improved and expression of p‐mTOR reduced in rapamycin‐treated PC‐9psb388 cells and IL‐6 stimulated PC‐9 cells .Tumor volume of PC‐9psb388 xenografts was significantly higher than that of PC‐9 cells .The expression of p‐mTOR and IL‐6 in tumor sections of PC‐9psb388 group were higher than that of PC‐9 group .Conclusion IL‐6 could elevate the expression of p‐mTOR to induce Gefitinib resistance in non small cell lung cancer (NSCLC) .

Objective To evaluate the effects of propofol anesthesia on hippocampal protein kinase A (PKA)-cAMP response element binding protein (CREB) signaling pathway in neonatal rats.Methods One hundred and seventy-five male Sprague-Dawley rats,aged 7 days,weighing 8-15 g,were randomly divided into 5 groups (n =35 each) using a random number table:control group (C group) and propofol 25,50,100 and 200 mg/kg groups (P~ groups).Groups P1 and P2 received intraperitoneal propofol 25 and 50 mg/kg,respectively.Groups P3 and P4 received intraperitoneal propofol 100 and 200 mg/kg,respectively,and after righting reflex completely recovered,an increment of propofol 50 mg/kg was given until the total amount was finished.Five animals in each group were chosen and arterial blood samples were obtained immediately after the animals were fully awake for blood gas analysis.Five animals in each group were chosen at 2 h after fully awake and the age of 9 weeks,the rats were sacrificed and their brains were removed for microscopic examination of the ultrastructure of hippocampal neurons and for determination of PKA mRNA,CREB mRNA,PKA protein and pCREB protein in hippocampus (using RT-PCR and Western blot analysis).Results There was no significant difference in the indexes of blood gas analysis anong the five groups (P ＞ 0.05).Nuclear swelling and fragmentation,chromatin condensation,apoptotic bodies,decreased number of synapses and widened synaptic space were observed in P2,P3 and P4 groups.Compared with group C,the expression of PKA mRNA,CREB mRNA,PKA protein and pCREB protein was significantly down-regulated at 2 h after fully awake and the age of 9 weeks in P1,P2,P3 and P4 groups (P ＜ 0.05).Conclusion The mechanism by which propofol anesthesia induces neurotoxicity in neonatal rats may be related to inhibition of the activity of PKA-CREB signaling pathway.

Objective:The non targeted high-throughput urine metabolomics technology was used to study the pathogenesis of APP/PS 1 double transgenic mice and the mechanism of action of Gouteng san.Methods:5-month-old APP/PS 1 double transgenic mice were test with Morris water maze for spatial learning ability.Then we employed the non targeted high-throughput urine metabolomics technology to study the pathogenesis of APP/PS1 double transgenic mice based on the metabolic network.The focus investigation of the key pathways and the observation of the treatment by Morris water maze and metabolic level have been used after spatial learning ability damaged confirmed.Results:The comparison between APP/PS1 double transgenic mice and normal mice suggested that a significant longer was existed in former,which was call-back by Gouteng san.With the non targeted high-throughput urine metabolomics analysis and pathway focused analysis,we found certain signals from metabolic profiling,which was identified to be 6 biomarkers associated with learning and memory function by mass spectrometry analysis or authoritative database.Respectively,they were taurine,pteroylglutamic acid,neopterin,glutaurine,2-oxoglutarate and dihydroneopterin.They were mainly related to taurine metabolism and folate metabolism and represented an effective callback.Conclusion:Gouteng san possess a favorable effect on learning and memory ability of APP/PS1 double transgenic mice,6 biomarkers may be a potential target for the pathogenesis of APP/PSI double transgenic mice and provide experimental basis for the study of Gouteng san.

Bioreactor is a key device during in vitro animal cell culture. It provides an appropriate growth environment for the cells, enabling them to proliferate and become the final bio-product. Since animal cells are different from microbial cells in morphology, culture skill needed, and mechanical stimulation needed, the traditional microbial bioreactors are not suitable for the large-scale animal cell culture any more, and many new bioreactors are developed. This paper reviews the bioreactors particularly designed for the animal cell culture, and addresses the mechanical loads on the cultured cells.
Animals ; Biomechanical Phenomena ; Bioreactors ; Cell Culture Techniques ; instrumentation ; Humans ; Mechanics ; Stress, Mechanical

We observed the effect of vibration parameters on lumbar spine under different vibration conditions using finite element analysis method in our laboratory. In this study, the CT-images of L1-L5 segments were obtained. All images were used to develop 3D geometrical model using the Mimics10. 01 (Materialise, Belgium). Then it was modified using Geomagic Studio12. 0 (Raindrop Geomagic Inc. USA). Finite element (FE) mesh model was generated by Hypermesh11. 0 (Altair Engineering, Inc. USA) and Abaqus. Abaqus was used to calculate the stress distribution of L1-L5 under different vibration conditions. It was found that in a vibration cycle, tensile stress was occurred on lumbar vertebra mainly. Stress distributed evenly and stress concentration occurred on the left rear side of the upper endplate. The stress had no obvious changes under different frequencies, but the stress was higher when amplitude was greater. In conclusion, frequency and amplitude parameters have little effect on the stress distribution in vertebra. The stress magnitude is positively correlated with the amplitude.
Biomechanical Phenomena ; Finite Element Analysis ; Humans ; Lumbar Vertebrae ; physiology ; Vibration

