Global ETD Search

1	Creating a Standardized Program To Resistance Train The Muscles Of The Head and Neck Cornwell, Ralph Eddie, Jr. 15 November 2013 (has links) Concussions have reached epidemic levels. There is no cure for concussions. Measures taken to reduce concussions have not been effective. The majority of research is focused on concussion causation and concussion management after the fact. The research continues but the number of concussions in athletics increases each year. No methodical approach to producing a specific protocol to strengthen the head and neck muscles exists and no systematic study of increase in neck musculature attributed to such a protocol is documented. Thus, this study will produce a standardized methodology for the reduction of concussive and subconcussive forces, laying the foundation for further research in this area. The research participants were healthy male and female college students, age range 18-24. There were 30 participants. Of the 30 subjects used for this study, 18 participants were randomly assigned to the experimental group and 12 participants in the control group. The participants followed a protocol consisting of 13 movements designed to sequentially train the musculature of the head, neck and upper back. The duration of the study was 8 weeks. The strength increases were significant in the active participant group. The hypertrophy of the head and neck muscles was equally as significant and even more impressive in the male group. The females exhibited minimal muscle hypertrophy. Every active participant experienced strength increases during the eight week study; likewise each active male participant exhibited neck circumference increases. The control group experienced negligible strength or hypertrophy increases. / Ph. D. concussion subconcussive athlete protocol
2	Is it Worth the Hit? Examining the Cognitive Effects of Subconcussive Impacts in Sport Using Event-related Potentials Ewers, Nathalee P. January 2020 (has links) Concussion is a life-altering injury that can affect people of all ages. Event-related potentials (ERPs) extracted from electroencephalography (EEG) have proven sensitive to concussion-induced cognitive deficits. The MMN, P3a, P3b, and N2b are some ERP components of interest, assessing automatic attention, attentional resource allocation, working memory, and inhibitory executive function, respectively. These ERPs can assess some common symptoms associated with concussion at a level that cannot be attained using self-report. A reduced amplitude and potentially delayed latency of the P3a and P3b is a well-replicated result in concussion research. Furthermore, recent research suggests that an alteration in amplitude of earlier peaks such as the N2b and MMN might represent an irreversible change in cognitive processing that tends to occur in the chronic stages of concussion. Many of these studies have focused on athletes, however little research has evaluated the cognitive effects of sustaining numerous blows to the head that do not result in a clinical diagnosis of concussion, as is the case for many athletes in contact sports. These blows are often referred to as subconcussive impacts. The present study examined the cognitive and neurophysiological effects of subconcussive impacts on collegiate contact-sport athletes and compared them to noncontact athletes. The athletes completed questionnaires to evaluate their health and athletic history, as well as estimates of exposure to subconcussive impacts such as position and playing time, prior to participating in three paradigms meant to assess various cognitive processes during an EEG recording. Across two experiments we demonstrated that subconcussive impacts within a season of play can result in alterations in neurophysiological markers of cognitive health. Our findings also reveal that continued involvement in contact sports can have serious implications in one’s automatic attention, resource allocation, and working memory as demonstrated by reduced ERP amplitudes in contact as compared to non-contact athletes. / Thesis / Master of Science (MSc) / A concussion is a devastating injury that can greatly affect how an individual functions in their day-to-day life. Concussions are often discussed in the context of contact sports because of these athletes’ exposure to repeated head impacts. That said, another cause for concern is the effects of head impacts that do not result in a concussion per se – these are known as subconcussive impacts. A brain imaging technique known as electroencephalography (EEG) involves recording brain activity from sensors on the head. Conducting this recording while individuals perform tasks known to evaluate brain function offers an opportunity to assess symptoms rather than relying on a patient’s own, subjective report of their experiences. The present study investigated the use of EEG in evaluating the effects of subconcussive impacts in collegiate athletes and found that repeated head impacts can reduce cognitive health, even if they do not result in a diagnosis of concussion. Concussion ERP Subconcussive Cognitive function
