Abess AT, Deiner SG, Briggs A, Whitlock EL, Charette KE, Chow VW, Shaefi S, Martinez-Camblor P, O’Malley AJ, Boone MD (2023) Association of neurocognitive disorders with morbidity and mortality in older adults undergoing major surgery in the USA: a retrospective, population-based, cohort study [J]. Lancet Healthy Longev 4(11):e608–e617
PubMed PubMed Central Google Scholar
Alam A, Hana Z, Jin Z, Suen KC, Ma D (2018) Surgery, neuroinflammation and cognitive impairment [J]. EBioMedicine 37:547–556
PubMed PubMed Central Google Scholar
Antonoudiou P, Tan YL, Kontou G, Upton AL, Mann EO (2020) Parvalbumin and Somatostatin Interneurons Contribute to the Generation of Hippocampal Gamma Oscillations [J]. J Neurosci 40(40):7668–7687
CAS PubMed PubMed Central Google Scholar
Badimon A, Strasburger HJ, Ayata P, Chen X, Nair A, Ikegami A, Hwang P, Chan AT, Graves SM, Uweru JO, Ledderose C, Kutlu MG, Wheeler MA, Kahan A, Ishikawa M, Wang YC, Loh YE, Jiang JX, Surmeier DJ, Robson SC, Junger WG, Sebra R, Calipari ES, Kenny PJ, Eyo UB, Colonna M, Quintana FJ, Wake H, Gradinaru V, Schaefer A (2020) Negative feedback control of neuronal activity by microglia [J]. Nature 586(7829):417–423
CAS PubMed PubMed Central Google Scholar
Bolneo E., Chau P. Y. S., Noakes P. G., and Bellingham M. C. (2022) Investigating the Role of GABA in Neural Development and Disease Using Mice Lacking GAD67 or VGAT Genes [J]. Int J Mol Sci, 23(14).
Buzsáki G, Wang XJ (2012) Mechanisms of gamma oscillations [J]. Annu Rev Neurosci 35:203–225
PubMed PubMed Central Google Scholar
Chaaya N, Battle AR, Johnson LR (2018) An update on contextual fear memory mechanisms: Transition between Amygdala and Hippocampus [J]. Neurosci Biobehav Rev 92:43–54
Chattopadhyaya B, Di Cristo G, Wu CZ, Knott G, Kuhlman S, Fu Y, Palmiter RD, Huang ZJ (2007) GAD67-mediated GABA synthesis and signaling regulate inhibitory synaptic innervation in the visual cortex [J]. Neuron 54(6):889–903
CAS PubMed PubMed Central Google Scholar
Cheng C, Wan H, Cong P, Huang X, Wu T, He M, Zhang Q, Xiong L, Tian L (2022) Targeting neuroinflammation as a preventive and therapeutic approach for perioperative neurocognitive disorders [J]. J Neuroinflammation 19(1):297
PubMed PubMed Central Google Scholar
Colgin LL, Moser EI (2010) Gamma oscillations in the hippocampus [J]. Physiology (Bethesda) 25(5):319–329
Colonna M, Butovsky O (2017) Microglia Function in the Central Nervous System During Health and Neurodegeneration [J]. Annu Rev Immunol 35:441–468
CAS PubMed PubMed Central Google Scholar
Evered L, Scott DA, Silbert B, Maruff P (2011) Postoperative cognitive dysfunction is independent of type of surgery and anesthetic [J]. Anesth Analg 112(5):1179–1185
Evered L, Silbert B, Knopman DS, Scott DA, DeKosky ST, Rasmussen LS, Oh ES, Crosby G, Berger M, Eckenhoff RG (2018) Recommendations for the nomenclature of cognitive change associated with anaesthesia and surgery-2018 [J]. Br J Anaesth 121(5):1005–1012
CAS PubMed PubMed Central Google Scholar
Gao YZ, Liu K, Wu XM, Shi CN, He QL, Wu HP, Yang JJ, Yao H, Ji MH (2025) Oxidative Stress-mediated Loss of Hippocampal Parvalbumin Interneurons Contributes to Memory Precision Decline After Acute Sleep Deprivation [J]. Mol Neurobiol 62(5):5377–5394
Geisler C, Brunel N, Wang XJ (2005) Contributions of intrinsic membrane dynamics to fast network oscillations with irregular neuronal discharges [J]. J Neurophysiol 94(6):4344–4361
Ginhoux F, Lim S, Hoeffel G, Low D, Huber T (2013) Origin and differentiation of microglia [J]. Front Cell Neurosci 7:45
PubMed PubMed Central Google Scholar
Giusy P, Efthalia P, Julen G, Celia A-R, Patricia R-R, Guillermo V-C, Simona L, Maria L-L, Francesca E, Klas B, Silvia M, Per N, Adamantia F, André F, Enrique A-G (2024) Dynamic microglia alterations associate with hippocampal network impairments: A turning point in amyloid pathology progression [J]. Brain Behav Immun 119:286–300
Goshi N, Morgan RK, Lein PJ, Seker E (2020) A primary neural cell culture model to study neuron, astrocyte, and microglia interactions in neuroinflammation [J]. J Neuroinflammation 17(1):155
CAS PubMed PubMed Central Google Scholar
