Journal of neurotrauma
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Journal of neurotrauma · Jan 2025
ReviewBehavioral and Cognitive Consequences of Spreading Depolarizations: A Translational Scoping Review.
Spreading depolarizations (SDs) are self-propagating waves of mass depolarization that cause silencing of brain activity and have the potential to impact brain function and behavior. In the eight decades following their initial discovery in 1944, numerous publications have studied the cellular and molecular underpinning of SDs, but fewer have focused on the impact of SDs on behavior and cognition. ⋯ This study summarizes the known behavioral and cognitive consequences of SDs based on historical studies on awake animals, recent experimental paradigms, and modern clinical examples. This scoping review showcases our current understanding of the impact of SDs on cognition and behavior and highlights the need for continued research on the consequences of SDs.
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Journal of neurotrauma · Jan 2025
Exploring synaptic pathways in traumatic brain injury: a cross-phenotype genomics approach.
Traumatic brain injury (TBI), a global leading cause of mortality and disability, lacks effective treatments to enhance recovery. Synaptic remodeling has been postulated as one mechanism that influences outcomes after TBI. We sought to investigate whether common mechanisms affecting synapse maintenance are shared between TBI and other neuropsychiatric conditions using pathway enrichment tools and genome-wide genotype data, with the goal of highlighting novel treatment targets. ⋯ Three of those pathways were shared between TBI and SCZ, suggesting possible pathophysiologic commonalities. In this study, we utilize comparative and integrative genomic approaches across brain conditions that share synaptic mechanisms to explore the pathophysiology of TBI outcomes. Our results implicate associations between TBI outcome and synaptic pathways as well as pathobiological overlap with other neuropsychiatric diseases.
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Journal of neurotrauma · Jan 2025
Influence of pre-existing conditions and concussion history on post-concussion symptom severity and recovery time in collegiate athletes.
Mental health conditions and concussion history reported by a collegiate athlete may contribute to prolonged recovery and symptom severity after concussion. This work examined the potential associations among concussion history, preexisting conditions, and sex relative to initial symptom severity and recovery duration following sport-related concussion (SRC) in a cohort of Division 1 National Collegiate Athletic Association athletes. This prospective cohort study analyzed symptom severity, recovery, and return-to-play (RTP) times reported post-SRC using data collected as part of the Pac-12 Concussion Assessment, Research and Education Affiliated Program and Health Analytics Program. ⋯ Weekly recovery and RTP probabilities substantially differed between athletes who did or did not have learning disorders (LDs; hazard ratio [HR]Recovery = 0.32, HRRTP = 0.22, d = 1.96-2.30) and ADHD (HRRecovery = 3.38, HRRTP = 2.74, d = 1.71-4.14). Although no association existed between concussion history and acute symptom severity, collegiate athletes with a history of concussion had higher probabilities of reporting depression, mood disorders, anxiety, and ADHD. Having ADHD or LDs likely strongly affects time to recovery and RTP for collegiate athletes.
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Journal of neurotrauma · Jan 2025
Measuring Self-Efficacy for Concussion Recovery: Psychometric Characteristics of the Progressive Activities of Controlled Exertion-Self-Efficacy Scale.
Control over symptoms postconcussion is central to an active self-directed recovery process. Therefore, assessing a patient's confidence in controlling their symptoms and facilitating their concussion recovery is an important component of treatment. Previously, no measures existed to assess symptom-specific self-efficacy (SE) in pediatric concussion recovery. ⋯ The PACE-SE scores indicated excellent internal consistency reliability with reasonable test-retest reliability over time. Evidence for the association between recovery status and greater confidence and control over recovery-related activities as measured by the PACE-SE was supported by: (1) an inverse association with symptom status reflecting lower confidence for managing recovery with higher symptom load, (2) greater reported problems with school performance associated with lower SE, (3) positive change in SE ratings across two clinic visits associated with symptom improvement, and (4) a significant difference in SE ratings evident between recovered and nonrecovered patients. The psychometric evidence supporting the PACE-SE scale provides the clinician with a measure to understand the child/adolescent patient's self-confidence in facilitating their concussion recovery.
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Journal of neurotrauma · Jan 2025
Cell-Specific Gene Expressions Underlie Selective White Matter Loss Vulnerability in Mild Traumatic Brain Injury.
Traumatic brain injury (TBI), a risk factor for later-life dementia, leads to salient brain atrophy, particularly in the white matter. It is not clear how white matter atrophy progresses or why some brain regions are damaged while others are spared. We hypothesized that spatial variations of cell-specific gene expression contributed to the selective white matter loss vulnerability following mild TBI (mTBI). ⋯ Crucially, the gene expression marking endothelial cells and S1 pyramidal neurons were associated with increased brain atrophy, whereas the gene expression marking microglia and CA1 pyramidal neurons were associated with decreased brain atrophy in mTBI patients at 3 months post-injury. Microglia and endothelial cells can explain 23.6% of regional variations in the white matter atrophy. These findings suggested that modulating cellular activation, especially by promoting microglial activation at 3 months post-injury, might be a promising approach to prevent white matter atrophy, enhance cognitive outcomes, and reduce the risk of later-life dementia.