Depression history modulates effects of subthalamic nucleus topography on neuropsychological outcomes of deep brain stimulation for Parkinson's disease.

Patients with psychiatric symptoms, such as depression, anxiety, and visual hallucinations, may be at increased risk for adverse effects following deep brain stimulation of the subthalamic nucleus for Parkinson's disease, but there have been relatively few studies of associations between locations of chronic stimulation and neuropsychological outcomes. We sought to determine whether psychiatric history modulates associations between stimulation location within the subthalamic nucleus and postoperative affective and cognitive changes. We retrospectively identified 42 patients with Parkinson's disease who received bilateral subthalamic nucleus deep brain stimulation and who completed both pre- and postoperative neuropsychological testing. Active stimulation contacts were localized in MNI space using Lead-DBS software. Linear discriminant analysis identified vectors maximizing variance in postoperative neuropsychological changes, and Pearson's correlations were used to assess for linear relationships. Stimulation location was associated with postoperative change for only 3 of the 18 neuropsychological measures. Variation along the superioinferior (z) axis was most influential. Constraining the analysis to patients with a history of depression revealed 10 measures significantly associated with active contact location, primarily related to location along the anterioposterior (y) axis and with worse outcomes associated with more anterior stimulation. Analysis of patients with a history of anxiety revealed 5 measures with location-associated changes without a predominant axis. History of visual hallucinations was not associated with significant findings. Our results suggest that a history of depression may influence the relationship between active contact location and neuropsychological outcomes following subthalamic nucleus deep brain stimulation. These patients may be more sensitive to off-target (nonmotor) stimulation.

Exploring the effect of napping on sleep quality and duration in collegiate athletes.

Purpose: The purpose of this study was to extend research on napping and sleep behaviors in collegiate athletes, and to compare nappers and non-nappers on sleep quality and duration. Methods: Current varsity, club, and intramural athletes between 18-29 years completed the Short Napping Behavior Scale, Pittsburgh Quality Sleep Index, Generalized Anxiety Disorder-7, and the Patient Health Questionnaire-9. Results: Approximately 72% (129/179) reported napping. There were no significant differences in outcomes between nap frequency groups on sleep quality (Χ2(3)=4.97, p=.17) or duration (Χ2(3)=1.20, p=.75). Moreover, there was no significant differences for nap length groups on sleep quality (Χ2(3)=7.03, p=.07) or duration (Χ2(3)=1.32, p=.72). Furthermore, there were no significant differences for nap timing groups on sleep quality (Χ2(3)=1.54, p=.67) or duration (Χ2(3)=2.43, p=.49). Conclusion: In a sample of collegiate athletes, nap frequency, length, and timing were not associated with worse sleep quality or duration.

Lateralized Effect of Thalamic Deep Brain Stimulation Location on Verbal Abstraction.

BACKGROUND: Regionalized thalamic activity has been implicated in language function, and yet the effect of thalamic deep brain stimulation (DBS) on language-related clinical outcomes is underexplored. OBJECTIVE: The objective of this study was to determine if the location of stimulation within the thalamus correlates with changes in language-related neuropsychological outcomes following DBS for essential tremor. METHODS: Thirty patients with essential tremor underwent comprehensive neuropsychological evaluations before and after DBS surgery targeting the ventral intermediate nucleus of the thalamus. Changes in neuropsychological functions were evaluated. The relationships between language-related outcomes and stimulation location were assessed using both categorical and linear methods. Any significant results were further validated using linear discriminant analysis. RESULTS: Most neuropsychological functions remained unchanged at the group level. However, outcome on a measure of verbal abstraction was significantly dependent on stimulation location along the anterior-posterior axis within the left ventral lateral thalamus, with anterior stimulation associated with reduced verbal abstraction performance. This result was supported by linear discriminant analysis, which showed that stimulation locations with improved and reduced verbal abstraction function were best separated by a vector nearly parallel to the anterior-posterior axis. No stimulation location dependence was found for verbal abstraction outcome in the right thalamus or for outcomes of other language functions in either hemisphere. CONCLUSION: We demonstrate an effect of thalamic DBS on verbal abstraction as a function of left thalamic topography. This finding provides clinical evidence for the lateralization and regionalization of thalamic language function that may be relevant for understanding nonmotor effects of stimulation. © 2021 International Parkinson and Movement Disorder Society.

Association of Preoperative Visual Hallucinations With Cognitive Decline After Deep Brain Stimulation for Parkinson's Disease.

