| Q64093581 | A Tilted Axis: Maladaptive Inflammation and HPA Axis Dysfunction Contribute to Consequences of TBI |
| Q58108505 | A limited capacity for microglial repopulation in the adult brain |
| Q41923414 | A time course of NADPH-oxidase up-regulation and endothelial nitric oxide synthase activation in the hippocampus following neurotrauma |
| Q102075407 | APOE4 genetic polymorphism results in impaired recovery in a repeated mild traumatic brain injury model and treatment with Bryostatin-1 improves outcomes |
| Q28389801 | Acute Traumatic Brain Injury Does Not Exacerbate Amyotrophic Lateral Sclerosis in the SOD1 (G93A) Rat Model(1,2,3) |
| Q38790372 | Acute or Delayed Treatment with Anatabine Improves Spatial Memory and Reduces Pathological Sequelae at Late Time-Points after Repetitive Mild Traumatic Brain Injury |
| Q34223717 | Acute reduction of microglia does not alter axonal injury in a mouse model of repetitive concussive traumatic brain injury |
| Q90281913 | Administration of a 20-Hydroxyeicosatetraenoic Acid Synthesis Inhibitor Improves Outcome in a Rat Model of Pediatric Traumatic Brain Injury |
| Q42714359 | Age increases reactive oxygen species production in macrophages and potentiates oxidative damage after spinal cord injury |
| Q91399305 | Alcohol dependence treating agent, acamprosate, prevents traumatic brain injury-induced neuron death through vesicular zinc depletion |
| Q30389531 | Alcohol exposure after mild focal traumatic brain injury impairs neurological recovery and exacerbates localized neuroinflammation |
| Q29248301 | Alzheimer’s disease and chronic traumatic encephalopathy: distinct but possibly overlapping disease entities |
| Q52331711 | An Inflammation-Centric View of Neurological Disease: Beyond the Neuron. |
| Q27025951 | Animal models of traumatic brain injury |
| Q52606699 | Apolipoprotein E4 impairs spontaneous blood brain barrier repair following traumatic brain injury. |
| Q36909987 | Astrocyte Hypertrophy Contributes to Aberrant Neurogenesis after Traumatic Brain Injury |
| Q91583675 | BDNF Val66Met Genetic Polymorphism Results in Poor Recovery Following Repeated Mild Traumatic Brain Injury in a Mouse Model and Treatment With AAV-BDNF Improves Outcomes |
| Q40147656 | Bidirectional brain-gut interactions and chronic pathological changes after traumatic brain injury in mice |
| Q91705054 | Biological links between traumatic brain injury and Parkinson's disease |
| Q60302115 | Brain Phospholipid Precursors Administered Post-Injury Reduce Tissue Damage and Improve Neurological Outcome in Experimental Traumatic Brain Injury |
| Q93171617 | CLARITY reveals a more protracted temporal course of axon swelling and disconnection than previously described following traumatic brain injury |
| Q90328631 | Cerebrospinal Fluid Biomarkers Are Associated With Glial Fibrillary Acidic Protein and αII-spectrin Breakdown Products in Brain Tissues Following Penetrating Ballistic-Like Brain Injury in Rats |
| Q90092679 | Changes in plasma lipoxin A4, resolvins and CD59 levels after ischemic and traumatic brain injuries in rats |
| Q50052836 | Chronic Alterations in Systemic Immune Function After Traumatic Brain Injury. |
| Q37080010 | Chronic Cognitive Dysfunction after Traumatic Brain Injury Is Improved with a Phosphodiesterase 4B Inhibitor |
| Q36366713 | Chronic Histopathological and Behavioral Outcomes of Experimental Traumatic Brain Injury in Adult Male Animals |
| Q28393205 | Chronic Traumatic Encephalopathy in Athletes Involved with High-impact Sports |
| Q37721865 | Chronic Traumatic Encephalopathy: The Neuropathological Legacy of Traumatic Brain Injury |
| Q26744281 | Chronic impact of traumatic brain injury on outcome and quality of life: a narrative review |
| Q35064981 | Chronic neurodegeneration after traumatic brain injury: Alzheimer disease, chronic traumatic encephalopathy, or persistent neuroinflammation? |
