791 results on '"Giza, Christopher C."'
Search Results
2. Time Delta Head Impact Frequency: An Analysis on Head Impact Exposure in the Lead Up to a Concussion: Findings from the NCAA-DOD Care Consortium
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Seifert, Jack, Shah, Alok S, Harezlak, Jaroslaw, Rowson, Steven, Mihalik, Jason P, Riggen, Larry, Duma, Stefan, Brooks, Alison, Cameron, Kenneth L, Giza, Christopher C, Goldman, Joshua, Guskiewicz, Kevin M, Houston, Megan N, Jackson, Jonathan C, McGinty, Gerald, Pasquina, Paul, Broglio, Steven P, McAllister, Thomas W, McCrea, Michael A, and Stemper, Brian D
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Engineering ,Biomedical Engineering ,Traumatic Brain Injury (TBI) ,Physical Injury - Accidents and Adverse Effects ,Brain Disorders ,Traumatic Head and Spine Injury ,Clinical Research ,Humans ,Football ,Brain Concussion ,Athletes ,Athletic Injuries ,Head impact exposure ,Sport-related concussion ,Concussive threshold ,Traumatic brain injury ,Subconcussive ,Medical and Health Sciences ,Biomedical engineering - Abstract
Sport-related concussions can result from a single high magnitude impact that generates concussive symptoms, repeated subconcussive head impacts aggregating to generate concussive symptoms, or a combined effect from the two mechanisms. The array of symptoms produced by these mechanisms may be clinically interpreted as a sport-related concussion. It was hypothesized that head impact exposure resulting in concussion is influenced by severity, total number, and frequency of subconcussive head impacts. The influence of total number and magnitude of impacts was previously explored, but frequency was investigated to a lesser degree. In this analysis, head impact frequency was investigated over a new metric called 'time delta', the time difference from the first recorded head impact of the day until the concussive impact. Four exposure metrics were analyzed over the time delta to determine whether frequency of head impact exposure was greater for athletes on their concussion date relative to other dates of contact participation. Those metrics included head impact frequency, head impact accrual rate, risk weighted exposure (RWE), and RWE accrual rate. Athletes experienced an elevated median number of impacts, RWE, and RWE accrual rate over the time delta on their concussion date compared to non-injury sessions. This finding suggests elevated frequency of head impact exposure on the concussion date compared to other dates that may precipitate the onset of concussion.
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- 2022
3. Increased Fear Generalization and Amygdala AMPA Receptor Proteins in Chronic Traumatic Brain Injury.
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Hoffman, Ann N, Watson, Sonya, Chavda, Nishtha, Lam, Jamie, Hovda, David A, Giza, Christopher C, and Fanselow, Michael S
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Amygdala ,Animals ,Rats ,Brain Injury ,Chronic ,Receptors ,AMPA ,Fear ,Male ,Brain Injuries ,Traumatic ,AMPA receptor ,amygdala ,associative learning ,defensive behavior ,fear conditioning ,post-traumatic stress ,Injury (total) Accidents/Adverse Effects ,Basic Behavioral and Social Science ,Brain Disorders ,Injury - Traumatic brain injury ,Behavioral and Social Science ,Injury - Trauma - (Head and Spine) ,Neurosciences ,Mental Health ,Aetiology ,2.1 Biological and endogenous factors ,Neurological ,Mental health ,Clinical Sciences ,Neurology & Neurosurgery - Abstract
Cognitive impairments and emotional lability are common long-term consequences of traumatic brain injury (TBI). How TBI affects interactions between sensory, cognitive, and emotional systems may reveal mechanisms that underlie chronic mental health comorbidities. Previously, we reported changes in auditory-emotional network activity and enhanced fear learning early after TBI. In the current study, we asked whether TBI has long-term effects on fear learning and responses to novel stimuli. Four weeks following lateral fluid percussion injury (FPI) or sham surgery, adult male rats were fear conditioned to either white noise-shock or tone-shock pairing, or shock-only control and subsequently were tested for freezing to context and to the trained or novel auditory cues in a new context. FPI groups showed greater freezing to their trained auditory cue, indicating long-term TBI enhanced fear. Interestingly, FPI-Noise Shock animals displayed robust fear to the novel, untrained tone compared with Sham-Noise Shock across both experiments. Shock Only groups did not differ in freezing to either auditory stimulus. These findings suggest that TBI precipitates maladaptive associative fear generalization rather than non-associative sensitization. Basolateral amygdala (BLA) α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor (AMPAr) subunits GluA1 and GluA2 levels were analyzed and the FPI-Noise Shock group had increased GluA1 (but not GluA2) levels that correlated with the level of tone fear generalization. This study illustrates a unique chronic TBI phenotype with both a cognitive impairment and increased fear and possibly altered synaptic transmission in the amygdala long after TBI, where stimulus generalization may underlie maladaptive fear and hyperarousal.
