Objective: To observe the inhibition of intracranial glioma tumorigenesis by vascular endothelial growth factor (VEGF) antisense oligodeoxynucleotide (ODN) in rats. Methods: Totally 20 μ1 Hank's liquid containing...Objective: To observe the inhibition of intracranial glioma tumorigenesis by vascular endothelial growth factor (VEGF) antisense oligodeoxynucleotide (ODN) in rats. Methods: Totally 20 μ1 Hank's liquid containing 1×106 C6 glioma cells was seeded into rat right caudate putaraen in high-flow microinfusion with stereotactic technique. VEGF antisense ODN was simultaneously used with glioma cell. Each rat of the treated group Ⅰ and the treated group Ⅱ was treated with 1 000 μmol/L VEGF antisense ODN. Each rat of the treated group Ⅲ and the treated group Ⅳ was treated with 2 000 μmol/L VEGF antisense ODN. The experimental periods of the treated group Ⅰ , the treated group Ⅲ and the control group Ⅰ were 2 weeks, those of the treated group Ⅱ , the treated group Ⅳ and the control group Ⅱ were 3 weeks. Before sacrifice, MRI was performed on each rat. Tumor magnitude and pathologic examination were detected after samples were dissected. Results: The survival state of all treated rats was better, and that of the control rats was in severe danger. The tumor volumes of the treated group Ⅰ and the treated group Ⅱ were remarkably lessened. Tumor tissue could not be found macroscopically in the brain samples of the treated group Ⅲ and the treated group Ⅳ, but tumor nest could be found with microscopy. Tumors of the treated group I and the treated group Ⅱ had weak expressions of VEGF mRNA and VEGF, while normal brains and the samples of the treated group Ⅲ and the treated group Ⅳ had negative expressions, but tumors of the control groups had strong expressions. Conclusion: VEGF antisense ODN used early in situ can suppress angiogenesis and growth of rat intracranial glioma to retard tumorigenesis.展开更多
The experimental models of craniocercbral wounds caused by 7. 62 mm bullets, i. e. thepenetrating craniocerebral injury, the tangential brain injury and the tangential skull injury, were es-tablished in dogs. The cran...The experimental models of craniocercbral wounds caused by 7. 62 mm bullets, i. e. thepenetrating craniocerebral injury, the tangential brain injury and the tangential skull injury, were es-tablished in dogs. The craniocerebral ballistics, craniocerebral pathology, serum and cerebrospinal flu-id total lactate dehydrogenase, blood-brain barrier permcabalities, and the pathophysiology ofcardiovascular and respiratory systems were studied. These results suggest that: 1. These injuries ofhigh-velocity missile can all cause general brain damage and intracranio-hematomas ; 2. The severityof the wound depends on the site of the injury, the kinetic energy of the missile force and the effectof the temporary cavity ; 3. The brain injury can seriously damage the blood brain barrier, leadingto brain edema ; 4. The dysfunction of respiratory and cardiovascular system is the fatal complicationendangering the life of the subjects ; 5. Estimating serum and cerebrospinal fluid total lactatedehydrogenase is a simple and valuable way to judge the severity and prognosis of this injury.展开更多
The effect of high dose dexamethasone(5 mg/kg wt,intravenous injection)to preventand treat secondary pathological damage due to craniocerebral injury was studied in an animal modelof craniocerebral injury caused by hi...The effect of high dose dexamethasone(5 mg/kg wt,intravenous injection)to preventand treat secondary pathological damage due to craniocerebral injury was studied in an animal modelof craniocerebral injury caused by high-velocity missiles in dogs.We observed the physiologicalchanges,analyzed the level of serum and cerebrospinal fluid lactate dehydrogenase,cstimated thepermeability of blood brain barrier(BBB)and studied brain pathology by light and electronmicroscopy.The rusults suggest that high dose dexarnethasone can help to restore the structure andfunction of BBB,protect the brain cells,lessen the secondary pathological damage in the respiratoryand circulatory systams,and reduce the production of lipoperoxides(LPO).展开更多
