Sevoflurane protects against intracerebral hemorrhage via microRNA-133b/FOXO4/BCL2 axis.

[1]  Yusheng Cong,et al.  Neuroprotective effects of salidroside on ageing hippocampal neurons and naturally ageing mice via the PI3K/Akt/TERT pathway , 2021, Phytotherapy research : PTR.

[2]  D. Marks,et al.  Chronic cerebral lipocalin 2 exposure elicits hippocampal neuronal dysfunction and cognitive impairment , 2021, Brain, Behavior, and Immunity.

[3]  G. Zipfel,et al.  Sevoflurane and Desflurane Exposures Following Aneurysmal Subarachnoid Hemorrhage Confer Multifaceted Protection against Delayed Cerebral Ischemia , 2021, Biomedicines.

[4]  Dong Zhou,et al.  A Selenium Nanocomposite Protects the Mouse Brain from Oxidative Injury Following Intracerebral Hemorrhage , 2021, International journal of nanomedicine.

[5]  Jiayue Ding,et al.  Safety and efficacy of normobaric oxygenation on rescuing acute intracerebral hemorrhage-mediated brain damage—a protocol of randomized controlled trial , 2021, Trials.

[6]  J. Solé-Violán,et al.  Serum B cell lymphoma-2 concentrations and mortality of patients with spontaneous intracerebral hemorrhage , 2021, Neurological Sciences.

[7]  Hong Yang,et al.  Downregulation of circular RNA HECTD1 induces neuroprotection against ischemic stroke through the microRNA-133b/TRAF3 pathway. , 2020, Life sciences.

[8]  Hongbo Xia,et al.  Differential Expression of microRNA Profiles and Wnt Signals in Stem Cell-Derived Exosomes During Dopaminergic Neuron Differentiation. , 2020, DNA and cell biology.

[9]  John H. Zhang,et al.  Isoflurane versus sevoflurane for early brain injury and expression of sphingosine kinase 1 after experimental subarachnoid hemorrhage , 2020, Neuroscience Letters.

[10]  Dongmei Ma,et al.  Low-dose sevoflurane attenuates cardiopulmonary bypass (CPB)-induced postoperative cognitive dysfunction (POCD) by regulating hippocampus apoptosis via PI3K/AKT pathway. , 2020, Current neurovascular research.

[11]  H. Kirshner,et al.  Management of Intracerebral Hemorrhage: JACC Focus Seminar. , 2020, Journal of the American College of Cardiology.

[12]  Yunjie Ge,et al.  Anesthetic effect of sevoflurane in the craniotomy hematoma evacuation treatment of hypertensive cerebral hemorrhage. , 2020, Panminerva medica.

[13]  E. Keller,et al.  Sevoflurane sedation attenuates early cerebral oedema formation through stabilisation of the adherens junction protein beta catenin in a model of subarachnoid haemorrhage: A randomised rat study. , 2020, European journal of anaesthesiology.

[14]  K. Yin,et al.  MicroRNAs in central nervous system diseases: A prospective role in regulating blood-brain barrier integrity , 2020, Experimental Neurology.

[15]  Liguo Xu,et al.  The protective role of microRNA-133b in restricting hippocampal neurons apoptosis and inflammatory injury in rats with depression by suppressing CTGF. , 2019, International immunopharmacology.

[16]  Tian Tian,et al.  Dopaminergic neuron injury in Parkinson’s disease is mitigated by interfering lncRNA SNHG14 expression to regulate the miR-133b/ α-synuclein pathway , 2019, Aging.

[17]  Wen Liu,et al.  Current perspective on the regulation of FOXO4 and its role in disease progression , 2019, Cellular and Molecular Life Sciences.

[18]  Xiaolin Huang,et al.  Electroacupuncture Alleviates Ischemic Brain Injury by Inhibiting the miR-223/NLRP3 Pathway , 2019, Medical science monitor : international medical journal of experimental and clinical research.

[19]  M. Xie,et al.  Deficiency of TREK-1 potassium channel exacerbates blood-brain barrier damage and neuroinflammation after intracerebral hemorrhage in mice , 2019, Journal of Neuroinflammation.

[20]  Lei Wang,et al.  Inhibition of Brd4 alleviates renal ischemia/reperfusion injury-induced apoptosis and endoplasmic reticulum stress by blocking FoxO4-mediated oxidative stress , 2019, Redox biology.

[21]  Zhiping Hu,et al.  Neuroprotective potential of glibenclamide is mediated by antioxidant and anti-apoptotic pathways in intracerebral hemorrhage , 2018, Brain Research Bulletin.

[22]  R. Burke,et al.  Context-dependent expression of a conditionally-inducible form of active Akt , 2018, PloS one.

[23]  Ling-Yun Wu,et al.  Peroxiredoxin 2 activates microglia by interacting with Toll-like receptor 4 after subarachnoid hemorrhage , 2018, Journal of Neuroinflammation.

[24]  Haiying Li,et al.  Role of Exosomes Derived from miR-133b Modified MSCs in an Experimental Rat Model of Intracerebral Hemorrhage , 2018, Journal of Molecular Neuroscience.

[25]  John H. Zhang,et al.  Intracerebral Hemorrhage in Mice. , 2018, Methods in molecular biology.

[26]  J. Claude Hemphill,et al.  Management of intracerebral hemorrhage. , 2017, Handbook of clinical neurology.

[27]  Ping Zhang,et al.  EGb761 Ameliorates Neuronal Apoptosis and Promotes Angiogenesis in Experimental Intracerebral Hemorrhage via RSK1/GSK3β Pathway , 2017, Molecular Neurobiology.

[28]  J. Goldstein,et al.  Diagnosis and Management of Acute Intracerebral Hemorrhage. , 2016, Emergency medicine clinics of North America.

[29]  Yanghao Hou,et al.  Foxo1-mediated inflammatory response after cerebral hemorrhage in rats , 2016, Neuroscience Letters.

[30]  Y. Taki,et al.  Isoflurane postconditioning with cardiac support promotes recovery from early brain injury in mice after severe subarachnoid hemorrhage. , 2016, Life sciences.

[31]  Zhou-Guang Wang,et al.  The Effects of Two Anesthetics, Propofol and Sevoflurane, on Liver Ischemia/Reperfusion Injury , 2016, Cellular Physiology and Biochemistry.

[32]  Wei Hu,et al.  Overexpression of FOXO4 induces apoptosis of clear-cell renal carcinoma cells through downregulation of Bim. , 2016, Molecular medicine reports.

[33]  T. Tominaga,et al.  Consistent delayed unilateral neuronal death after modified transient focal cerebral ischemia in mice that mimics neuronal injury after transient global cerebral ischemia. , 2015, Journal of neurosurgery.

[34]  T. Takizawa,et al.  Sevoflurane anesthesia persistently downregulates muscle-specific microRNAs in rat plasma. , 2014, International journal of molecular medicine.

[35]  Ada T Feldman,et al.  Tissue processing and hematoxylin and eosin staining. , 2014, Methods in molecular biology.

[36]  J. Dreyer New insights into the roles of microRNAs in drug addiction and neuroplasticity , 2010, Genome Medicine.