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- 2022
4. The Effect of Aerobic Exercise on Concussion Recovery: A Pilot Clinical Trial
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Snyder, Aliyah R, Greif, Sarah M, Clugston, James R, FitzGerald, David B, Yarrow, Joshua F, Babikian, Talin, Giza, Christopher C, Thompson, Floyd J, and Bauer, Russell M
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Allied Health and Rehabilitation Science ,Health Sciences ,Psychology ,Neurosciences ,Traumatic Head and Spine Injury ,Rehabilitation ,Physical Injury - Accidents and Adverse Effects ,Clinical Trials and Supportive Activities ,Traumatic Brain Injury (TBI) ,Behavioral and Social Science ,Clinical Research ,Brain Disorders ,6.1 Pharmaceuticals ,Evaluation of treatments and therapeutic interventions ,6.7 Physical ,Athletic Injuries ,Brain Concussion ,Exercise ,Exercise Therapy ,Humans ,Post-Concussion Syndrome ,Young Adult ,Neuropsychology ,Return to Sport ,Brain Injuries ,Sports ,Feasibility Studies ,Public Health ,Medical and Health Sciences ,Psychology and Cognitive Sciences ,Experimental Psychology ,Biomedical and clinical sciences ,Health sciences - Abstract
ObjectiveThe purpose of this study was to pilot safety and tolerability of a 1-week aerobic exercise program during the post-acute phase of concussion (14-25 days post-injury) by examining adherence, symptom response, and key functional outcomes (e.g., cognition, mood, sleep, postural stability, and neurocognitive performance) in young adults.MethodA randomized, non-blinded pilot clinical trial was performed to compare the effects of aerobic versus non-aerobic exercise (placebo) in concussion patients. The study enrolled three groups: 1) patients with concussion/mild traumatic brain injury (mTBI) randomized to an aerobic exercise intervention performed daily for 1-week, 2) patients with concussion/mTBI randomized to a non-aerobic (stretching and calisthenics) exercise program performed daily for 1-week, and 3) non-injured, no intervention reference group.ResultsMixed-model analysis of variance results indicated a significant decrease in symptom severity scores from pre- to post-intervention (mean difference = -7.44, 95% CI [-12.37, -2.20]) for both concussion groups. However, the pre- to post-change was not different between groups. Secondary outcomes all showed improvements by post-intervention, but no differences in trajectory between the groups. By three months post-injury, all outcomes in the concussion groups were within ranges of the non-injured reference group.ConclusionsResults from this study indicate that the feasibility and tolerability of administering aerobic exercise via stationary cycling in the post-acute time frame following post-concussion (14-25 days) period are tentatively favorable. Aerobic exercise does not appear to negatively impact recovery trajectories of neurobehavioral outcomes; however, tolerability may be poorer for patients with high symptom burden.
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- 2021
5. White Matter Disruption in Pediatric Traumatic Brain Injury: Results from ENIGMA Pediatric Moderate to Severe Traumatic Brain Injury.