| Q36788625 | Cognitive deficits develop 1month after diffuse brain injury and are exaggerated by microglia-associated reactivity to peripheral immune challenge |
| Q38722542 | Concise Review: Cell Therapies for Stroke and Traumatic Brain Injury: Targeting Microglia |
| Q90156574 | Early or Late Bacterial Lung Infection Increases Mortality After Traumatic Brain Injury in Male Mice and Chronically Impairs Monocyte Innate Immune Function |
| Q46492590 | Early to Long-Term Alterations of CNS Barriers After Traumatic Brain Injury: Considerations for Drug Development. |
| Q91707591 | Editorial: Traumatic Brain Injury: From Bench to Bedside |
| Q48614268 | Encephalopathy and death in infants with abusive head trauma is due to hypoxic-ischemic injury following local brain trauma to vital brainstem centers. |
| Q90597934 | Environmental Signals on Microglial Function during Brain Development, Neuroplasticity, and Disease |
| Q38788728 | Establishing the ferret as a gyrencephalic animal model of traumatic brain injury: Optimization of controlled cortical impact procedures. |
| Q92176629 | Evaluating spatiotemporal microstructural alterations following diffuse traumatic brain injury |
| Q36966520 | Fractalkine Receptor Deficiency Is Associated with Early Protection but Late Worsening of Outcome following Brain Trauma in Mice |
| Q90042297 | Glial responses to implanted electrodes in the brain |
| Q34980223 | Granulocyte-macrophage colony stimulating factor exerts protective and immunomodulatory effects in cortical trauma |
| Q59357751 | HIV-1 TAT-mediated microglial activation: role of mitochondrial dysfunction and defective mitophagy |
| Q24170146 | Head injury at early ages is associated with risk of Parkinson's disease |
| Q38658595 | Head trauma and Parkinson's disease: results from an Italian case-control study |
| Q47983749 | Hyperthermia and Mild Traumatic Brain Injury: Effects on Inflammation and the Cerebral Vasculature |
| Q57472012 | Imaging biomarkers of epileptogenecity after traumatic brain injury - Preclinical frontiers |
| Q92513493 | Incretin Mimetics as Rational Candidates for the Treatment of Traumatic Brain Injury |
| Q57488901 | Inflammatory projections after focal brain injury trigger neuronal network disruption: An F-DPA714 PET study in mice |
| Q28088301 | Inflammatory reaction after traumatic brain injury: therapeutic potential of targeting cell-cell communication by chemokines |
| Q89581609 | Interferon-β Plays a Detrimental Role in Experimental Traumatic Brain Injury by Enhancing Neuroinflammation That Drives Chronic Neurodegeneration |
| Q46091100 | Investigation of Sex Differences in the Microglial Response to Binge Ethanol and Exercise |
| Q64250518 | Iron accentuated reactive oxygen species release by NADPH oxidase in activated microglia contributes to oxidative stress in vitro |
| Q38916628 | Is Immunomodulation a Principal Mechanism Underlying How Cell-Based Therapies Enhance Stroke Recovery? |
| Q36366723 | Long-Term Consequences of Traumatic Brain Injury: Current Status of Potential Mechanisms of Injury and Neurological Outcomes |
| Q45069616 | Loss of NLRX1 Exacerbates Neural Tissue Damage and NF-κB Signaling following Brain Injury. |
| Q99350251 | Meningeal lymphatic dysfunction exacerbates traumatic brain injury pathogenesis |
| Q90564251 | Microglia Receptors in Animal Models of Traumatic Brain Injury |
| Q36399682 | Microglia in the TBI brain: The good, the bad, and the dysregulated. |
| Q34076322 | Microglia of prefrontal white matter in suicide |
| Q30667015 | Microglia processes associate with diffusely injured axons following mild traumatic brain injury in the micro pig. |
| Q47852927 | Microglial Activation Results in Inhibition of TGF-β-Regulated Gene Expression |
| Q33843373 | Microglial Activation in Traumatic Brain Injury |
| Q89865219 | Microglial Depletion with CSF1R Inhibitor During Chronic Phase of Experimental Traumatic Brain Injury Reduces Neurodegeneration and Neurological Deficits |