3	Calling For Change: A Look into Concussions and Subconcussive Hits in Football Caruso, Anthony John January 2016 (has links) Thesis advisor: Stephanie Greene / This paper addresses the recent concerns about concussions in the sport of football and elaborates on the medical findings, litigation, and ethical questions that have surrounded the issue. The goal is to present a compelling case for change in how concussions are viewed and handled in the sport. By using concrete examples to explain the lasting effects concussions have had on players after their careers have ended, I hope to show the need for change. I will explore the most recent developments of chronic traumatic encephalopathy in order to show its harmful reach and will touch upon litigation that has been filed by players who experienced post career problems. In addition, through the insight of current college players as well as referencing my own experience as a Division I College Football player, I wish to establish an emotional connection in the paper and unveil the roots of the problem – the toxic nature of the football culture. I am optimistic that this inquiry will help cultivate a culture change through a variety of approaches. First, I indicate the need for a transformation of the football culture. Second, I suggest a formal, mandatory education to inform players at all levels about concussions, subconcussive hits, and the potential diseases that can stem from. Third, I propose new penalties for players, coaches, support staff, and all involved in player safety in an attempt to further prevent head injuries. This thesis attacks the issue of concussions in football from all angles. It calls for the football community to accept the severity of concussions, educate on concussions, and prevent repeated concussions in order to prompt action. / Thesis (BS) — Boston College, 2016. / Submitted to: Boston College. Carroll School of Management. / Discipline: Departmental Honors. / Discipline: Other. Concussions Football Subconcussive Culture chronic traumatic encephalopathy (CTE)
4	The effect of repetitive head impact exposure on white matter lesion volume Nowak, Christina Marie 03 December 2021 (has links) Contact and collision sports (CCS) expose athletes to countless repetitive head impacts (RHI) across a single season, potentially leading to increased risk of long-term difficulties in cognition and the development of neurodegenerative disease. There is mixed literature on whether RHI from CCS result in changes to white matter and long-term neurobehavioral outcomes, therefore this research project seeks to provide supporting evidence by comparing the total volume of fluid-attenuated inversion recovery (FLAIR) white matter lesions in individuals with a history of RHI from CCS to those without a history of RHI from the Boston University Alzheimer’s Disease Research Center (BU ADRC). The RHI participants were matched to a group of non-RHI participants based on age (+/- 5 years). Effects of RHI on white matter hyperintensities (WMHs) are evaluated, while considering hippocampal volume across RHI and non-RHI groups. When controlling for age, sex, education, and total hippocampal volume, those with a history of football were found to have a significantly greater WMH volume (p=.02) compared to those without a history of football play. Compared to the non-RHI group, the RHI group including all athletes (n=42) had a greater WMH volume, although it did not reach a level of significance (p=.91). This investigation provided preliminary evidence for a link between high RHI exposure and WMHs in football players, and a non-significant relationship between RHI and increased WMHs in those with a history of CCS compared to individuals in the non-RHI group. Future research should expand upon this investigation, by examining RHI exposure and WMH consequences in a diverse assortment of sports, follow athletes longitudinally for repeated in vivo MRIs and post-mortem neuropathological confirmation, and include more female athletes. Neurosciences Chronic traumatic encephalopathy Cognitive function Repetitive head impacts Subconcussive White matter hyperintensities White matter lesions
5	Later-life structural and functional consequences of youth exposure to repeated head impacts Stamm, Julie Marie 08 April 2016 (has links) Youth football players ages 8-12 may incur hundreds of repeated head impacts (RHI) each season. Evidence suggests concussive brain injury during childhood may disrupt normal developmental processes resulting in long-term impairments. However, little research has investigated the long-term effects of incurring RHI during critical periods of neurodevelopment. Rapid myelination and cerebral blood flow rates, peaks in regional cortical thickness and volumes of specific structures, refinement of regional connectivity, and other neurodevelopmental changes occurring in the brain from ages 10-12 could create a window of vulnerability to RHI. The objective of this research was to determine the relationship between exposure to RHI prior to age 12, during a critical period of neurodevelopment, and later-life brain structure and function. Former National Football League (NFL) players ages 40-65 were divided into two groups based on their age of first