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Dennis, Emily L, Caeyenberghs, Karen, Hoskinson, Kristen R, Merkley, Tricia L, Suskauer, Stacy J, Asarnow, Robert F, Babikian, Talin, Bartnik-Olson, Brenda, Bickart, Kevin, Bigler, Erin D, Ewing-Cobbs, Linda, Figaji, Anthony, Giza, Christopher C, Goodrich-Hunsaker, Naomi J, Hodges, Cooper B, Hovenden Aa, Elizabeth S, Irimia, Andrei, Königs, Marsh, Levin, Harvey S, Lindsey, Hannah M, Max, Jeffrey E, Newsome, Mary R, Olsen, Alexander, Ryan, Nicholas P, Schmidt, Adam T, Spruiell, Matthew S, Wade, Benjamin Sc, Ware, Ashley L, Watson, Christopher G, Wheeler, Anne L, Yeates, Keith Owen, Zielinski, Brandon A, Kochunov, Peter, Jahanshad, Neda, Thompson, Paul M, Tate, David F, and Wilde, Elisabeth A
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Childhood Injury ,Behavioral and Social Science ,Brain Disorders ,Pediatric ,Clinical Research ,Unintentional Childhood Injury ,Biomedical Imaging ,Physical Injury - Accidents and Adverse Effects ,Traumatic Head and Spine Injury ,Neurosciences ,Traumatic Brain Injury (TBI) ,Good Health and Well Being ,Clinical Sciences ,Cognitive Sciences ,Neurology & Neurosurgery - Abstract
ObjectiveOur study addressed aims: (1) test the hypothesis that moderate-severe TBI in pediatric patients is associated with widespread white matter (WM) disruption; (2) test the hypothesis that age and sex impact WM organization after injury; and (3) examine associations between WM organization and neurobehavioral outcomes.MethodsData from ten previously enrolled, existing cohorts recruited from local hospitals and clinics were shared with the ENIGMA (Enhancing NeuroImaging Genetics through Meta-Analysis) Pediatric msTBI working group. We conducted a coordinated analysis of diffusion MRI (dMRI) data using the ENIGMA dMRI processing pipeline.ResultsFive hundred and seven children and adolescents (244 with complicated mild to severe TBI [msTBI] and 263 controls) were included. Patients were clustered into three post-injury intervals: acute/subacute -
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- 2021
6. Challenges and opportunities for neuroimaging in young patients with traumatic brain injury: a coordinated effort towards advancing discovery from the ENIGMA pediatric moderate/severe TBI group
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Dennis, Emily L, Caeyenberghs, Karen, Asarnow, Robert F, Babikian, Talin, Bartnik-Olson, Brenda, Bigler, Erin D, Figaji, Anthony, Giza, Christopher C, Goodrich-Hunsaker, Naomi J, Hodges, Cooper B, Hoskinson, Kristen R, Königs, Marsh, Levin, Harvey S, Lindsey, Hannah M, Livny, Abigail, Max, Jeffrey E, Merkley, Tricia L, Newsome, Mary R, Olsen, Alexander, Ryan, Nicholas P, Spruiell, Matthew S, Suskauer, Stacy J, Thomopoulos, Sophia I, Ware, Ashley L, Watson, Christopher G, Wheeler, Anne L, Yeates, Keith Owen, Zielinski, Brandon A, Thompson, Paul M, Tate, David F, and Wilde, Elisabeth A
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Brain Disorders ,Clinical Research ,Neurosciences ,Biomedical Imaging ,Physical Injury - Accidents and Adverse Effects ,Pediatric ,Childhood Injury ,Pediatric Research Initiative ,Unintentional Childhood Injury ,Traumatic Brain Injury (TBI) ,Traumatic Head and Spine Injury ,Injuries and accidents ,Adolescent ,Adult ,Biomarkers ,Brain Injuries ,Traumatic ,Child ,Humans ,Magnetic Resonance Imaging ,Neuroimaging ,traumatic brain injury ,ENIGMA ,Moderate-severe TBI ,Medical and Health Sciences ,Psychology and Cognitive Sciences ,Experimental Psychology - Abstract
Traumatic brain injury (TBI) is a major cause of death and disability in children in both developed and developing nations. Children and adolescents suffer from TBI at a higher rate than the general population, and specific developmental issues require a unique context since findings from adult research do not necessarily directly translate to children. Findings in pediatric cohorts tend to lag behind those in adult samples. This may be due, in part, both to the smaller number of investigators engaged in research with this population and may also be related to changes in safety laws and clinical practice that have altered length of hospital stays, treatment, and access to this population. The ENIGMA (Enhancing NeuroImaging Genetics through Meta-Analysis) Pediatric Moderate/Severe TBI (msTBI) group aims to advance research in this area through global collaborative meta-analysis of neuroimaging data. In this paper, we discuss important challenges in pediatric TBI research and opportunities that we believe the ENIGMA Pediatric msTBI group can provide to address them. With the paucity of research studies examining neuroimaging biomarkers in pediatric patients with TBI and the challenges of recruiting large numbers of participants, collaborating to improve statistical power and to address technical challenges like lesions will significantly advance the field. We conclude with recommendations for future research in this field of study.