OBJECTIVE: Deep brain stimulation (DBS) is effective for the motor symptoms of Parkinson's disease (PD). Although most patients benefit with minimal cognitive side effects, cognitive decline is a risk, and there is little available evidence to guide preoperative risk assessment. Visual illusions or visual hallucinations (VHs) and impulse-control behaviors (ICBs) are relatively common complications of PD and its treatment and may be a marker of more advanced disease, but their relationship with postoperative cognition has not been established. The authors aimed to determine whether any preoperative history of VHs or ICBs is associated with cognitive change after DBS. METHODS: Retrospective chart review identified 54 patients with PD who received DBS of the subthalamic nucleus or globus pallidus internus and who completed both pre- and postoperative neuropsychological testing. Linear regression models were used to assess whether any preoperative history of VHs or ICBs was associated with changes in attention, executive function, language, memory, or visuospatial cognitive domains while controlling for surgical target and duration between evaluations. RESULTS: The investigators found that a history of VHs was associated with declines in attention (b=-4.04, p=0.041) and executive function (b=-4.24, p=0.021). A history of ICBs was not associated with any significant changes. CONCLUSIONS: These results suggest that a history of VHs may increase risk of cognitive decline after DBS; thus, specific preoperative counseling and targeted remediation strategies for these patients may be indicated. In contrast, a history of ICBs does not appear to be associated with increased cognitive risk.

Observations from Social Media Regarding the Symptomatology of Adult Hydrocephalus Patients.

BACKGROUND: Patients with hydrocephalus experience symptoms related to hydrocephalus in an age-dependent manner. However, prevalence estimates of hydrocephalus symptoms in young and middle-aged (YMA) adult patients are rare and variable. Highlighting the importance of hydrocephalus symptom management, the persistence and intensity of headache or gait disturbance have been associated with signs of brain white matter integrity loss, including in treated YMA adult patients. Thus, it is important to ascertain which symptoms adult patients with hydrocephalus report most to confirm their relative importance. METHODS: Observations of symptom complaints were made from publicly viewable online responses to an inquiry posted by the Hydrocephalus Association to 2 Facebook webpages. RESULTS: Within 7 days of inquiry posting, 381 complaints of signs and symptoms were identified in 82 online responses. Headache, cognitive deficits (cognition and memory), and mobility issues (dizziness, balance, or gait problems) were most commonly reported by 63%, 45%, and 40% of respondents, respectively. Results were highly similar for the subgroup of 53 patients reported as treated. For self-identified YMA patients (<60 years old), results were similar, but with fewer mobility complaints. Not previously reported, hypersensitivity to external stimuli was reported by one-half of the patients that reported headache. CONCLUSIONS: The current results provide further quantitative support for the prioritization of study of headache, cognitive deficits, and mobility issues in YMA adult patients with hydrocephalus. Warranting further study, cranial hypersensitivity to external stimuli may represent a novel outcome measure, and treated YMA adult hydrocephalus patients continue to report symptoms associated with signs of brain damage.

Association of Concussion With Abnormal Menstrual Patterns in Adolescent and Young Women.

Importance: Brain injury may interrupt menstrual patterns by altering hypothalamic-pituitary-ovarian axis function. Investigators have yet to evaluate the association of concussion with menstrual patterns in young women. Objective: To compare abnormal menstrual patterns in adolescent and young women after a sport-related concussion with those after sport-related orthopedic injuries to areas other than the head (nonhead). Design, Setting, and Participants: This prospective cohort study of adolescent and young women with a sport-related concussion (n = 68) or a nonhead sport-related orthopedic injury (n = 61) followed up participants for 120 days after injury. Patients aged 12 to 21 years who presented within 30 days after a sport-related injury to a concussion or sports medicine clinic at a single academic center were eligible. Menstrual patterns were assessed using a weekly text message link to an online survey inquiring about bleeding episodes each week. The first patient was enrolled on October 14, 2014, and follow-up was completed on January 24, 2016. Inclusion criteria required participants to be at least 2 years postmenarche, to report regular menses in the previous year, and to report no use of hormonal contraception. Exposures: Sport-related concussion or nonhead sport-related orthopedic injury. Main Outcomes and Measures: Abnormal menstrual patterns were defined by an intermenstrual interval of less than 21 days (short) or more than 35 days (long) or a bleeding duration of less than 3 days or more than 7 days. Results: A total of 1784 survey responses were completed of the 1888 text messages received by patients, yielding 487 menstrual patterns in 128 patients (mean [SD] age, 16.2 [2.0] years). Of the 68 patients who had a concussion, 16 (23.5%) experienced 2 or more abnormal menstrual patterns during the study period compared with 3 of 60 patients (5%) who had an orthopedic injury. Despite similar gynecologic age, body mass index, and type of sports participation between groups, the risk of 2 or more abnormal menstrual bleeding patterns after injury was significantly higher among patients with concussion than among those with an orthopedic injury (odds ratio, 5.85; 95% CI, 1.61-21.22). Conclusions and Relevance: Adolescent and young women may have increased risk of multiple abnormal menstrual patterns after concussion. Because abnormal menstrual patterns can have important health implications, monitoring menstrual patterns after concussion may be warranted in this population. Additional research is needed to elucidate the relationship between long-term consequences of concussion and the function of the hypothalamic-pituitary-ovarian axis.

