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1. Loss of consciousness, but not etiology, predicts better working memory performance years after concussion

   https://doi.org/10.18053/jctres.05.2020S4.003  

   Hector Arciniega, Alexandrea Kilgore-Gomez ( January 2020 , Journal of Clinical and Translational Research)

   null (Ed.)

   Background: Patients with uncomplicated cases of concussion are thought to fully recover within several months as symptoms resolve. However, at the group level, undergraduates reporting a history of concussion (mean: 4.14 years post-injury) show lasting deficits in visual working memory performance. To clarify what predicts long-term visual working memory outcomes given heterogeneous performance across group members, we investigated factors surrounding the injury, including gender, number of mild traumatic brain injuries, time since mild traumatic brain injury (mTBI), loss of consciousness (LOC) (yes, no), and mTBI etiology (non-sport, team sport, high impact sport, and individual sport). We also collected low-density resting state electroencephalogram to test whether spectral power was correlated with performance. Aim: The purpose of this study was to identify predictors for poor visual working memory outcomes in current undergraduates with a history of concussion. Methods: Participants provided a brief history of their injury and symptoms. Participants also completed an experimental visual working memory task. Finally, low-density resting-state electroencephalogram was collected. Results: The key observation was that LOC at the time of injury predicted superior visual working memory years later. In contrast, visual working memory performance was not predicted by other factors, including etiology, high impact sports, or electroencephalogram spectral power. Conclusions: Visual working memory deficits are apparent at the group level in current undergraduates with a history of concussion. LOC at the time of concussion predicts less impaired visual working memory performance, whereas no significant links were associated with other factors. One interpretation is that after LOC, patients are more likely to seek medical advice than without LOC. Relevance for patients: Concussion is a head injury associated with future cognitive changes in some people. Concussion should be taken seriously, and medical treatment sought whenever a head injury occurs. 

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2. Designing Ụbụrụ: The Alpha Stage: Executive Function Rehabilitation Application for Mild Traumatic Brain Injury

   Ezenyilimba, Akuadasuo ; Wethe, Jennifer ; Cooke, Nancy J. ; McDaniel, Troy ( June 2022 , ACHI the International Conference on Advances in ComputerHuman Interactions)

   Ụbụrụ is an executive function computerized rehabilitation application specifically designed for mild Traumatic Brain Injury (mTBI) individuals. Ụbụrụ utilizes serious games to train cognitive flexibility, planning, and organization. This paper explores the rationale and components behind the alpha stage of the application’s development, and its first design iteration. Currently, individuals with a history of mTBI have limited rehabilitation options as a result of lack of knowledge in terms of available services, access, time, or financial and insurance constraints. Due to the invisible nature of mTBIs, perception of injury severity is diminished, individuals are not properly equipped with how to proceed forward with rehabilitation, and awareness of injury can be inadvertently compromised. The intention behind the Ụbụrụ application is to be a computerized cognitive rehabilitation alternative and additive when limitations such as time, finances, or insurance exist. 

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3. Type 2 diabetes mellitus accelerates brain aging and cognitive decline: Complementary findings from UK Biobank and meta-analyses

   https://doi.org/10.7554/eLife.73138  

   Antal, Botond ; McMahon, Liam P ; Sultan, Syed Fahad ; Lithen, Andrew ; Wexler, Deborah J ; Dickerson, Bradford ; Ratai, Eva-Maria ; Mujica-Parodi, Lilianne R ( May 2022 , eLife)

   Background: Type 2 diabetes mellitus (T2DM) is known to be associated with neurobiological and cognitive deficits; however, their extent, overlap with aging effects, and the effectiveness of existing treatments in the context of the brain are currently unknown. Methods: We characterized neurocognitive effects independently associated with T2DM and age in a large cohort of human subjects from the UK Biobank with cross-sectional neuroimaging and cognitive data. We then proceeded to evaluate the extent of overlap between the effects related to T2DM and age by applying correlation measures to the separately characterized neurocognitive changes. Our findings were complemented by meta-analyses of published reports with cognitive or neuroimaging measures for T2DM and healthy controls (HCs). We also evaluated in a cohort of T2DM-diagnosed individuals using UK Biobank how disease chronicity and metformin treatment interact with the identified neurocognitive effects. Results: The UK Biobank dataset included cognitive and neuroimaging data (N = 20,314), including 1012 T2DM and 19,302 HCs, aged between 50 and 80 years. Duration of T2DM ranged from 0 to 31 years (mean 8.5 ± 6.1 years); 498 were treated with metformin alone, while 352 were unmedicated. Our meta-analysis evaluated 34 cognitive studies (N = 22,231) and 60 neuroimaging studies: 30 of T2DM (N = 866) and 30 of aging (N = 1088). Compared to age, sex, education, and hypertension-matched HC, T2DM was associated with marked cognitive deficits, particularly in executive functioning and processing speed . Likewise, we found that the diagnosis of T2DM was significantly associated with gray matter atrophy, primarily within the ventral striatum , cerebellum , and putamen , with reorganization of brain activity (decreased in the caudate and premotor cortex and increased in the subgenual area , orbitofrontal cortex, brainstem, and posterior cingulate cortex ). The structural and functional changes associated with T2DM show marked overlap with the effects correlating with age but appear earlier, with disease duration linked to more severe neurodegeneration. Metformin treatment status was not associated with improved neurocognitive outcomes. Conclusions: The neurocognitive impact of T2DM suggests marked acceleration of normal brain aging. T2DM gray matter atrophy occurred approximately 26% ± 14% faster than seen with normal aging; disease duration was associated with increased neurodegeneration. Mechanistically, our results suggest a neurometabolic component to brain aging. Clinically, neuroimaging-based biomarkers may provide a valuable adjunctive measure of T2DM progression and treatment efficacy based on neurological effects. Funding: The research described in this article was funded by the W. M. Keck Foundation (to LRMP), the White House Brain Research Through Advancing Innovative Technologies (BRAIN) Initiative (NSFNCS-FR 1926781 to LRMP), and the Baszucki Brain Research Fund (to LRMP). None of the funding sources played any role in the design of the experiments, data collection, analysis, interpretation of the results, the decision to publish, or any aspect relevant to the study. DJW reports serving on data monitoring committees for Novo Nordisk. None of the authors received funding or in-kind support from pharmaceutical and/or other companies to write this article. 