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- 2021
7. Estimated age of first exposure to American football and outcome from concussion
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Caccese, Jaclyn B, Houck, Zac, Kaminski, Thomas W, Clugston, James R, Iverson, Grant L, Bryk, Kelsey N, Oldham, Jessie R, Pasquina, Paul F, Broglio, Steven P, McAllister, Thomas W, McCrea, Michael, Hoy, April Marie, Hazzard, Joseph B, Kelly, Louise A, Ortega, Justus D, Port, Nicholas, Putukian, Margot, Langford, T Dianne, Giza, Christopher C, Goldman, Joshua T, Benjamin, Holly J, Schmidt, Julianne D, Feigenbaum, Luis A, Eckner, James T, Mihalik, Jason P, Miles, Jessica Dysart, Anderson, Scott, Master, Christina L, Collins, Micky W, Kontos, Anthony P, Chrisman, Sara PD, Brooks, Alison, Jackson, Jonathan C, McGinty, Gerald, Cameron, Kenneth L, Susmarski, Adam, O'Donnell, Patrick G, Duma, Stefan, Rowson, Steve, Miles, Christopher M, Bullers, Christopher T, Dykhuizen, Brian H, Lintner, Laura, Buckley, Thomas A, and Investigators, nd CARE Consortium
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Clinical Research ,Physical Injury - Accidents and Adverse Effects ,Adolescent ,Adult ,Age Distribution ,Athletes ,Athletic Injuries ,Brain Concussion ,Football ,Humans ,Male ,Neuropsychological Tests ,Students ,United States ,Universities ,Young Adult ,CARE Consortium Investigators ,Clinical Sciences ,Neurosciences ,Cognitive Sciences ,Neurology & Neurosurgery - Abstract
ObjectiveTo examine the association between estimated age at first exposure (eAFE) to American football and clinical measures throughout recovery following concussion.MethodsParticipants were recruited across 30 colleges and universities as part of the National Collegiate Athletic Association (NCAA)-Department of Defense Concussion Assessment, Research and Education Consortium. There were 294 NCAA American football players (age 19 ± 1 years) evaluated 24-48 hours following concussion with valid baseline data and 327 (age 19 ± 1 years) evaluated at the time they were asymptomatic with valid baseline data. Participants sustained a medically diagnosed concussion between baseline testing and postconcussion assessments. Outcome measures included the number of days until asymptomatic, Immediate Post-Concussion Assessment and Cognitive Testing (ImPACT) composite scores, Balance Error Scoring System (BESS) total score, and Brief Symptom Inventory 18 (BSI-18) subscores. The eAFE was defined as participant's age at the time of assessment minus self-reported number of years playing football.ResultsIn unadjusted regression models, younger eAFE was associated with lower (worse) ImPACT Visual Motor Speed (R 2 = 0.031, p = 0.012) at 24-48 hours following injury and lower (better) BSI-18 Somatization subscores (R 2 = 0.014, p = 0.038) when the athletes were asymptomatic. The effect sizes were very small. The eAFE was not associated with the number of days until asymptomatic, other ImPACT composite scores, BESS total score, or other BSI-18 subscores.ConclusionEarlier eAFE to American football was not associated with longer symptom recovery, worse balance, worse cognitive performance, or greater psychological distress following concussion. In these NCAA football players, longer duration of exposure to football during childhood and adolescence appears to be unrelated to clinical recovery following concussion.
