1. The role of sevoflurane in postoperative cognitive dysfunction
    Wenjie Wang et al, 2024, Medical Gas Research CrossRef
  2. Electro-Acupuncture Pretreatment Ameliorates Anesthesia and Surgery-Induced Cognitive Dysfunction Via Inhibiting Mitochondrial Injury and nEuroapoptosis in Aged Rats
    Qi Zhang et al, 2022, Neurochemical Research CrossRef
  3. ApoE transiently regulates hippocampus amyloid‐beta deposition to stable learning and memory ability in adult rats exposed in sevoflurane
    Shan Xu et al, 2021, Ibrain CrossRef
  4. Sevoflurane exposure causes neuronal apoptosis and cognitive dysfunction by inducing ER stress via activation of the inositol 1, 4, 5-trisphosphate receptor
    Qi Zhang et al, 2022, Frontiers in Aging Neuroscience CrossRef
  5. Irf6 participates in sevoflurane-induced perioperative neurocognitive disorder via modulating M2, but not M1 polarization of microglia
    Hongzhi Chen et al, 2021, Brain Research Bulletin CrossRef
  6. Behavioral and Molecular Effects of Thapsigargin-Induced Brain ER- Stress: Encompassing Inflammation, MAPK, and Insulin Signaling Pathway
    Sahar Askari et al, 2022, Life CrossRef
  7. CTRP6(C1q/Tumor Necrosis Factor (TNF)-related protein-6) alleviated the sevoflurane induced injury of mice central nervous system by promoting the expression of p-Akt (phosphorylated Akt)
    Zhiwen Liu et al, 2021, Bioengineered CrossRef
  8. Specific antagonist of receptor for advanced glycation end‑products attenuates delirium‑like behaviours induced by sevoflurane anaesthesia with surgery in aged mice partially by improving damage to the blood‑brain barrier
    Ying Deng et al, 2023, Experimental and Therapeutic Medicine CrossRef
  9. Alterations in expression of α1-adrenergic receptors possibly are involved in prevention of age-associated apoptosis in rat hippocampus by treadmill exercise
    Leila Chodari et al, 2023, Journal of Complementary and Integrative Medicine CrossRef
  10. Necroptosis involved in sevoflurane-induced cognitive dysfunction in aged mice by activating NMDA receptors increasing intracellular calcium
    Xiang Liu et al, 2024, NeuroToxicology CrossRef