| Q27026599 | Microglial priming and enhanced reactivity to secondary insult in aging, and traumatic CNS injury, and neurodegenerative disease |
| Q46046188 | Microglial repopulation resolves inflammation and promotes brain recovery after injury. |
| Q37700810 | Microglial-derived microparticles mediate neuroinflammation after traumatic brain injury. |
| Q40408767 | Microglial/Macrophage Polarization Dynamics following Traumatic Brain Injury. |
| Q45074714 | Mild fluid percussion injury induces diffuse axonal damage and reactive synaptic plasticity in the mouse olfactory bulb |
| Q47260577 | Minocycline reduces chronic microglial activation after brain trauma but increases neurodegeneration |
| Q89471745 | Mossy cell hypertrophy and synaptic changes in the hilus following mild diffuse traumatic brain injury in pigs |
| Q45342990 | Mouse cerebral magnetic resonance imaging fails to visualize brain volume changes after experimental subarachnoid hemorrhage |
| Q41141745 | NADPH Oxidase 2 Regulates NLRP3 Inflammasome Activation in the Brain after Traumatic Brain Injury. |
| Q37589114 | NADPH oxidase in brain injury and neurodegenerative disorders |
| Q26827634 | NADPH oxidase- and mitochondria-derived reactive oxygen species in proinflammatory microglial activation: a bipartisan affair? |
| Q52344406 | NADPH oxidases in traumatic brain injury - Promising therapeutic targets? |
| Q37720908 | NOX2 deficiency alters macrophage phenotype through an IL-10/STAT3 dependent mechanism: implications for traumatic brain injury |
| Q39539624 | NOX2 drives M1-like microglial/macrophage activation and neurodegeneration following experimental traumatic brain injury. |
| Q66811946 | Neuroimaging of traumatic brain injury in military personnel: An overview |
| Q48113339 | Neuroimmunology of Traumatic Brain Injury: Time for a Paradigm Shift |
| Q41069446 | Neuroinflammation, myelin and behavior: Temporal patterns following mild traumatic brain injury in mice |
| Q38779873 | Neuroinflammation: the devil is in the details |
| Q36835232 | Neuroprotective Activity of (-)-Epigallocatechin Gallate against Lipopolysaccharide-Mediated Cytotoxicity |
| Q90622550 | Neutral Sphingomyelinase Inhibition Alleviates LPS-Induced Microglia Activation and Neuroinflammation after Experimental Traumatic Brain Injury |
| Q39445567 | Novel mGluR5 positive allosteric modulator improves functional recovery, attenuates neurodegeneration, and alters microglial polarization after experimental traumatic brain injury |
| Q49299699 | Oligodendrocyte death, neuroinflammation, and the effects of minocycline in a rodent model of nonarteritic anterior ischemic optic neuropathy (rNAION). |
| Q58615684 | Oxidative Stress Induces Release of 2'-AMP from Microglia |
| Q28547107 | PARP-1 Inhibition Is Neuroprotective in the R6/2 Mouse Model of Huntington's Disease |
| Q48423902 | Posttraumatic therapeutic hypothermia alters microglial and macrophage polarization toward a beneficial phenotype |
| Q36198332 | Priming the inflammatory pump of the CNS after traumatic brain injury |
| Q36547016 | Progressive inflammation-mediated neurodegeneration after traumatic brain or spinal cord injury |
| Q89851154 | Progressive long-term spatial memory loss following repeat concussive and subconcussive brain injury in mice, associated with dorsal hippocampal neuron loss, microglial phenotype shift, and vascular abnormalities |
| Q42485574 | Pycnogenol protects CA3-CA1 synaptic function in a rat model of traumatic brain injury |
| Q38833405 | Repeated mild traumatic brain injury in female rats increases lipid peroxidation in neurons. |
| Q38922150 | Repeated mild traumatic brain injury: potential mechanisms of damage |
| Q35756303 | Rhamnetin attenuates cognitive deficit and inhibits hippocampal inflammatory response and oxidative stress in rats with traumatic brain injury |