Predictors of Pharmacological Intervention in Adolescents With Protracted Symptoms After Sports-Related Concussion.

BACKGROUND: Although recovery after concussion is spontaneous and typically occurs within 2-3 weeks, a subset of adolescents develop persistent symptoms after a sports-related concussion. Medications are frequently prescribed as part of a comprehensive treatment approach to alleviate these symptoms; however, there are no guidelines for prescription of pharmacologic therapy after concussion. OBJECTIVE: To investigate common factors that are associated with the use of medications (antiepileptic, antidepressant, neurostimulant, or sleeping medication) during recovery from a sports-related concussion. DESIGN: Retrospective observational study. SETTING: Single-center specialty concussion center. PARTICIPANTS: A total of 100 adolescents, between the ages of 12 and 18 years, who sustained concussion due to sports. ASSESSMENT OF RISK FACTORS: Independent variables collected included age at the time of concussion, gender, sports played, personal history of prior concussion or mental health disorder, and personal or family history of headache (eg, migraines) or seizure disorder. MAIN OUTCOME MEASURE: Prescription of medications for treatment of concussion. RESULTS: Twenty-four patients (24%) were prescribed medications in this study, all of whom reported headache at the time of medication prescription. Amantadine was the most commonly prescribed medication, with amitriptyline and melatonin also being prescribed. Among the demographic information collected, only age and gender met criteria for inclusion in the regression model. Logistic regression analysis demonstrated that the odds that female participants were prescribed medications was 3.790 (95% confidence interval = 1.262-11.380) higher than male participants. A higher symptom score on the initial Post Concussion Symptom Scale (PCSS) was associated with increased odds of being prescribed medications (odds ratio = 1.031, 95% CI = 1.009-1.052). CONCLUSIONS: The current study found that initial symptom severity and female gender were associated with use of medication in recovery from sports-related concussion among variables available for study. LEVEL OF EVIDENCE: II.

Long-Term Effects of Sports Concussions: Bridging the Neurocognitive Repercussions of the Injury with the Newest Neuroimaging Data.

Little is known of the long-term effects of sports-related concussion. Within the scientific literature, conclusions vary substantially where some work suggests there are no long-term consequences at all and other studies show rampant neurodegeneration thought to be caused by sometimes even a single concussive blow to the head. There is growing evidence that supports multiple long-term outcomes, showing both subclinical and clinically relevant changes in the brains of athletes, young and old alike. This article reviews the pathohistology of cerebral concussions and examines the extant literature with a focus on electrophysiological and neuroimaging findings. Neurobehavioral and neurocognitive changes are also reviewed, particularly as they are related to chronic traumatic encephalopathy. Lacunae within the literature are explored, and future research directions are proposed.

Cognitive Development and the Immediate Postconcussion Assessment and Cognitive Testing: A Case for Separate Norms in Preadolescents.

With youth sports participation and concern about sports-related concussions both on the rise, it is important to properly measure cognitive function to ensure the clinical utility of baseline testing. Computerized testing batteries are often employed as baseline and postinjury measures of cognitive function, with the Immediate Postconcussion Assessment and Cognitive Testing (ImPACT) being the most used of all the current testing platforms. The current study compared 10- to 12-year-old children across the composite scores yielded by the ImPACT and provided normative data on each of the subtests used to calculate the composite scores. Normative data are separated by gender for athletes aged 10 to 12 years old, as this is the current age bracket used by the ImPACT. These norms may be helpful in the interpretation of the ImPACT clinical report and further delineation of areas of neurocognitive dysfunction.