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- 2020
8. The Association Between Persistent White-Matter Abnormalities and Repeat Injury After Sport-Related Concussion
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Brett, Benjamin L, Wu, Yu-Chien, Mustafi, Sourajit M, Saykin, Andrew J, Koch, Kevin M, Nencka, Andrew S, Giza, Christopher C, Goldman, Joshua, Guskiewicz, Kevin M, Mihalik, Jason P, Duma, Stefan M, Broglio, Steven P, McAllister, Thomas W, McCrea, Michael A, and Meier, Timothy B
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Biomedical and Clinical Sciences ,Clinical Sciences ,Traumatic Brain Injury (TBI) ,Clinical Research ,Physical Injury - Accidents and Adverse Effects ,Brain Disorders ,Neurosciences ,Traumatic Head and Spine Injury ,2.1 Biological and endogenous factors ,Aetiology ,Injuries and accidents ,sport-related concussion ,mTBI ,diffusion tensor imaging ,CARE ,head injury ,white matter ,Psychology ,Clinical sciences ,Biological psychology - Abstract
Objective: A recent systematic review determined that the physiological effects of concussion may persist beyond clinical recovery. Preclinical models suggest that ongoing physiological effects are accompanied by increased cerebral vulnerability that is associated with risk for subsequent, more severe injury. This study examined the association between signal alterations on diffusion tensor imaging following clinical recovery of sport-related concussion in athletes with and without a subsequent second concussion. Methods: Average mean diffusivity (MD) was calculated in a region of interest (ROI) in which concussed athletes (n = 82) showed significantly elevated MD acutely after injury (
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- 2020
9. Resting-State fMRI Metrics in Acute Sport-Related Concussion and Their Association with Clinical Recovery: A Study from the NCAA-DOD CARE Consortium
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Meier, Timothy B, Giraldo-Chica, Monica, España, Lezlie Y, Mayer, Andrew R, Harezlak, Jaroslaw, Nencka, Andrew S, Wang, Yang, Koch, Kevin M, Wu, Yu-Chien, Saykin, Andrew J, Giza, Christopher C, Goldman, Joshua, DiFiori, John P, Guskiewicz, Kevin M, Mihalik, Jason P, Brooks, Alison, Broglio, Steven P, McAllister, Thomas, and McCrea, Michael A
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Physical Injury - Accidents and Adverse Effects ,Neurosciences ,Clinical Research ,Brain Disorders ,2.1 Biological and endogenous factors ,Aetiology ,Athletic Injuries ,Brain Concussion ,Female ,Humans ,Magnetic Resonance Imaging ,Male ,Neuroimaging ,Recovery of Function ,Rest ,Young Adult ,functional connectivity ,magnetic resonance imaging ,mild traumatic brain injury ,resting state ,sport-related concussion ,Clinical Sciences ,Neurology & Neurosurgery - Abstract
There has been a recent call for longitudinal cohort studies to track the physiological recovery of sport-related concussion (SRC) and its relationship with clinical recovery. Resting-state functional magnetic resonance imaging (rs-fMRI) has shown potential for detecting subtle changes in brain function after SRC. We investigated the effects of SRC on rs-fMRI metrics assessing local connectivity (regional homogeneity; REHO), global connectivity (average nodal strength), and the relative amplitude of slow oscillations of rs-fMRI (fractional amplitude of low-frequency fluctuations; fALFF). Athletes diagnosed with SRC (n = 92) completed visits with neuroimaging at 24-48 h post-injury (24 h), after clearance to begin the return-to-play (RTP) progression (asymptomatic), and 7 days following unrestricted RTP (post-RTP). Non-injured athletes (n = 82) completed visits yoked to the schedule of matched injured athletes and served as controls. Concussed athletes had elevated symptoms, worse neurocognitive performance, greater balance deficits, and elevated psychological symptoms at the 24-h visit relative to controls. These deficits were largely recovered by the asymptomatic visit. Concussed athletes still reported elevated psychological symptoms at the asymptomatic visit relative to controls. Concussed athletes also had elevated REHO in the right middle and superior frontal gyri at the 24-h visit that returned to normal levels by the asymptomatic visit. Additionally, REHO in these regions at 24 h predicted psychological symptoms at the asymptomatic visit in concussed athletes. Current results suggest that SRC is associated with an acute alteration in local connectivity that follows a similar time course as clinical recovery. Our results do not indicate strong evidence that concussion-related alterations in rs-fMRI persist beyond clinical recovery.
