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Condition: Subarachnoid Hemorrhage
Infectious Disease: Adenoviruses
Education: Study
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Total 6 results found since Jan 2013.
Peroxiredoxin-3 Plays a Neuroprotective Role in Early Brain Injury after Experimental Subarachnoid Hemorrhage in Rats
In conclusion, PRDX3 participates in neuronal protection by inhibiting the neuronal mitochondria-mediated death pathway; PRDX3 may be an important target for EBI intervention after SAH.PMID:36566946 | DOI:10.1016/j.brainresbull.2022.12.010
Source: Brain Research - December 25, 2022 Category: Neurology Authors: Haibo Li Zongqi Wang Xueshun Xie Muyun Luo Haitao Shen Xiang Li Haiying Li Zhong Wang Xiangdong Li Gang Chen Source Type: research
Peroxiredoxin-3 plays a neuroprotective role in early brain injury after experimental subarachnoid hemorrhage in rats
In conclusion, PRDX3 participates in neuronal protection by inhibiting the neuronal mitochondria-mediated death pathway; PRDX3 may be an important target for EBI intervention after SAH.PMID:36566946 | DOI:10.1016/j.brainresbull.2022.12.010
Source: Brain Research Bulletin - December 25, 2022 Category: Neurology Authors: Haibo Li Zongqi Wang Xueshun Xie Muyun Luo Haitao Shen Xiang Li Haiying Li Zhong Wang Xiangdong Li Gang Chen Source Type: research
Peroxiredoxin-3 Plays a Neuroprotective Role in Early Brain Injury after Experimental Subarachnoid Hemorrhage in Rats
In conclusion, PRDX3 participates in neuronal protection by inhibiting the neuronal mitochondria-mediated death pathway; PRDX3 may be an important target for EBI intervention after SAH.PMID:36566946 | DOI:10.1016/j.brainresbull.2022.12.010
Source: Brain Research Bulletin - December 25, 2022 Category: Neurology Authors: Haibo Li Zongqi Wang Xueshun Xie Muyun Luo Haitao Shen Xiang Li Haiying Li Zhong Wang Xiangdong Li Gang Chen Source Type: research
Peroxisome Proliferator-Activated Receptor {beta}/{delta} Alleviates Early Brain Injury After Subarachnoid Hemorrhage in Rats Basic Sciences
Conclusions—
PPARβ/’s overexpression may attenuate early brain injury after rats’ SAH administration, which reduces neural apoptosis possibly through blocking NF-B/MMP-9 pathway.
Source: Stroke - December 28, 2015 Category: Neurology Authors: Teng, Z., Jiang, L., Hu, Q., He, Y., Guo, Z., Wu, Y., Huang, Z., Cao, F., Cheng, C., Sun, X., Guo, Z. Tags: Animal Models of Human Disease, Cell Signaling/Signal Transduction, Cerebrovascular Disease/Stroke Basic Sciences Source Type: research