exposure (AFE) to RHI through tackle football: AFE <12 and AFE ≥12. In the first study, we observed significantly lower scores on objective tests of executive functioning, memory, and estimated verbal IQ in those who began playing football prior to age 12 compared to those who began playing at age 12 or older. Next, we used diffusion tensor imaging (DTI) to examine the structural integrity of the corpus callosum (CC) and observed that the AFE <12 group had significantly lower fractional anisotropy (FA) as well as a greater decline in FA with age in anterior CC regions than the AFE ≥12 group. Lastly, we used advanced DTI tractography techniques to examine seven CC regions. Significant differences between AFE groups in associations between CC diffusion measures and cognition, mood, and behavior were found. The results of this research suggest that incurring RHI through tackle football during a critical neurodevelopmental period prior to age 12 may result in later-life structural and functional consequences, including cognitive, mood, and behavioral impairments; alterations in white matter structure; and greater vulnerability of white matter to the normal aging process. If replicated with longitudinal designs, larger samples, and athletes whose highest level of play was youth, high school, or college, these findings may have implications for safety recommendations for youth sports. Neurosciences Concussion Chronic traumatic encephalopathy Diffusion tensor imaging Subconcussive brain injury Traumatic brain injury Youth football
6	Clinical diagnosis and risk factors for chronic traumatic encephalopathy Montenigro, Philip Homes 03 November 2016 (has links) Chronic traumatic encephalopathy (CTE) is a neurodegenerative disease characterized by a pathognomonic distribution of hyperphosphorylated tau accumulations in neurons, astrocytes, and cell processes, situated around vessels at the depths of cortical sulci. Case reports of CTE pathology exhibit a common exposure to repetitive head impacts (RHI), suggesting that RHI are a necessary factor in the disease’s etiology. Currently, it is only possible to definitively diagnose CTE after death using histopathological techniques and consensus-based neuropathological diagnostic criteria recently established by the National Institute of Health and National Institute of Neurological Disorders and Stroke. Though considerable progress has been made in characterizing the neuropathology of CTE, less is known about the clinical aspects of the disease. Specifically, additional research is needed to identify disease-specific clinical manifestations, clinicopathological correlations, and a means of diagnosis during life, all of which are critical to developing future epidemiological studies, preventative measures, and treatment trials. Moreover, it is not yet known which specific aspects of RHI exposure (type, frequency, duration) are causally linked to developing clinically meaningful neurological impairments or CTE neuropathology, nor have studies identified risk-modifying factors, such as genotype (e.g. APOE). The objective of this dissertation’s published works was to systematically address these gaps in knowledge. First, to define a common clinical presentation of CTE, we conducted a retrospective analysis of medical records and semi-structured next-of-kin reports of 36 former athletes with autopsy-confirmed CTE without comorbid neurodegenerative disease. We then published clinical diagnostic criteria for CTE based on a systematic review of clinical features exhibited in 202 former athlete cases and a pooled analysis of 83 neuropathologically confirmed CTE cases. In subsequent analyses, we operationalized clinical criteria to investigate specific clinicopathological associations between tau, amyloid beta, age, APOE genotype, and clinical outcomes and utilized the clinical criteria to explore potential risk-factors related to RHI from boxing and football. Lastly, we developed a metric to quantify cumulative RHI exposure in retired, living, football players. Using this metric, our study was the first to indicate a causal relationship between cumulative RHI exposure and risk of later life cognitive, mood, and behavioral impairment. These studies are preliminary, and our results require replication and validation in larger, longitudinal prospective studies. Neurosciences Chronic traumatic encephalopathy Clinical diagnostic criteria Dementia pugilistica Risk factors Subconcussive
7	Effects of Subconcussive Head Injury on Anxiety Erb, Paige Madeline January 2015 (has links) No description available. Neurology Psychology