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- 2020
10. Sex Differences in Behavioral Sensitivities After Traumatic Brain Injury
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Hoffman, Ann N, Watson, Sonya L, Makridis, Anna S, Patel, Anisha Y, Gonzalez, Sarah T, Ferguson, Lindsay, Giza, Christopher C, and Fanselow, Michael S
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Clinical and Health Psychology ,Psychology ,Behavioral and Social Science ,Brain Disorders ,Traumatic Brain Injury (TBI) ,Traumatic Head and Spine Injury ,Physical Injury - Accidents and Adverse Effects ,Mental Health ,Basic Behavioral and Social Science ,Neurosciences ,Post-Traumatic Stress Disorder (PTSD) ,Mental health ,migraine ,PTSD– ,post-traumatic stress disorder ,traumatic brain injury ,sensory sensitivity ,defensive behavior ,fear & ,anxiety ,sex differences ,PTSD–post-traumatic stress disorder ,fear & anxiety ,Clinical Sciences ,Clinical sciences ,Biological psychology - Abstract
Traumatic brain injury (TBI) is associated with high rates of post-injury psychiatric and neurological comorbidities. TBI is more common in males than females despite females reporting more symptoms and longer recovery following TBI and concussion. Both pain and mental health conditions like anxiety and post-traumatic stress disorder (PTSD) are more common in women in the general population, however the dimorphic comorbidity in the TBI population is not well-understood. TBI may predispose the development of maladaptive anxiety or PTSD following a traumatic stressor, and the impact of sex on this interaction has not been investigated. We have shown that white noise is noxious to male rats following fluid percussion injury (FPI) and increases fear learning when used in auditory fear conditioning, but it is unclear whether females exhibit a similar phenotype. Adult female and male rats received either lateral FPI or sham surgery and 48 h later received behavioral training. We first investigated sex differences in response to 75 dB white noise followed by white noise-signaled fear conditioning. FPI groups exhibited defensive behavior to the white noise, which was significantly more robust in females, suggesting FPI increased auditory sensitivity. In another experiment, we asked how FPI affects contextual fear learning in females and males following unsignaled footshocks of either strong (0.9 mA) or weaker (0.5 mA) intensity. We saw that FPI led to rapid acquisition of contextual fear compared to sham. A consistent pattern of increased contextual fear after TBI was apparent in both sexes across experiments under differing conditioning protocols. Using a light gradient open field task we found that FPI females showed a defensive photophobia response to light, a novel finding supporting TBI enhanced sensory sensitivity across modalities in females. General behavioral differences among our measures were observed between sexes and discussed with respect to interpretations of TBI effects for each sex. Together our data support enhanced fear following a traumatic stressor after TBI in both sexes, where females show greater sensitivity to sensory stimuli across multiple modalities. These data demonstrate sex differences in emergent defensive phenotypes following TBI that may contribute to comorbid PTSD, anxiety, and other neurological comorbidities.