The influence of sleep duration and sleep-related symptoms on baseline neurocognitive performance among male and female high school athletes.

UNLABELLED: Typically, the effects of sleep duration on cognition are examined in isolation. OBJECTIVE: This study examined the effects of restricted sleep and related symptoms on neurocognitive performance. METHOD: Baseline Immediate Post-Concussion Assessment and Cognitive Testing (ImPACT) and postconcussion symptom scale (PCSS) were administered to athletes (N = 7,150) ages 14-17 (M = 15.26, SD = 1.09) prior to sport participation. Three groups of athletes were derived from total sleep duration: sleep restriction (≤5 hours), typical sleep (5.5-8.5 hours), and optimal sleep (≥9 hours). A MANCOVA (age and sex as covariates) was conducted to examine differences across ImPACT/PCSS. Follow-up MANOVA compared ImPACT/PCSS performance among symptomatic (e.g., trouble falling asleep, sleeping less than usual) adolescents from the sleep restriction group (n = 78) with asymptomatic optimal sleepers (n = 99). RESULTS: A dose-response effect of sleep duration on ImPACT performance and PCSS was replicated (Wilk's λ = .98, F2,7145 = 17.25, p < .001, η2 = .01). The symptomatic sleep restricted adolescents (n = 78) had poorer neurocognitive performance: verbal memory, F = 11.60, p = .001, visual memory, F = 6.57, p = .01, visual motor speed, F = 6.19, p = .01, and reaction time (RT), F = 5.21, p = .02, compared to demographically matched controls (n = 99). Girls in the sleep problem group performed worse on RT (p = .024). CONCLUSION: Examining the combination of sleep-related symptoms and reduced sleep duration effectively identified adolescents at risk for poor neurocognitive performance than sleep duration alone. (PsycINFO Database Record

The usefulness of the video head impulse test in children and adults post-concussion.

OBJECTIVE: Dizziness after concussion have been reported in both youths and adults. It is not clear if the dizziness experienced post-concussion is from peripheral or central etiology. New technology has been developed to quickly and easily quantify the magnitude of peripheral vestibular disorders that is non-invasive and acceptable to youths and adults. The purpose of this study was to determine if youths and adults' post-concussion have evidence of decreased horizontal semicircular canal vestibulo-ocular reflex (VOR) gains as measured with the video head impulse test (vHIT), which would indicate a peripheral vestibular disorder. An additional purpose was to determine if VOR gain scores correlate with functional performance measures. DESIGN: Descriptive cross sectional. SETTING: Large medical center out-patient concussion program. PARTICIPANTS: Fifty-six subjects with concussion. MAIN OUTCOMES/MEASURES: Subjects completed the vHIT testing, the Dizziness Handicap Inventory (DHI), the Vestibular Activities and Participation (VAP) scale, the Pediatric Vestibular Symptom Questionnaire, gait speed assessment, the Dynamic Gait Index (DGI) and a verbal analog scale of symptom provocation before and after the vHIT testing. RESULTS: There were no abnormal vHIT findings in any subject. Headaches, dizziness and nausea were significantly worse post vHIT testing (p < 0.05). Youths had better DGI and DHI scores than subjects older than 20 (p < 0.05). CONCLUSION: The vHIT did not detect horizontal semicircular canal weakness in any of the subjects tested. In addition, older adults reported more activity and participation limitations than the younger subjects with concussion.

Examining Recovery Trajectories After Sport-Related Concussion With a Multimodal Clinical Assessment Approach.

BACKGROUND: Previous research estimates that the majority of athletes with sport-related concussion (SRC) will recover between 7 and 10 days after injury. This short temporal window of recovery is based predominately on symptom resolution and cognitive improvement and does not accurately reflect recent advances in the clinical assessment model. OBJECTIVE: To characterize SRC recovery at 1-week postinjury time intervals on symptom, neurocognitive, and vestibular-oculomotor outcomes and to examine sex differences in SRC recovery time. METHODS: A prospective, repeated-measures design was used to examine the temporal resolution of neurocognitive, symptom, and vestibular-oculomotor impairment in 66 subjects (age, 16.5 ± 1.9 years; range, 14-23 years; 64% male) with SRC. RESULTS: Recovery time across all outcomes was between 21 and 28 days after SRC for most athletes. Symptoms demonstrated the greatest improvement in the first 2 weeks, although neurocognitive impairment lingered across various domains up to 28 days after SRC. Vestibular-oculomotor decrements also resolved between 1 and 3 weeks after injury. There were no sex differences in neurocognitive recovery. Male subjects were more likely to be asymptomatic by the fourth week and reported less vestibular-oculomotor impairment than female subjects at weeks 1 and 2. CONCLUSION: When the recommended "comprehensive" approach is used for concussion assessment, recovery time for SRC is approximately 3 to 4 weeks, which is longer than the commonly reported 7 to 14 days. Sports medicine clinicians should use a variety of complementing assessment tools to capture the heterogeneity of SRC.