Griffiths BJ, Jensen O (2023) Gamma oscillations and episodic memory [J]. Trends Neurosci 46(10):832–846
Heneka MT, Carson MJ, El Khoury J, Landreth GE, Brosseron F, Feinstein DL, Jacobs AH, Wyss-Coray T, Vitorica J, Ransohoff RM, Herrup K, Frautschy SA, Finsen B, Brown GC, Verkhratsky A, Yamanaka K, Koistinaho J, Latz E, Halle A, Petzold GC, Town T, Morgan D, Shinohara ML, Perry VH, Holmes C, Bazan NG, Brooks DJ, Hunot S, Joseph B, Deigendesch N, Garaschuk O, Boddeke E, Dinarello CA, Breitner JC, Cole GM, Golenbock DT, Kummer MP (2015) Neuroinflammation in Alzheimer’s disease [J]. Lancet Neurol 14(4):388–405
CAS PubMed PubMed Central Google Scholar
Hernández-Mercado K, Zepeda A (2021) Morris Water Maze and Contextual Fear Conditioning Tasks to Evaluate Cognitive Functions Associated With Adult Hippocampal Neurogenesis [J]. Front Neurosci 15:782947
Hijazi S, Heistek TS, Scheltens P, Neumann U, Shimshek DR, Mansvelder HD, Smit AB, van Kesteren RE (2020) Early restoration of parvalbumin interneuron activity prevents memory loss and network hyperexcitability in a mouse model of Alzheimer’s disease [J]. Mol Psychiatry 25(12):3380–3398
Inta D, Lang UE, Borgwardt S, Meyer-Lindenberg A, Gass P (2017) Microglia Activation and Schizophrenia: Lessons From the Effects of Minocycline on Postnatal Neurogenesis, Neuronal Survival and Synaptic Pruning [J]. Schizophr Bull 43(3):493–496
Jha MK, Jo M, Kim JH, Suk K (2019) Microglia-Astrocyte Crosstalk: An Intimate Molecular Conversation [J]. Neuroscientist 25(3):227–240
Ji MH, He X, Shen JC, Yang JJ (2021) Aging-Related Neural Disruption Might Predispose to Postoperative Cognitive Impairment Following Surgical Trauma [J]. J Alzheimers Dis 81(4):1685–1699
Jia X, Gao Z, Hu H (2021) Microglia in depression: current perspectives [J]. Sci China Life Sci 64(6):911–925
Jin WJ, Feng SW, Feng Z, Lu SM, Qi T, Qian YN (2014) Minocycline improves postoperative cognitive impairment in aged mice by inhibiting astrocytic activation [J]. NeuroReport 25(1):1–6
Jin Z, Hu J, Ma D (2020) Postoperative delirium: perioperative assessment, risk reduction, and management [J]. Br J Anaesth 125(4):492–504
Kettenmann H, Kirchhoff F, Verkhratsky A (2013) Microglia: new roles for the synaptic stripper [J]. Neuron 77(1):10–18
Kraeuter AK, Guest PC, Sarnyai Z (2019) The Open Field Test for Measuring Locomotor Activity and Anxiety-Like Behavior [J]. Methods Mol Biol 1916:99–103
Kwon HS, Koh SH (2020) Neuroinflammation in neurodegenerative disorders: the roles of microglia and astrocytes [J]. Transl Neurodegener 9(1):42
PubMed PubMed Central Google Scholar
Lazarus MS, Krishnan K, Huang ZJ (2015) GAD67 deficiency in parvalbumin interneurons produces deficits in inhibitory transmission and network disinhibition in mouse prefrontal cortex [J]. Cereb Cortex 25(5):1290–1296
Lee Colgin Laura (2016) Rhythms of the hippocampal network [J]. Nat Rev Neurosci 17(4):239–249
Lee SE, Lee Y, Lee GH (2019) The regulation of glutamic acid decarboxylases in GABA neurotransmission in the brain [J]. Arch Pharm Res 42(12):1031–1039
Leung LS (1982) Nonlinear feedback model of neuronal populations in hippocampal CAl region [J]. J Neurophysiol 47(5):845–868
Lewis DA, Curley AA, Glausier JR, Volk DW (2012) Cortical parvalbumin interneurons and cognitive dysfunction in schizophrenia [J]. Trends Neurosci 35(1):57–67
Li S, Liu H, Qian Y, Jiang L, Liu S, Liu Y, Liu C, Gu X (2023) IL-33/ST2 axis promotes remodeling of the extracellular matrix and drives protective microglial responses in the mouse model of perioperative neurocognitive disorders [J]. Int Immunopharmacol 114:109479
Li X, Shan J, Liu X, Huang Z, Xu G, Ren L (2024) Microglial repopulation induced by PLX3397 protects against ischemic brain injury by suppressing neuroinflammation in aged mice [J]. Int Immunopharmacol 138:112473
Liu W, Jia M, Zhang K, Chen J, Zhu X, Li R, Xu Z, Zang Y, Wang Y, Pan J, Ma D, Yang J, Wang D (2024) Increased A1 astrocyte activation-driven hippocampal neural network abnormality mediates delirium-like behavior in aged mice undergoing cardiac surgery [J]. Aging Cell 23(3):e14074
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