Glioma-infiltrating lymphocytes(GIL)were isolated from 9 surgical biopsy specimens of pri-mary brain gliomas using mechanical and enzymatic digestion and discontinuous density gradientcentfifugation.Durng culture in t...Glioma-infiltrating lymphocytes(GIL)were isolated from 9 surgical biopsy specimens of pri-mary brain gliomas using mechanical and enzymatic digestion and discontinuous density gradientcentfifugation.Durng culture in the presence of interleukin-2(IL-2)for a period of four weeks,GIL were expanded by 48.4-fold on the avea-age,even up to 118-fold.GIL activated by IL-2 hadspcific cytolytic activity against autologous glioma cells.Analysis of cell surface phenotypes offreshly isolated GIL showed that CD3^+ cells were 71.0±11.9%,CD4^+ cells 34.2±6.1% and CD8^+cells 37.0±7.6%.Ability of IL-2-activated GIL to secrete γ-interferon(γ-IFN)was significantlyhigher than that of freshly isolated GIL and autologous peripheral blood lymphocytes(PBL).Theresults suggest that GIL have many advantages as an adoptive immunotherapy for patients withgliomas and as a new type of antitumor immune effector.展开更多
The NiTi shape memory alloy (SMA) bow staple consists of an arched body,one front arm and one rear arm.It has the function of shape memory and manyadvantages,i.e.,high strength,low specific gravity,strong retrieving f...The NiTi shape memory alloy (SMA) bow staple consists of an arched body,one front arm and one rear arm.It has the function of shape memory and manyadvantages,i.e.,high strength,low specific gravity,strong retrieving force,highresistance to fatigue and erosion,nontoxicity,nonmagnetism and goodhistocompatibility.It can be widely used and make the fixation convenient and ef-fective.The staple has been used clinically in 152 cases of cranioplasty.Resultshave showed that duration of the operation is shortened and harm during the op-eration is reduced,because dura mater needn’t be seperated and the skull needn’tbe penetrated through.Some complications can be avoided and the operationbecomes simpler,safer and more reliable.The bow staple is suitable for fixationwith any kind of repairing material in cranioplasty and does not interfere withthe CT and MRI reexaminations.展开更多
Objective: To construct the EGFR targeted non-viral vector GE7 system and explore the in vitro effect of p21WAF-1/CIPI gene on growth of human glioma cells mediated by the GE7 system. Methods: The EGFR targeted non-vi...Objective: To construct the EGFR targeted non-viral vector GE7 system and explore the in vitro effect of p21WAF-1/CIPI gene on growth of human glioma cells mediated by the GE7 system. Methods: The EGFR targeted non-viral vector GE7 gene delivery system was constructed. The malignant human glioma cell line U251MG was transfected in vitro with β-galactosidase gene ( reporter gene) and p21WAF-1/CIPI gee (therapeutic gene) using the GE7 system. By means of X-gal staining, MTS and FACS, the transfection efficiency of exogenous gene and apoptosis rate of tumor cells were examined. The expression of p21WAF-1/ CIPI gene in transfected U251MG cell was examined by immunohistochemis-try staining. Results: The highest transfer rate of exogenous gene was 70% . After transfection with p21WAF-1/CIPI gene, the expression of WAF-1 increased remarkably and steadily; the growth of U251MG cells were inhibited evidently. FACS examination showed G1 arrest. The average apoptosis rate was 25.2%. Conclusion: GE7 system has the ability to transfer exogenous gene to targeted cells efficiently, and expression of p21WAF-1/CIPI gene can induce apoptosis of glioma cell and inhibit its growth.展开更多