Traumatic axonal injury and persistent emotional lability in an adolescent following moderate traumatic brain injury: A case study.

A 15-year-old male was treated secondary to sustaining a moderate traumatic brain injury (moderate TBI). Symptom self-report, and computerized and paper-and-pencil-based neurocognitive, vestibular/ocular motor, and imaging data were used throughout to document impairment and recovery. The patient demonstrated persistent emotional lability concurrent with vestibular impairment. In addition to clinical evaluation and management, the patient also underwent susceptibility-weighted imaging, which revealed axonal shearing across the corpus callosum and areas innervating the prefrontal cortex. Paper-and-pencil neurocognitive measures revealed persisting deficits, despite normal-appearing computerized test results. Implications of this case underline the importance of an integrative evaluation process including clinical interview, neurocognitive and vestibular/ocular physical therapy, and advanced neuroimaging, especially in cases with atypical presentation.

Parent Perceptions of Their Adolescent Athlete's Concussion: A Preliminary Retrospective Study.

Parent reports of their adolescent athletes' recovery from concussion are often considered by clinicians, but limited research has explored the factors (i.e., athletes' symptoms and neurocognitive performance) predicting parents' perceptions of athletes' recovery and how these factors relate to previous research on athletes' self-perceptions of recovery. The current study included 67 athletes aged 12 to 18 years old (M = 14.69 years, SD = 1.67) who were evaluated for a sports-related concussion within 6 months postinjury and were accompanied by a parent to their evaluation. Athletes and parents were asked to rate athletes' percent "back to normal" (i.e., perception of recovery), and athletes completed Immediate Post-Concussion Assessment and Cognitive Testing and symptom reports on the Post-Concussion Symptom Scale. Results of a multiple regression for athletes' total symptom score and neurocognitive performance (Verbal Memory, Visual Memory, Visuomotor Speed, and Reaction Time) was significant and accounted for 47.9% of the variance in parents' perceptions of recovery with total symptoms as the only significant predictor. A stepwise regression for symptom clusters (somatic, cognitive, sleep, and neuropsychiatric) demonstrated that somatic complaints were the most predictive of parents' perceptions. Parents' and athletes' perceptions are predicted by athletes' somatic symptoms, rather than athletes' performance on objective assessments.

Adolescent Subtest Norms for the ImPACT Neurocognitive Battery.

The neurocognitive testing of sports concussion for injury management and return-to-play decisions has long been considered the gold standard in evaluation of the injury. Computerized testing batteries are frequently employed, with the Immediate Post-Concussion Assessment and Cognitive Testing (ImPACT) being the most used of all the current testing platforms to evaluate concussion. ImPACT's clinical report yields four normed composite scores (Verbal Memory, Visual Memory, Visual Motor Speed, and Reaction Time) and another composite score that is not normed but is used as a validity measure (Impulse Control), as well as their corresponding subtest scores, which are not normed. The current study provides normative data on each of the subtests used to calculate the composite scores. Normative data are separated by gender for athletes aged 13 to 21 years old and are stratified by the norm age brackets already employed by the ImPACT. These norms may be helpful in the interpretation of the ImPACT clinical report and further delineation of areas of neurocognitive dysfunction.

Diffuse white matter tract abnormalities in clinically normal ageing retired athletes with a history of sports-related concussions.

Sports-related concussions have been shown to lead to persistent subclinical anomalies of the motor and cognitive systems in young asymptomatic athletes. In advancing age, these latent alterations correlate with detectable motor and cognitive function decline. Until now, the interacting effects of concussions and the normal ageing process on white matter tract integrity remain unknown. Here we used a tract-based spatial statistical method to uncover potential white matter tissue damage in 15 retired athletes with a history of concussions, free of comorbid medical conditions. We also investigated potential associations between white matter integrity and declines in cognitive and motor functions. Compared to an age- and education-matched control group of 15 retired athletes without concussions, former athletes with concussions exhibited widespread white matter anomalies along many major association, interhemispheric, and projection tracts. Group contrasts revealed decreases in fractional anisotropy, as well as increases in mean and radial diffusivity measures in the concussed group. These differences were primarily apparent in fronto-parietal networks as well as in the frontal aspect of the corpus callosum. The white matter anomalies uncovered in concussed athletes were significantly associated with a decline in episodic memory and lateral ventricle expansion. Finally, the expected association between frontal white matter integrity and motor learning found in former non-concussed athletes was absent in concussed participants. Together, these results show that advancing age in retired athletes presenting with a history of sports-related concussions is linked to diffuse white matter abnormalities that are consistent with the effects of traumatic axonal injury and exacerbated demyelination. These changes in white matter integrity might explain the cognitive and motor function declines documented in this population.