| Q36350494 | S100B inhibition reduces behavioral and pathologic changes in experimental traumatic brain injury. |
| Q59329926 | STING-mediated type-I interferons contribute to the neuroinflammatory process and detrimental effects following traumatic brain injury |
| Q91800191 | Sex Differences in Acute Neuroinflammation after Experimental Traumatic Brain Injury Are Mediated by Infiltrating Myeloid Cells |
| Q47732506 | Sexual dimorphism in the inflammatory response to traumatic brain injury |
| Q47974981 | Single severe traumatic brain injury produces progressive pathology with ongoing contralateral white matter damage one year after injury. |
| Q26769004 | Stress and neuroinflammation: a systematic review of the effects of stress on microglia and the implications for mental illness |
| Q33588562 | Stress injuries and autophagy in mouse hippocampus after chronic cold exposure |
| Q92022095 | Sustained neuronal and microglial alterations are associated with diverse neurobehavioral dysfunction long after experimental brain injury |
| Q89115583 | TSPO expression and brain structure in the psychosis spectrum |
| Q28067060 | The Controlled Cortical Impact Model: Applications, Considerations for Researchers, and Future Directions |
| Q38666023 | The Effect of Traumatic Brain Injury History with Loss of Consciousness on Rate of Cognitive Decline Among Older Adults with Normal Cognition and Alzheimer's Disease Dementia |
| Q58584873 | The Effects of a Combination of Ion Channel Inhibitors in Female Rats Following Repeated Mild Traumatic Brain Injury |
| Q53403638 | The Inflammatory Continuum of Traumatic Brain Injury and Alzheimer's Disease. |
| Q38751303 | The Polarization States of Microglia in TBI: A New Paradigm for Pharmacological Intervention. |
| Q39149587 | The Role of Microglia in the Etiology and Evolution of Chronic Traumatic Encephalopathy. |
| Q38263517 | The contribution of astrocytes and microglia to traumatic brain injury |
| Q30235977 | The far-reaching scope of neuroinflammation after traumatic brain injury |
| Q28397809 | The neuropathology of traumatic brain injury. |
| Q39005369 | The role of physical exercise in cognitive recovery after traumatic brain injury: A systematic review. |
| Q92799419 | Time-Dependent Changes in Microglia Transcriptional Networks Following Traumatic Brain Injury |
| Q58566915 | Transplantation of Embryonic Neural Stem Cells and Differentiated Cells in a Controlled Cortical Impact (CCI) Model of Adult Mouse Somatosensory Cortex |
| Q26753059 | Traumatic Axonal Injury: Mechanisms and Translational Opportunities |
| Q55396351 | Traumatic Brain Injury Leads to Accelerated Atherosclerosis in Apolipoprotein E Deficient Mice. |
| Q48213078 | Traumatic Brain Injury as a Trigger of Neurodegeneration |
| Q46974852 | Traumatic brain injuries. |
| Q28080903 | Traumatic brain injury and NADPH oxidase: a deep relationship |
| Q48014544 | Traumatic brain injury causes long-term behavioral changes related to region-specific increases of cerebral blood flow |
| Q39228433 | Treatment of Severe Adult Traumatic Brain Injury Using Bone Marrow Mononuclear Cells. |
| Q50032496 | Trovafloxacin attenuates neuroinflammation and improves outcome after traumatic brain injury in mice |
| Q37619963 | Tryptanthrin Suppresses the Activation of the LPS-Treated BV2 Microglial Cell Line via Nrf2/HO-1 Antioxidant Signaling |
| Q35984897 | Voluntary Exercise Preconditioning Activates Multiple Antiapoptotic Mechanisms and Improves Neurological Recovery after Experimental Traumatic Brain Injury |
| Q39323255 | White matter damage after traumatic brain injury: A role for damage associated molecular patterns |
| Q92252199 | Xenon improves long-term cognitive function, reduces neuronal loss and chronic neuroinflammation, and improves survival after traumatic brain injury in mice |
| Q52542947 | [Pathophysiology of intracranial injuries]. |