Beta-adrenergic receptors in the brain are involved in modulating cerebral blood flow (CBF) and cerebral energy metabolism (CEM). Because of the difficult availability of brain tissue samples, investigation of the rel...Beta-adrenergic receptors in the brain are involved in modulating cerebral blood flow (CBF) and cerebral energy metabolism (CEM). Because of the difficult availability of brain tissue samples, investigation of the relevant beta-receptor of brain is limited. In the present study, the density of beta-receptors in brain tissues and in circulating lymphocytes was measured by the method of radio-ligand receptor binding (RLBA), in brain injury or brain tumor and a correlation analysis was performed. Our results show that there is linear correlation between the beta-receptors in brain tissue and in peripheral blood lymphocytes (r= 0. 811 , P<0. 01) in cases of increased permeability of bloodbrain barrier during brain injury or brain tumor.展开更多
文摘Objective: To observe the inhibition of intracranial glioma tumorigenesis by vascular endothelial growth factor (VEGF) antisense oligodeoxynucleotide (ODN) in rats. Methods: Totally 20 μ1 Hank's liquid containing 1×106 C6 glioma cells was seeded into rat right caudate putaraen in high-flow microinfusion with stereotactic technique. VEGF antisense ODN was simultaneously used with glioma cell. Each rat of the treated group Ⅰ and the treated group Ⅱ was treated with 1 000 μmol/L VEGF antisense ODN. Each rat of the treated group Ⅲ and the treated group Ⅳ was treated with 2 000 μmol/L VEGF antisense ODN. The experimental periods of the treated group Ⅰ , the treated group Ⅲ and the control group Ⅰ were 2 weeks, those of the treated group Ⅱ , the treated group Ⅳ and the control group Ⅱ were 3 weeks. Before sacrifice, MRI was performed on each rat. Tumor magnitude and pathologic examination were detected after samples were dissected. Results: The survival state of all treated rats was better, and that of the control rats was in severe danger. The tumor volumes of the treated group Ⅰ and the treated group Ⅱ were remarkably lessened. Tumor tissue could not be found macroscopically in the brain samples of the treated group Ⅲ and the treated group Ⅳ, but tumor nest could be found with microscopy. Tumors of the treated group I and the treated group Ⅱ had weak expressions of VEGF mRNA and VEGF, while normal brains and the samples of the treated group Ⅲ and the treated group Ⅳ had negative expressions, but tumors of the control groups had strong expressions. Conclusion: VEGF antisense ODN used early in situ can suppress angiogenesis and growth of rat intracranial glioma to retard tumorigenesis.
文摘The experimental models of craniocercbral wounds caused by 7. 62 mm bullets, i. e. thepenetrating craniocerebral injury, the tangential brain injury and the tangential skull injury, were es-tablished in dogs. The craniocerebral ballistics, craniocerebral pathology, serum and cerebrospinal flu-id total lactate dehydrogenase, blood-brain barrier permcabalities, and the pathophysiology ofcardiovascular and respiratory systems were studied. These results suggest that: 1. These injuries ofhigh-velocity missile can all cause general brain damage and intracranio-hematomas ; 2. The severityof the wound depends on the site of the injury, the kinetic energy of the missile force and the effectof the temporary cavity ; 3. The brain injury can seriously damage the blood brain barrier, leadingto brain edema ; 4. The dysfunction of respiratory and cardiovascular system is the fatal complicationendangering the life of the subjects ; 5. Estimating serum and cerebrospinal fluid total lactatedehydrogenase is a simple and valuable way to judge the severity and prognosis of this injury.
文摘The effect of high dose dexamethasone(5 mg/kg wt,intravenous injection)to preventand treat secondary pathological damage due to craniocerebral injury was studied in an animal modelof craniocerebral injury caused by high-velocity missiles in dogs.We observed the physiologicalchanges,analyzed the level of serum and cerebrospinal fluid lactate dehydrogenase,cstimated thepermeability of blood brain barrier(BBB)and studied brain pathology by light and electronmicroscopy.The rusults suggest that high dose dexarnethasone can help to restore the structure andfunction of BBB,protect the brain cells,lessen the secondary pathological damage in the respiratoryand circulatory systams,and reduce the production of lipoperoxides(LPO).