Understanding concussive injuries using investigational imaging methods.

Concussions have long been understood to be an invisible injury. Indeed, conventional imaging techniques [computed tomography and magnetic resonance imaging (MRI)] are largely ineffective in elucidating concussive injuries. More advanced techniques are being used experimentally to help delineate the underlying pathophysiology of concussive injuries on metabolic as well as ultrastructural levels. The current report reviews the data from several of these techniques including functional MRI, single-photon emission computed tomography, positron emission tomography, diffusion tensor imaging, and magnetic resonance spectroscopy. Each technique is briefly described, followed by a summary of the findings specific to concussive injuries. Overall, there is mounting evidence to suggest that each technique has utility in describing and explaining postinjury changes in the brain. Overall, concussive injuries are evident using the various aforementioned neuroimaging modalities and suggest at a minimum the concussed brain is different in the acute and subacute postinjury phases with several other studies suggesting that changes are persistent well beyond, especially in those patients with persistent symptoms.

Motor system alterations in retired former athletes: the role of aging and concussion history.

BACKGROUND: Retired athletes with a history of sports concussions experience cognitive and motor declines with aging, and the risk of severe neurodegenerative conditions is magnified in this population. The present study investigated the effects of aging on motor system metabolism and function in former university-level athletes who sustained their last concussion several decades prior to testing. METHODS: To test the hypothesis that age and remote concussions induce functional as well as metabolic alterations of the motor system, we used proton magnetic resonance spectroscopy to detect metabolic abnormalities in the primary motor cortex and the serial reaction time task (SRTT) to evaluate motor learning. RESULTS: Our results indicate that motor learning is significantly reduced in former concussed athletes relative to controls. In addition, glutamate/H2O ratio in M1 was disproportionately reduced in concussed athletes with advancing age and was found to strongly correlate with motor learning impairments. CONCLUSION: Findings from this study provide evidence that the acquisition of a repeated motor sequence is compromised in the aging concussed brain and that its physiological underpinnings could implicate disproportionate reductions of M1 glutamate concentrations with advancing age.

Sports concussions and aging: a neuroimaging investigation.

Recent epidemiological and experimental studies suggest a link between cognitive decline in late adulthood and sports concussions sustained in early adulthood. In order to provide the first in vivo neuroanatomical evidence of this relation, the present study probes the neuroimaging profile of former athletes with concussions in relation to cognition. Former athletes who sustained their last sports concussion >3 decades prior to testing were compared with those with no history of traumatic brain injury. Participants underwent quantitative neuroimaging (optimized voxel-based morphometry [VBM], hippocampal volume, and cortical thickness), proton magnetic resonance spectroscopy ((1)H MRS; medial temporal lobes and prefrontal cortices), and neuropsychological testing, and they were genotyped for APOE polymorphisms. Relative to controls, former athletes with concussions exhibited: 1) Abnormal enlargement of the lateral ventricles, 2) cortical thinning in regions more vulnerable to the aging process, 3) various neurometabolic anomalies found across regions of interest, 4) episodic memory and verbal fluency decline. The cognitive deficits correlated with neuroimaging findings in concussed participants. This study unveiled brain anomalies in otherwise healthy former athletes with concussions and associated those manifestations to the long-term detrimental effects of sports concussion on cognitive function. Findings from this study highlight patterns of decline often associated with abnormal aging.

Long-term functional alterations in sports concussion.

In this review the authors discuss persistent and cumulative alterations in both cognitive and motor function after sports concussions detected with some of the newest, most sophisticated brain investigation techniques. Ranging from subclinical neurophysiological alterations in young concussed athletes to quantifiable cognitive and motor function declines in former athletes in late adulthood with concussions sustained decades earlier, this review is also intended to provide new insights into the neuropathophysiology of sports concussion.