Overview of Traumatic Brain Injury: An Immunological Context

Nizamutdinov, Damir; Shapiro, Lee A.

doi:10.3390/brainsci7010011

Cited by 80 publications

(82 citation statements)

References 193 publications

(251 reference statements)

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“…When exposed to DAMPs, phagocytic microglia are rapidly activated to clear debris (for example, a hematoma), seal defective barriers and produce neurotrophic factors 105–107 . However, microglia are also critical for an extensive and often sustainable (up to years) generation of cytokines (for example, IL-1β and IL-6) and ROS, which in turn recruit neutrophils and blood monocytes-macrophages to the injured area 103,105,108 . Furthermore, complement 109 or lysophosphatidylcholine activates inflammasomes in microglia or astrocytes soon after TBI and during neuro-inflammation 110 .…”

Section: Cerebral and Extracerebral Challenges To The Innate Immune Smentioning

confidence: 99%

Innate immune responses to trauma

2018

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Trauma can affect any individual at any location and at any time over a lifespan. The disruption of macrobarriers and microbarriers induces instant activation of innate immunity. The subsequent complex response, designed to limit further damage and induce healing, also represents a major driver of complications and fatal outcome after injury. This Review aims to provide basic concepts about the posttraumatic response and is focused on the interactive events of innate immunity at frequent sites of injury: the endothelium at large, and sites within the lungs, inside and outside the brain and at the gut barrier.

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Section: Cerebral and Extracerebral Challenges To The Innate Immune Smentioning

confidence: 99%

Innate immune responses to trauma

2018

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“…TBI is defined as a serious public health problem that disrupts the normal function of the brain and can be caused by a bump, blow or jolt to the head, rapid acceleration and deceleration of the calvarium, or a penetrating head injury 37. There are certain experiments have shown that TBI usually led to brain edema, tissue loss, neurocognitive impairments, and dysfunction of the CNS 38.…”

Section: Roles Of H2s In Brain Diseasesmentioning

confidence: 99%

Hydrogen sulfide therapy in brain diseases: from bench to bedside

et al. 2017

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Hydrogen sulfide (H2S) has been recognized and studied for nearly 300 years, but past researches mainly focus on its toxicity effect. During the past two decades, the majority of researches have reported that H2S is a novel endogenous gaseous signal molecule in organisms, and play an important role in various systems and diseases. H2S is mainly produced by three enzymes, including cystathionine β-synthase, cystathionine γ-lyase and 3-mercaptopyruvate sulfurtransferase along with cysteine aminotransferase. H2S had been firstly reported as a neuromodulator in the brain, because of its essential role in the facilitating hippocampal long-term potentiation at physiological concentration. It is subsequently reported that H2S may have relevance to neurologic disorders through antioxidative, anti-inflammatory, anti-apoptotic and additional effects. Recent basic medical studies and preclinical studies on neurologic diseases have demonstrated that the administration of H2S at physiological or pharmacological levels attenuates brain injury. However, the neuroprotective effect of H2S is concentration-dependent, only a comparatively low dose of H2S can provide beneficial effect. Herein, we review the neuroprotevtive role of H2S therapy in brain diseases from its mechanism to clinical application in animal and human subjects, and therefore provide the potential strategies for further clinical treatment.

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“…Previous studies have shown that delayed injury is consistently marked by microglial activation and is mediated by inflammatory processes after TBI. 25,26,27 Behaviorally, adolescent TBI animals had lower locomotor velocity shortly after TBI and were no longer distinguishable from controls by 16 DPI. Both adult and adolescent sham and TBI animals increased center time from 4 DPI to 16 DPI.…”

Section: Discussionmentioning

confidence: 99%

Greater neurodegeneration and behavioral deficits after single closed head traumatic brain injury in adolescent vs adult mice

Guilhaume-Corrêa

Cansler

Shalosky

et al. 2019

Preprint

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Introduction: Traumatic brain injury (TBI) is a major public health concern affecting 2.8 million people per year, of which about 1 million are children under 19 years old. Animal models of TBI have been developed and used in multiple ages of animals, but direct comparisons of adult and adolescent populations are rare. The current studies were undertaken to directly compare outcomes between adult and adolescent mice, using a closed head, single impact model of TBI.Methods: Six-week-old adolescent and 9-week-old adult male mice were subjected to TBI using a closed head weight drop model. Histological measures for neurodegeneration, gliosis, and microglial neuroinflammation, and behavioral tests of locomotion and memory were performed.Results: Adolescent TBI mice have increased mortality (Χ 2 = 20.72, p < 0.001) compared to adults.There is also evidence of hippocampal neurodegeneration in adolescents, but not adults. Presence of hippocampal neurodegeneration correlates with histologic activation of microglia, but not with increased markers of astrogliosis. Adults and adolescents have similar locomotion deficits after TBI that recover by 16 days post-injury. Adolescents have memory deficits as evidenced by impaired novel object recognition performance 3 and 16 days post injury (F1,26 = 5.23, p = 0.031) while adults do not.Conclusions: Adults and adolescents within a close age range (6-9 weeks) respond to TBI differently.Adolescents are more severely affected by mortality, neurodegeneration, and inflammation in the hippocampus compared to adults. Adolescents, but not adults, have worse memory performance after TBI that lasts up to 16 days post injury.

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Overview of Traumatic Brain Injury: An Immunological Context

Cited by 80 publications

References 193 publications

Innate immune responses to trauma

Innate immune responses to trauma

Hydrogen sulfide therapy in brain diseases: from bench to bedside

Greater neurodegeneration and behavioral deficits after single closed head traumatic brain injury in adolescent vs adult mice

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