8	Les effets de la règle de la mise en échec sur les fonctions exécutives et l’état psychoaffectif de jeunes hockeyeurs au cours d’une saison Lortie, Jean-Christophe 08 1900 (has links) Les athlètes issus des sports de contact sont initiés à différents impacts à un jeune âge. Alors que les commotions cérébrales semblent représenter un fléau pouvant affecter les fonctions cognitives à long terme, le rôle des impacts sous-commotions dans la possible neurodégénérescence du cerveau est négligé. Ces impacts sous-commotions sont répertoriés à une vélocité moindre et ne déclencheraient pas la cascade métabolique associée aux signes et symptômes d’une commotion cérébrale. Les impacts sous-commotions sont caractéristiques des sports comme le hockey, le football américain ou le soccer et ils se produisent à une plus grande fréquence que les commotions cérébrales. Ainsi, le cerveau absorbe ces impacts à profusion au cours d’une saison, voire d’une carrière. Au hockey, l’initiation à ces impacts se produit à l’adolescence avec la mise en échec. Les fonctions exécutives, responsables des tâches de planification, d’inhibition et de mémoire de travail, finissent de se développer vers la fin de l’adolescence. De plus, ces fonctions semblent être altérées à long terme à la suite d’une commotion cérébrale. À cet égard, l’objectif du projet était d’explorer les effets des impacts sous-commotions sur les fonctions exécutives ainsi que sur l’état psychoaffectif chez des hockeyeurs adolescents pratiquant différents types de mise en échec. Trente-huit participants âgés de 12 et 17 ans ont été recrutés. Ces participants ont été séparés selon le type de mise en échec pratiqué durant la saison, soit le contact physique (CP), la mise en échec progressive (MEP) ou la mise en échec complète (MEC). Leurs fonctions exécutives ont été évaluées à l’aide d’un paradigme forme-couleur de la tâche d’alternance. L’état psychoaffectif a été évalué à partir de questionnaires autoadministrés. Puis, le protocole s’est déroulé au début et à la fin de la saison de hockey. Une ANCOVA 3 × 2 × 2 n’a révélé aucune interaction, ni d’effet, entre le type de mise en échec pratiqué (CP; MEP; MEC), le fait d’avoir un historique de commotions cérébrales (HCC; sans HCC) et le temps durant la saison (Pré; Post) sur les résultats à la tâche d’alternance et les scores aux questionnaires psychoaffectifs. Ces résultats suggèrent que le type de mise en échec pratiqué, au cours d’une saison, ne serait pas suffisant pour affecter les fonctions exécutives et l’aspect psychoaffectif des adolescents. / Athletes from contact sports are introduced to repetitive subconcussive impacts at a young age. Although concussions represent a major concern in public health as they can alter cognitive functions, little is known about subconcussive impacts and the role they might have in the hypothetical neurodegenerescence of the brain. Subconcussive impacts are registered at a smaller velocity than concussive impacts and therefore are not associated with concussion-related sign or symptoms. However, these impacts occur at a higher frequency as they are part of contact sports like hockey, American football and soccer. The brain receives multiple subconcussive impacts during a season or an entire career. Adolescent hockey players are introduced to body checking at the age of 13-14 years old and brain functions like executive functions are not completely developed until the end of adolescence. Also, executive functions are responsible for task planning, inhibition and working memory. Moreover, these functions seem to be afflicted in the long term after one or multiple concussions. The purpose of this project was to explore the effects of subconcussive impacts on executive functions and the psycho-affective state of adolescent hockey players competing with different types of body checking rules. Thirty-eight participants were recruited from the age of 12 to 17 years. They were grouped according to the type of body checking rules they played with during the season, which were physical contact (PC), restrictive body checking (RBC) and full body checking (FBC). Executive functions were assessed using a colour-shape paradigm of the switch task. Psycho-affective state was assessed with self-reported questionnaires. Participants completed this protocol at the beginning and the end of their hockey season. A 3 × 2 × 2 ANCOVA did not reveal any interaction, nor main effect of the type of body checking (PC; RBC; FBC), history of concussion (HOC; no HOC) and time of the season (Pre; Post) on the results of the switch task and the self-reported questionnaires. Therefore, this suggests that the rule of body checking is not sufficient to cause any alteration of executive functions or any change in the psycho-affective state of adolescent hockey players. Impacts répétés Adolescence Commotion cérébrale Fonctions exécutives Tâche d'alternance Subconcussive impacts Adolescence Concussion Executive functions Switch task
9	Behavioral and histological inflammatory analysis of a single, mild traumatic brain injury and repeated subconcussive brain injury using a rodent model. Clay, Anna Marie 09 August 2022 (has links) (PDF) Subconcussive (SC) impacts have become a growing concern within the neuroscience community regarding the immediate and long-lasting effects of sports-related injuries. While a single low-level impact, i.e., a subconcussion, may not cause cerebral perturbations, it has been increasingly recognized that repeated SC exposure can induce deleterious effects. Therefore, determining the lower limits of systematic perturbation resulting from multiple SC impacts is of critical importance in expanding our understanding of cerebral vulnerability and recovery. Currently, there is a lack of correlation between a