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Epidemiological patterns of animal bites in Abadeh district of central Iran from 2012 to 2018: A cross-sectional study 被引量:2
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作者 Ahmad Karimi Behnam Karimi +5 位作者 Ahmad Karimifard Nabiollah Taherimotlagh Amin Kasraei Mohammad Yandarani Fatemeh Safikhani Fatemeh Majidpour 《Journal of Acute Disease》 2019年第6期265-268,共4页
Objectives:To investigate the epidemiology of animal bites and associated factors in Abadeh district(central Iran)from 2012 to 2018.Methods:In this cross-sectional study,1407 individuals with animal bites who were ref... Objectives:To investigate the epidemiology of animal bites and associated factors in Abadeh district(central Iran)from 2012 to 2018.Methods:In this cross-sectional study,1407 individuals with animal bites who were referred to the Abadeh Rabies Treatment Center were investigated by using the census method from 2012 to 2018.The variables included the victim's demographic information(age,gender,occupation),the type of biting animals(dog,cat,and other animals),the domesticated and wild animals,the time of biting based on year and month,the residence location(urban or rural),the treatment status,and the anatomical location of the wounds.Results:The annual incidence rate of animal bites was 189.62 per 100000 population.Totally 83.4%of the victims were male.The average age was(33.66±18.97)years and individuals in the age range of 36-50 years were greater at risk.Most of the animal bites were from dogs(77.8%).About two thirds(62.1%)of the bites were from household animals.A total of 57.1%of individuals lived in urban areas.Most victims were engaged in farming and animal husbandry.The highest prevalence of animal bites(37.4%)happened in the summer.None of the patients had any clinical signs of rabies.Conclusions:To reduce the incidence of animal bites,high-risk groups including farmers and ranchers should be educated about bite prevention,and it should be ensured that they are managed correctly. 展开更多
关键词 Animal BITE RABIES ZOONOSIS Post-exposure PROPHYLAXIS RABIES vaccines Epidemiology Abadeh
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Underlying mechanism of protection from hypoxic injury seen with n-butanol extract of Potentilla anserine L. in hippocampal neurons 被引量:11
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作者 Xiaojing Qin Lingzhi Li +4 位作者 Qi Lv Baoguo Yu ShuwangYang Tao He Yongliang Zhang 《Neural Regeneration Research》 SCIE CAS CSCD 2012年第33期2576-2582,共7页
The alcohol and n-butanol extract of Potentilla anserine L. significantly protects myocardium from acute ischemic injury. However, its effects on rat hippocampal neurons and the mechanism of protection remain unclear.... The alcohol and n-butanol extract of Potentilla anserine L. significantly protects myocardium from acute ischemic injury. However, its effects on rat hippocampal neurons and the mechanism of protection remain unclear. In this study, primary cultured hippocampal neurons from neonatal rats were incubated in 95% N2 and 5% CO2 for 4 hours. Results indicated that hypoxic injury decreased the viability of neurons, increased the expression levels of caspase-9 and caspase-3 mRNA, as well as cytochrome c, Caspase-9, and Caspase-3 protein. Pretreatment with 0.25, 0.062 5, 0.015 6 mg/mL n-butanol extract of Potentilla anserine L. led to a significant increase in cell viability. Expression levels of caspase-9 and caspase-3 mRNA, as well as cytochrome c, Caspase-9, and Caspase-3 protein, were attenuated. The neuroprotective effect of n-butanol extract of Potentilla anserine L. was equivalent to tanshinone IIA. Our data suggest that the n-butanol extract of Potentilla anserine L. could protect primary hippocampal neurons from hypoxic injury by deactivating mitochondrial cell death. 展开更多
关键词 n-butanol extract of Potentilla anserine L. neuron hypoxia mitochondria injury cytochrome c caspase neural regeneration
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Sequential expression of cyclooxygenase-2, glutamate receptor-2, and platelet activating factor receptor in rat hippocampal neurons after fluid percussion injury 被引量:1