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- 2020
11. Postinjury Alcohol Use Is Associated With Prolonged Recovery After Concussion in NCAA Athletes
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Chang, Roger C., Singleton, Michael, Chrisman, Sara P. D., Giza, Christopher C., Cuneo, Ami Z., Murinova, Natalia, Broglio, Steven P., McCrea, Michael, McAllister, Thomas W., Sharma, Tara L., Hoy, April Marie (Reed), Hazzard, Joseph B., Jr, Kelly, Louise A., Ortega, Justus D., Port, Nicholas, Putukian, Margot, Langford, T. Dianne, Tierney, Ryan, McGinty, Gerald, OʼDonnell, Patrick, Cameron, Kenneth, Houston, Megan, Svoboda, Steven, Goldman, Joshua, Benjamin, Holly J., Buckley, Thomas, Kaminski, Thomas W., Clugston, James R., Schmidt, Julianne D., Feigenbaum, Luis A., Eckner, James T., Mihalik, Jason P., Miles, Jessica Dysart, Anderson, Scott, Master, Christina L., Kontos, Anthony P., Bazarian, Jeffrey J., Brooks, M. Alison, Duma, Stefan, Rowson, Steven, Miles, Christopher M., Dykhuizen, Brian H., and Lintner, Laura
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- 2023
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12. Preinjury Measures Do Not Predict Future Concussion Among Collegiate Student-Athletes: Findings From the CARE Consortium
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Lempke, Landon B., Breedlove, Katherine M., Caccese, Jaclyn B., McCrea, Michael A., McAllister, Thomas W., Broglio, Steven P., Schmidt, Julianne D., Lynall, Robert C., Buckley, Thomas A., Hoy, April, Ortega, Justus, Port, Nicholas, Giza, Christopher C., Benjamin, Holly J., Kaminski, Thomas W., Clugston, James R., Feigenbaum, Luis A., Eckner, James T., Mihalik, Jason P., Master, Christina L., Kontos, Anthony P., Brooks, Alison, Langford, Dianne, D’Lauro, Chris, Cameron, Kenneth L., Susmarski, Adam, Duma, Stefan M., and Miles, Christopher M.
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- 2023
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13. Repetitive Head Impact Exposure in College Football Following an NCAA Rule Change to Eliminate Two-A-Day Preseason Practices: A Study from the NCAA-DoD CARE Consortium
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Stemper, Brian D, Shah, Alok S, Harezlak, Jaroslaw, Rowson, Steven, Duma, Stefan, Mihalik, Jason P, Riggen, Larry D, Brooks, Alison, Cameron, Kenneth L, Giza, Christopher C, Houston, Megan N, Jackson, Jonathan, Posner, Matthew A, McGinty, Gerald, DiFiori, John, Broglio, Steven P, McAllister, Thomas W, and McCrea, Michael
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Engineering ,Biomedical Engineering ,Traumatic Head and Spine Injury ,Physical Injury - Accidents and Adverse Effects ,Brain Disorders ,Traumatic Brain Injury (TBI) ,Accelerometry ,Athletes ,Football ,Head ,Head Protective Devices ,Humans ,Telemetry ,Universities ,Sport-related concussion ,Injury biomechanics ,Traumatic brain injury ,Acceleration ,And the CARE Consortium Investigators ,Medical and Health Sciences ,Biomedical engineering - Abstract
Repetitive head impact exposure sustained by athletes of contact sports has been hypothesized to be a mechanism for concussion and a possible explanation for the high degree of variability in sport-related concussion biomechanics. In an attempt to limit repetitive head impact exposure during the football preseason, the NCAA eliminated two-a-day practices in 2017, while maintaining the total number of team practice sessions. The objective of this study was to quantify head impact exposure during the preseason and regular season in Division I college football athletes to determine whether the 2017 NCAA ruling decreased head impact exposure. 342 unique athletes from five NCAA Division I Football Bowl Subdivision (FBS) programs were consented and enrolled. Head impacts were recorded using the Head Impact Telemetry (HIT) System during the entire fall preseasons and regular seasons in 2016 and 2017. Despite the elimination of two-a-day practices, the number of preseason contact days increased in 2017, with an increase in average hourly impact exposure (i.e., contact intensity), resulting in a significant increase in total head impact burden (+ 26%) for the 2017 preseason. This finding would indicate that the 2017 NCAA ruling was not effective at reducing the head impact burden during the football preseason. Additionally, athletes sustained a significantly higher number of recorded head impacts per week (+ 40%) during the preseason than the regular season, implicating the preseason as a time of elevated repetitive head impact burden. With increased recognition of a possible association between repetitive head impact exposure and concussion, increased preseason exposure may predispose certain athletes to a higher risk of concussion during the preseason and regular season. Accordingly, efforts at reducing concussion incidence in contact sports should include a reduction in overall head impact exposure.