mild traumatic brain injury (mTBI) and repeated SC impacts with respect to injury biomechanics. Moreover, the cumulative threshold for repetitive low-level impacts is currently undefined. Thus, this research was designed to determine the pathophysiological differences between a single impact of an mTBI and repeated SC impacts with a subdivided cumulative kinetic energy of the single mTBI impact. In order to address this gap in knowledge, the present investigation employed a surgery-free, closed-head, weight drop injury device capable of producing repeatable, head impacts within a rat model. General locomotion and anxiety-like behavior were assessed using an Open Field Test and motor coordination dysfunction was measured using the rotarod assay. Neuroinflammation was measured using immunohistochemical assessment of astrogliosis (GFAP) and microgliosis (Iba-1) within the hippocampus. Additionally, immunohistochemical assessment of neuronal loss (NeuN) was measured within the hippocampus. To investigate the tolerance and the persistence of cerebral vulnerability following a single mTBI and repeated subconcussive impacts, measurement outcomes were assessed over two-time points (3- and 7-days) post final impact. Although injury groups were not statistically different from their associated sham groups with respect to behavioral outcomes; on average, RSC injury rats displayed a significant increase in anxious-like behavior after 7-days of recovery compared to the single mTBI group. From an inflammatory perspective, both mTBI and RSC injury groups led to extensive microgliosis in the gray matter following 3-days post-impact. Overall, this work’s findings do not provide evidence in support of the notion that repeated subconcussive impacts do result in behavioral disturbances and neuroinflammation, that do not manifest following a single mTBI of the same energy input. Behavioral Outcome Histological Inflammatory Analysis Mild Traumatic Brain Injury Repeat Subconcussive Injury Rodent Model Weight Drop Injury Behavioral Neurobiology
10	Developing Population-Specific Brain Atlases and Monitoring Repetitive Head Impacts for Early-to-Middle Adolescent Collision-Sport Athletes Yukai Zou (6237179) 31 July 2020 (has links) <div>Adolescent collision-sport athletes may be exposed to repetitive head impacts over years of practices and competitions without immediately observable symptoms. Despite the growing concerns, these athletes often continue play while at risk. Concrete objective measurements are desired to inform prompt and effective preventative strategies for this vulnerable population. However, adolescent brains are rapidly developing and the accrual of brain injury is often subtle. Prospective screening with sensitive biomarkers is challenging and requires advanced technologies, rigorous data processing, and the interdisciplinary expertise of engineering, neurobiology, and cognitive sciences.</div><div><br></div><div>To address the challenge, we first developed population-specific brain atlases to facilitate reproducible and meaningful statistical analyses. The atlases better characterized the neuroanatomy of early-to-middle adolescent (ages 13-19) collision-sport athletes, reduced deformation introduced during spatial normalization, and exhibited higher sensitivity in image analysis compared to standardized adult or age-appropriate brain templates. The atlases can be further applied to monitor the neuroanatomical trajectory and can serve as a coordinate reference system to retrospectively harmonize data collected from different sites and imaging acquisition parameters, facilitating group analysis at large scale.</div><div><br></div><div>Next, to assess whether the changes of white matter microstructure can be attributed to repetitive head impacts and are reflected by cognitive performance, we analysed the diffusion tensor imaging (DTI) data of high school men’s football and women's soccer across a single season, with accompanying data from head impact sensors and neurocognitive assessments. Within multiple brain regions, we observed significantly altered DTI metrics, both transiently over a season and chronically with more years of high school experience. For the football players, hits with peak translational acceleration over 37 <i>g</i> were sufficient to alter the distributions of DTI changes, and deficits in white matter microstructure correlated with poorer performance of anti-saccade task at one month post-season, suggesting increased vulnerability for inhibitory control. Monitoring repetitive head impacts thus provides a temporal profile for identifying at-risk individuals during the competitive season, informing prompt interventional strategies, therefore protecting the brain and cognitive health of early-to-middle adolescent collision-sport athletes in the long run.</div> Neuroscience Biomarkers Health Care Biomechanics Central Nervous System Biostatistics Health Informatics Image Processing Adolescence Atlas Brain Collision Sport Cognition Concussion Diffusion Tensor Imaging Magnetic Resonance Imaging Neuroimaging Spatial Normalization Subconcussive Injury Traumatic brain injury

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