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4. Reduced White Matter Integrity and Deficits in Neuropsychological Functioning in Adults With Autism Spectrum Disorder

   https://doi.org/10.1002/aur.2271  

   Haigh, Sarah M. ; Keller, Timothy A. ; Minshew, Nancy J. ; Eack, Shaun M. ( February 2020 , Autism Research)

   Autism spectrum disorder (ASD) is currently viewed as a disorder of cortical systems connectivity, with a heavy emphasis being on the structural integrity of white matter tracts. However, the majority of the literature to date has focused on children with ASD. Understanding the integrity of white matter tracts in adults may help reveal the nature of ASD pathology in adulthood and the potential contributors to cognitive impairment. This study examined white matter water diffusion using diffusion tensor imaging in relation to neuropsychological measures of cognition in a sample of 45 adults with ASD compared to 20 age, gender, and full‐scale‐IQ‐matched healthy volunteers. Tract‐based spatial statistics were used to assess differences in diffusion along white matter tracts between groups using permutation testing. The following neuropsychological measures of cognition were assessed: processing speed, attention vigilance, working memory, verbal learning, visual learning, reasoning and problem solving, and social cognition. Results indicated that fractional anisotropy (FA) was significantly reduced in adults with ASD in the anterior thalamic radiation (P= 0.022) and the right cingulum (P= 0.008). All neuropsychological measures were worse in the ASD group, but none of the measures significantly correlated with reduced FA in either tract in the adults with ASD or in the healthy volunteers. Together, this indicates that the tracts that are the most impacted in autism may not be (at least directly) responsible for the behavioral deficits in ASD.Autism Res2020, 13: 702–714. © 2020 International Society for Autism Research, Wiley Periodicals, Inc.

   White matter tracts are the data cables in the brain that efficiently transfer information, and damage to these tracts could be the cause for the abnormal behaviors that are associated with autism. We found that two long‐range tracts (the anterior thalamic radiation and the cingulum) were both impaired in autism but were not directly related to the impairments in behavior. This suggests that the abnormal tracts and behavior are the effects of another underlying mechanism.

    

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5. Dynamin and reverse-mode sodium calcium exchanger blockade confers neuroprotection from diffuse axonal injury

   https://doi.org/10.1038/s41419-019-1908-3  

   Omelchenko, Anton ; Shrirao, Anil B. ; Bhattiprolu, Atul K. ; Zahn, Jeffrey D. ; Schloss, Rene S. ; Dickson, Samantha ; Meaney, David F. ; Boustany, Nada N. ; Yarmush, Martin L. ; Firestein, Bonnie L. ( September 2019 , Cell Death & Disease)

   Mild traumatic brain injury (mTBI) is a frequently overlooked public health concern that is difficult to diagnose and treat. Diffuse axonal injury (DAI) is a common mTBI neuropathology in which axonal shearing and stretching induces breakdown of the cytoskeleton, impaired axonal trafficking, axonal degeneration, and cognitive dysfunction. DAI is becoming recognized as a principal neuropathology of mTBI with supporting evidence from animal model, human pathology, and neuroimaging studies. As mitochondrial dysfunction and calcium overload are critical steps in secondary brain and axonal injury, we investigated changes in protein expression of potential targets following mTBI using an in vivo controlled cortical impact model. We show upregulated expression of sodium calcium exchanger1 (NCX1) in the hippocampus and cortex at distinct time points post-mTBI. Expression of dynamin-related protein1 (Drp1), a GTPase responsible for regulation of mitochondrial fission, also changes differently post-injury in the hippocampus and cortex. Using an in vitro model of DAI previously reported by our group, we tested whether pharmacological inhibition of NCX1 by SN-6 and of dynamin1, dynamin2, and Drp1 by dynasore mitigates secondary damage. Dynasore and SN-6 attenuate stretch injury-induced swelling of axonal varicosities and mitochondrial fragmentation. In addition, we show that dynasore, but not SN-6, protects against H₂O₂-induced damage in an organotypic oxidative stress model. As there is currently no standard treatment to mitigate cell damage induced by mTBI and DAI, this work highlights two potential therapeutic targets for treatment of DAI in multiple models of mTBI and DAI.

    

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