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作者 Zhiqiang Li Qingming Shu +2 位作者 Lingzhi Li Maolin Ge Yongliang Zhang 《Neural Regeneration Research》 SCIE CAS CSCD 2014年第9期978-985,共8页
Traumatic brain injury causes gene expression changes in different brain regions. Occurrence and development of traumatic brain injury are closely related, involving expression of three factors, namely cyclooxygenase-... Traumatic brain injury causes gene expression changes in different brain regions. Occurrence and development of traumatic brain injury are closely related, involving expression of three factors, namely cyclooxygenase-2, glutamate receptor-2, and platelet activating factor receptor. However, little is known about the correlation of these three factors and brain neuronal injury. In this study, primary cultured rat hippocampal neurons were subjected to fluid percussion injury according to Scott’s method, with some modifications. RT-PCR and semi-quantitative immunocytochemical staining was used to measure the expression levels of cyclooxygenase-2, glutamate receptor-2, and platelet activating factor receptor. Our results found that cyclooxygenase-2 expression were firstly increased post-injury, and then decreased. Both mRNA and protein expression levels reached peaks at 8 and 12 hours post-injury, respectively. Similar sequential changes in glutamate receptor 2 were observed, with highest levels mRNA and protein expression at 8 and 12 hours post-injury respectively. On the contrary, the expressions of platelet activating factor receptor were firstly decreased post-injury, and then increased. Both mRNA and protein expression levels reached the lowest levels at 8 and 12 hours post-injury, respectively. Totally, our findings suggest that these three factors are involved in occurrence and development of hippocampal neuronal injury. 展开更多
关键词 nerve regeneration brain injury platelet activating factor CYCLOOXYGENASE-2 RT-PCR IMMUNOCYTOCHEMISTRY hippocampus platelet activating factor receptor glutamate receptor 2 NSFC grant neural regeneration
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Differential protein expression in rat cortical astrocytes following fluid percussion injury Two-dimensional gel electrophoresis and mass-spectrum detection
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作者 Yongliang Zhang Lingzhi Li +3 位作者 Baoguo Yu Xiaojing Qin Shuwang Yang Tao He 《Neural Regeneration Research》 SCIE CAS CSCD 2010年第5期383-389,共7页
BACKGROUND: The Glasgow Coma Scale, computer tomography, and nuclear magnetic resonance imaging have been frequently used to diagnose brain injury. However, these methods do not accurately and quantitatively evaluate... BACKGROUND: The Glasgow Coma Scale, computer tomography, and nuclear magnetic resonance imaging have been frequently used to diagnose brain injury. However, these methods do not accurately and quantitatively evaluate injury degree. However, proteomics displays some advantages. To date, there are few proteomics studies based on primary astrocyte cultures from a fluid percussion injury model. OBJECTIVE: To detect differential protein expression in rat cerebral cortical astrocytes following fluid percussion injury using two-dimensional gel electrophoresis and mass spectrum and to determine specific biological markers of brain injury. DESIGN, TIME AND SETTING: Complete, randomized grouping and proteomics experiments were performed at the Molecular Pathological Laboratory, Central Laboratory and Tianjin Key Laboratory for Biomarkers of Occupational and Environmental Hazard of Medical College of Chinese People's Armed Police Force from October 2007 to May 2008. MATERIALS: Inverted phase-contrast microscope was purchased from Olympus, Japan. PROTEAN IEF Cell isoelectric focusing electrophoresis system and PROTEAN II Xi-Cell vertical electrophoresis system were purchased from Bio-Rad, USA. Autofiex MALDI-TOF mass spectrometer was purchased from Bruker, Germany. METHODS: A total of 90 culture dishes, fully coated with Sprague Dawley rat cortical astrocytes, were randomly divided into control (n = 30) and injury (n = 60) groups. Astrocytes in the injury group were subjected to fluid percussion and subdivided into 