文摘Glioma-infiltrating lymphocytes(GIL)were isolated from 9 surgical biopsy specimens of pri-mary brain gliomas using mechanical and enzymatic digestion and discontinuous density gradientcentfifugation.Durng culture in the presence of interleukin-2(IL-2)for a period of four weeks,GIL were expanded by 48.4-fold on the avea-age,even up to 118-fold.GIL activated by IL-2 hadspcific cytolytic activity against autologous glioma cells.Analysis of cell surface phenotypes offreshly isolated GIL showed that CD3^+ cells were 71.0±11.9%,CD4^+ cells 34.2±6.1% and CD8^+cells 37.0±7.6%.Ability of IL-2-activated GIL to secrete γ-interferon(γ-IFN)was significantlyhigher than that of freshly isolated GIL and autologous peripheral blood lymphocytes(PBL).Theresults suggest that GIL have many advantages as an adoptive immunotherapy for patients withgliomas and as a new type of antitumor immune effector.
文摘The NiTi shape memory alloy (SMA) bow staple consists of an arched body,one front arm and one rear arm.It has the function of shape memory and manyadvantages,i.e.,high strength,low specific gravity,strong retrieving force,highresistance to fatigue and erosion,nontoxicity,nonmagnetism and goodhistocompatibility.It can be widely used and make the fixation convenient and ef-fective.The staple has been used clinically in 152 cases of cranioplasty.Resultshave showed that duration of the operation is shortened and harm during the op-eration is reduced,because dura mater needn’t be seperated and the skull needn’tbe penetrated through.Some complications can be avoided and the operationbecomes simpler,safer and more reliable.The bow staple is suitable for fixationwith any kind of repairing material in cranioplasty and does not interfere withthe CT and MRI reexaminations.
基金Supported by the National High Science and Technical Foundation of China(No. 102-12-02-05)
文摘Objective: To construct the EGFR targeted non-viral vector GE7 system and explore the in vitro effect of p21WAF-1/CIPI gene on growth of human glioma cells mediated by the GE7 system. Methods: The EGFR targeted non-viral vector GE7 gene delivery system was constructed. The malignant human glioma cell line U251MG was transfected in vitro with β-galactosidase gene ( reporter gene) and p21WAF-1/CIPI gee (therapeutic gene) using the GE7 system. By means of X-gal staining, MTS and FACS, the transfection efficiency of exogenous gene and apoptosis rate of tumor cells were examined. The expression of p21WAF-1/ CIPI gene in transfected U251MG cell was examined by immunohistochemis-try staining. Results: The highest transfer rate of exogenous gene was 70% . After transfection with p21WAF-1/CIPI gene, the expression of WAF-1 increased remarkably and steadily; the growth of U251MG cells were inhibited evidently. FACS examination showed G1 arrest. The average apoptosis rate was 25.2%. Conclusion: GE7 system has the ability to transfer exogenous gene to targeted cells efficiently, and expression of p21WAF-1/CIPI gene can induce apoptosis of glioma cell and inhibit its growth.
文摘Beta-adrenergic receptors in the brain are involved in modulating cerebral blood flow (CBF) and cerebral energy metabolism (CEM). Because of the difficult availability of brain tissue samples, investigation of the relevant beta-receptor of brain is limited. In the present study, the density of beta-receptors in brain tissues and in circulating lymphocytes was measured by the method of radio-ligand receptor binding (RLBA), in brain injury or brain tumor and a correlation analysis was performed. Our results show that there is linear correlation between the beta-receptors in brain tissue and in peripheral blood lymphocytes (r= 0. 811 , P<0. 01) in cases of increased permeability of bloodbrain barrier during brain injury or brain tumor.