Objective To evaluate the role of opioid receptors in fentanyl-induced inhibition of proliferation and migration of human gastric cancer cell line MGC-803.Methods The human gastric cancer cell line MGC-803 was cultured in DMEM liquid culture medium.The cells were seeded in 6-well or 96-well plates and then randomly divided into 4 groups (n =54 each):control group (group C),fentanyl group (group F),naloxon group (group N) and naloxon + fentanyl group (group NF).The cells were exposed to 0.1 μmol/L fentanyl and 10 μmol/L naloxon in F and N groups,respectively.The cells were incubated with 10 μmnol/L naloxon for 30 min and then O.1 μmol/L fentanyl was added to the culture medium in group NF.The viability of the cells was detected by MTT assay after being incubated with fentanyl for 12,24,36,48,60 and 72 h.The cell apoptosis was assessed by flow cytometry after being incubated with fentanyl for 24 h.The migration of the cells was detected by wound healing assay after being incubated with fentanyl for 48 h.The proliferation of the cells was determined by colony formation assay at 7 day of incubation with fentanyl.Results Compared with group C,no significant changes in the viability of the cells,rate of colony formation,apoptotic rate and rate of cell wound healing were found in group N (P ＞ 0.05),and the viability of the cells,rate of colony formation and rate of cell wound healing were significantly decreased,and the apoptotic rate was increased in F and NF groups (P ＜ 0.05).There was no significant difference in the viability of the cells,rate of colony formation,rate of cell wound healing and apoptotic rate between group NF and group F (P ＞ 0.05).Conclusion Opioid receptors are not involved in fentanyl-induced inhibition of proliferation and migration of human gastric cancer cell line MGC-803 in vitro.

Objective To investigate the operation process,extent of resection,protection function,the tumor recurrence and clicical value of neuronavigation with intraoperative ultrasound for treating functional glioma;signifi-cance of intraoperative ultrasound for correcting brain shift.Methods We analyzed the cliclical materical of 24 case of functional gliomas which were resected by neuronavigation with intraoperative ultrasound.Results The accuracy of localization of functional glioma was 100%.The distance of brain shift was 2 to 10mm,with an average 4.7mm.After 24 hours MRI confirmed that total removal of function glioma was achieved in 21 cases,subtotal in 3 cases.After oper-ation function improve was 20 cases,invalid of 2 cases,hemiplegia happened in 2 cases and no death in all the patients.Conclusion Neuronavigation with intraoperative ultrasound can correct brain shift and improve the accuracy of localization of functional glioma,to improve extent of function glioma and decrease dysfunction.Neuronavigation with intraoperative ultrasound is important to functional glioma.

Consensus ; Hirschsprung Disease ; diagnosis ; Humans

This study sought to make a biomechanical analysis of the diffuse axonal injury(DAI) animal model caused by nonimpact with half bound head in cats. A three-dimensional finite element model of cat's head was established. The head of an anesthetized cat was scanned in 2 mm section. The nods and element meshes were signed out according to the geometry of every section. The geometric data were put into the computer and the element mesh body of cat's head was established in vizi CAD system. The maximum stress, minimum stress and von Mises stress were calculated by Super SAP (93ed) finite elemental software when the force was loaded on the right or left side of model in zero section. The analysis showed that the maximum stress appeared in the anterior and posterior loaded point and extended to cranial base in the cranial shell. There was high stress in the brain surface also. Because of cerebellar tentorium, cerebral falx, petrosal bone and sellar process, the stress did not decrease equivalently while approaching the deep brain, but it was distributed in cerebral-cerebellar peduncles, brain stem, corpus callosum and basal ganglia area at high values. The results suggest that the stress caused by rotational force is widespreadly and unequivalently distributed in brain tissue, which is mainly effected by the cerebellar tentorium, cerebral falx and the irregular geometric forms of cranial bone.
Animals ; Biomechanical Phenomena ; Brain ; pathology ; Brain Injuries ; pathology ; Cats ; Diffuse Axonal Injury ; pathology ; Finite Element Analysis ; Head ; Models, Animal ; Rotation ; Skull

Objective To study the influence of optimization of parenteral nutrition strategy on the head circumference and brain volume in very low birth weight infants.Method Very low birth weight infants admitted to NICU of University of Hong Kong-Shen Zhen Hospital from January 2014 to June 2016 were assigned to optimized group and conventional group according to early nutritional strategies.Early parenteral nutrition intakes were increased in infants assigned to optimizated group.Nutrition intakes and parenteral nutrition related complications within 28 days after birth were compared between groups.All participants underwent brain MRI at corrected gestational age (CGA) 36 weeks.Head circumference and brain volume measured by MRI were also compared between groups.Result A total of 40 preterm infants were recruited,with 20 infants in each group.There were no significant differences in the gestational age,birth weight,brain injury and intrauterine growth retardation rate between the two groups (P ＞ 0.05).The average daily total calories and protein intake of optimization group during the first 4 weeks were significantly higher than those of conventional group,respectively [(101.5 ± 3.1) kcal/ (kg · d) vs.(96.1 ± 3.2)kcal/(kg·d),(3.07±0.16) g/(kg·d) vs.(2.90±0.11) g/(kg· d),P＜ 0.05].Theaverage daily calorie intake and protein intake of optimization group was increased by 4.7％ and 5.5％,compared with those of conventional group.Compared with the conventional group,head circumference and total brain volume of optimized group at CGA 36 weeks was improved by 3.3％ and 4.1％,and the differences were both statistically significant (P ＜ 0.05).Cerebral cortex gray matter volume of optimized group was significantly higher than that of conventional group [(102.4 ± 4.9) ml vs.(96.4 ± 4.6) ml,P ＜ 0.05].There was no significant difference in brain white matter,deep gray matter and cerebrospinal fluid volume between the two groups (P ＞ 0.05).Conclusion The optimization of parenteral nutrition within the framework of active nutrition strategy of preterm infants can further improve the early nutritional intake of preterm infants,leading to the increase of the head circumference and the gray matter volume of the cerebral cortex.