BACKGROUND: An animal model of chronic optic nerve injury is necessary to further understand the pathological mechanisms involved. OBJECTIVE: To establish a stabilized, chronic, optic nerve crush model, which is sim...BACKGROUND: An animal model of chronic optic nerve injury is necessary to further understand the pathological mechanisms involved. OBJECTIVE: To establish a stabilized, chronic, optic nerve crush model, which is similar to the clinical situation to explore histopathological and optic electrophysiological changes involved in this injury. DESIGN, TIME AND SETTING: A randomized and controlled animal trial was performed at Shanghai Institute of Neurosurgery from May to October 2004, MATERIALS: A BAL3XRAY undetachable balloon and Magic-BD catheter were provided by BLAT, France; JX-2000 biological signal processing system by Second Military Medical University of Chinese PLA, China; inverted phase contrast microscopy by Olympus, Japan. METHODS: A total of twenty normal adult cats were randomly assigned to control (n = 5) and model (n = 15) groups, according to different doses of contrast agent injected through balloons as follows: 0.2 mL injection, 0.25 mL injection, and 0.35 mL injection, with each group containing 5 animals. Imitating the clinical pterion approach, the optic nerves were exposed using micro-surgical methods. An engorged undetachable balloon was implanted beneath the nerve and connected to a catheter. Balloon size was controlled with a contrast agent injection (0.1 mL/10 min) to form an occupying lesion model similar to sellar tumors. MAIN OUTCOME MEASURES: The visually evoked potential examination was used to study optical electrophysiology changes in pre-post chronic optical nerve injury. Ultrastructural pathological changes to the optic nerve were analyzed by electron microscopy. RESULTS: During the early period (day 11 after modeling), visually evoked potential demonstrated no significant changes. In the late period (day 51 after modeling), recorded VEP demonstrated that P1 wave latency was prolonged and P1 wave amplitude was obviously reduced. Following injury, the endoneurium, myelin sheath, lamella, axolemma, and axon appeared disordered. CONCLUSION: Results demonstrated that the chronic, intracranial, optical nerve crush model was stable and could simulate optic nerve lesions induced by sellar tumors. Under the condition of chronic optical nerve crush, visually evoked potentials were aggravated.展开更多
The envelope protein(Env) of lentiviruses such as HIV,SIV,FIV and EIAV is larger than that of other retroviruses.The Chinese EIAV attenuated vaccine is based on Env and has helped to successfully control this virus,de...The envelope protein(Env) of lentiviruses such as HIV,SIV,FIV and EIAV is larger than that of other retroviruses.The Chinese EIAV attenuated vaccine is based on Env and has helped to successfully control this virus,demonstrating that envelope is crucial for vaccine.We compared Env variation of the four kinds of lentiviruses.Phylogenetic analysis showed that the evolutionary relationship of Env between HIV and SIV was the closest and they appeared to descend from a common ancestor,and the relationship of HIV and EIAV was the furthest.EIAV had the shortest Env length and the least number of potential N-linked glycosylation sites(PNGS) as well as glycosylation density compared to various immunodeficiency viruses.However,HIV had the longest Env length and the most PNGS.Moreover,the alignment of HIV and SIV showed that PNGS were primarily distributed within extracellular membrane protein gp120 rather than transmembrane gp41.It implies that the size difference among these viruses is associated with a lentivirus specific function and also the diversity of env.There are low levels of modification of glycosylation sites of Env and selection of optimal protective epitopes might be useful for development of an effective vaccine against HIV/AIDS.展开更多
基金the National Natural Science Foundation of China,No.30271333
文摘BACKGROUND: An animal model of chronic optic nerve injury is necessary to further understand the pathological mechanisms involved. OBJECTIVE: To establish a stabilized, chronic, optic nerve crush model, which is similar to the clinical situation to explore histopathological and optic electrophysiological changes involved in this injury. DESIGN, TIME AND SETTING: A randomized and controlled animal trial was performed at Shanghai Institute of Neurosurgery from May to October 2004, MATERIALS: A BAL3XRAY undetachable balloon and Magic-BD catheter were provided by BLAT, France; JX-2000 biological signal processing system by Second Military Medical University of Chinese PLA, China; inverted phase contrast microscopy by Olympus, Japan. METHODS: A total of twenty normal adult cats were randomly assigned to control (n = 5) and model (n = 15) groups, according to different doses of contrast agent injected through balloons as follows: 0.2 mL injection, 0.25 mL injection, and 0.35 mL injection, with each group containing 5 animals. Imitating the clinical pterion approach, the optic nerves were exposed using micro-surgical methods. An engorged undetachable balloon was implanted beneath the nerve and connected to a catheter. Balloon size was controlled with a contrast agent injection (0.1 mL/10 min) to form an occupying lesion model similar to sellar tumors. MAIN OUTCOME MEASURES: The visually evoked potential examination was used to study optical electrophysiology changes in pre-post chronic optical nerve injury. Ultrastructural pathological changes to the optic nerve were analyzed by electron microscopy. RESULTS: During the early period (day 11 after modeling), visually evoked potential demonstrated no significant changes. In the late period (day 51 after modeling), recorded VEP demonstrated that P1 wave latency was prolonged and P1 wave amplitude was obviously reduced. Following injury, the endoneurium, myelin sheath, lamella, axolemma, and axon appeared disordered. CONCLUSION: Results demonstrated that the chronic, intracranial, optical nerve crush model was stable and could simulate optic nerve lesions induced by sellar tumors. Under the condition of chronic optical nerve crush, visually evoked potentials were aggravated.
基金Natural Science Foundation of China(30970162)Tianjin Municipal Science and Technology Foundation(08ZCGHHZ01800)
文摘The envelope protein(Env) of lentiviruses such as HIV,SIV,FIV and EIAV is larger than that of other retroviruses.The Chinese EIAV attenuated vaccine is based on Env and has helped to successfully control this virus,demonstrating that envelope is crucial for vaccine.We compared Env variation of the four kinds of lentiviruses.Phylogenetic analysis showed that the evolutionary relationship of Env between HIV and SIV was the closest and they appeared to descend from a common ancestor,and the relationship of HIV and EIAV was the furthest.EIAV had the shortest Env length and the least number of potential N-linked glycosylation sites(PNGS) as well as glycosylation density compared to various immunodeficiency viruses.However,HIV had the longest Env length and the most PNGS.Moreover,the alignment of HIV and SIV showed that PNGS were primarily distributed within extracellular membrane protein gp120 rather than transmembrane gp41.It implies that the size difference among these viruses is associated with a lentivirus specific function and also the diversity of env.There are low levels of modification of glycosylation sites of Env and selection of optimal protective epitopes might be useful for development of an effective vaccine against HIV/AIDS.