4-hour (n = 30) and 48-hour injury (n = 30) groups. MAIN OUTCOME MEASURES: Cell morphology was observed using inverted phase-contrast microscopy. Cell total protein was extracted from each group, followed by two-dimensional gel electrophoresis and silver staining, and the differential protein expression was analyzed using PDQuest 7.0 software. Protein peptide mass fingerprinting of differential protein spots was obtained by matrix assisted laser desorption/ionization-time of flight mass spectrometry. The National Center for Biotechnology Information (NCBI) protein database was retrieved by Mascot to primarily identify protein type, Finally, differential protein expression was detected by Western blot analysis. RESULTS: Following fluid percussion injury, astrocytes displayed obvious swelling and increased intercellular space, with some cell detachment; the number of dead cells was significantly greater than the control group (P 〈 0.05). Expression intensity of 114 protein spots was significantly greater in the injury group compared with the control group (P〈 0.05); 9 of the 114 protein spots were identified and peptJde matching scores of 8 spots were 〉 61 (P 〈 0.05). Protein types were identified and included cellular retinol binding protein, brain fatty acid binding protein 7, $100 calcium binding protein All, 60S acidic ribosomal protein P2, calponin 3, breast carcinoma amplified sequence 2 homolog, eukaryotic translation initiation factor 1A, and hypothetical protein LOC685814. Western blot detection revealed brain fatty acid binding protein 7 expression in cortical astrocytes, which increased with injury time compared with the control group (P 〈 0.05). CONCLUSION: Results from this study showed morphological and proteomic changes in cortical astrocytes following fluid percussion injury. Brain fatty acid binding protein 7 was expressed in astrocytes and possibly played an important role in injury repair. Mass-spectrum identified differentially expressed proteins that correlated with cell metabolism regulation, signal transduction, and translation initiation, and could serve as specific biological markers of brain injury. 展开更多
关键词 differential protein expression ASTROCYTE fluid pemussion injury biological marker PROTEOMICS Parkinson's disease neural regeneration
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Neuroprotection of n-Butanol Extract from Roots of Potentilla anserina on Hypoxic Injury in Primary Hippocampal Neurons 被引量:8
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作者 Xiao-jing QIN Ling-zhi LI +4 位作者 Qi LV Bao-guo YU Shu-wang YANG Tao HE Yong-liang ZHANG 《Chinese Herbal Medicines》 CAS 2012年第3期195-200,共6页
Objective To investigate the protective effect of n-butanol extract from the roots of Potentilla anserina (NP) on hypoxic hippocampal neurons in neonatal rats. Methods Primary cultured hippocampal neurons were pretrea... Objective To investigate the protective effect of n-butanol extract from the roots of Potentilla anserina (NP) on hypoxic hippocampal neurons in neonatal rats. Methods Primary cultured hippocampal neurons were pretreated with different concentration of NP (0.25, 0.0625, and 0.0156 mg/mL) before incubation in a low oxygen (0.1%) environment for 4 h. Cell viability was evaluated by Trypan blue staining assay. Lactate dehydrogenase (LDH) released by neurons into the medium was measured. The activity of superoxide dismutase (SOD) in cell cytosol was determined using nitroblue tetrazolium. Morphological changes and mitochondrial function were observed by transmission electron microscopy. Results Hypoxic injury could decrease the cells viability of neuron, enhance LDH release (P < 0.05), decrease SOD activity, and increase mitochondrial injury. Pretreatment with NP significantly increased cell viability, decreased LDH release (P < 0.05), promoted SOD activity (P < 0.05), and remarkably improved cellular ultra-microstructure compared with the model group. Conclusion NP could protect the primary hippocampal neurons from hypoxic injury by attenuating mitochondrial cell death. 展开更多
关键词 HYPOXIA MITOCHONDRIA NEURON Potentilla anserina ultra-microstructure
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