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- 2019
14. Comparison of Head Impact Exposure Between Concussed Football Athletes and Matched Controls: Evidence for a Possible Second Mechanism of Sport-Related Concussion
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Stemper, Brian D, Shah, Alok S, Harezlak, Jaroslaw, Rowson, Steven, Mihalik, Jason P, Duma, Stefan M, Riggen, Larry D, Brooks, Alison, Cameron, Kenneth L, Campbell, Darren, DiFiori, John P, Giza, Christopher C, Guskiewicz, Kevin M, Jackson, Jonathan, McGinty, Gerald T, Svoboda, Steven J, McAllister, Thomas W, Broglio, Steven P, and McCrea, Michael
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Engineering ,Biomedical Engineering ,Pediatric ,Brain Disorders ,Unintentional Childhood Injury ,Clinical Research ,Traumatic Brain Injury (TBI) ,Traumatic Head and Spine Injury ,Physical Injury - Accidents and Adverse Effects ,Neurosciences ,Childhood Injury ,Aetiology ,2.1 Biological and endogenous factors ,Injuries and accidents ,Acceleration ,Athletes ,Brain Concussion ,Football ,Head ,Head Protective Devices ,Humans ,Male ,Telemetry ,Universities ,Repetitive head impact exposure ,Subconcussive ,Traumatic brain injury ,Sport-related concussion ,CARE Consortium Investigators ,Medical and Health Sciences ,Biomedical engineering - Abstract
Studies of football athletes have implicated repetitive head impact exposure in the onset of cognitive and brain structural changes, even in the absence of diagnosed concussion. Those studies imply accumulating damage from successive head impacts reduces tolerance and increases risk for concussion. Support for this premise is that biomechanics of head impacts resulting in concussion are often not remarkable when compared to impacts sustained by athletes without diagnosed concussion. Accordingly, this analysis quantified repetitive head impact exposure in a cohort of 50 concussed NCAA Division I FBS college football athletes compared to controls that were matched for team and position group. The analysis quantified the number of head impacts and risk weighted exposure both on the day of injury and for the season to the date of injury. 43% of concussed athletes had the most severe head impact exposure on the day of injury compared to their matched control group and 46% of concussed athletes had the most severe head impact exposure for the season to the date of injury compared to their matched control group. When accounting for date of injury or season to date of injury, 72% of all concussed athletes had the most or second most severe head impact exposure compared to their matched control group. These trends associating cumulative head impact exposure with concussion onset were stronger for athletes that participated in a greater number of contact activities. For example, 77% of athletes that participated in ten or more days of contact activities had greater head impact exposure than their matched control group. This unique analysis provided further evidence for the role of repetitive head impact exposure as a predisposing factor for the onset of concussion. The clinical implication of these findings supports contemporary trends of limiting head impact exposure for college football athletes during practice activities in an effort to also reduce risk of concussive injury.
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- 2019
15. Sensory sensitivity as a link between concussive traumatic brain injury and PTSD.
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Hoffman, Ann N, Lam, Jamie, Hovda, David A, Giza, Christopher C, and Fanselow, Michael S
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Hippocampus ,Animals ,Mice ,Brain Concussion ,Disease Models ,Animal ,Acoustic Stimulation ,Fear ,Stress Disorders ,Post-Traumatic ,Male ,Basolateral Nuclear Complex ,Conditioning ,Psychological - Abstract
Traumatic brain injury (TBI) is one of the most common injuries to military personnel, a population often exposed to stressful stimuli and emotional trauma. Changes in sensory processing after TBI might contribute to TBI-post traumatic stress disorder (PTSD) comorbidity. Combining an animal model of TBI with an animal model of emotional trauma, we reveal an interaction between auditory sensitivity after TBI and fear conditioning where 75 dB white noise alone evokes a phonophobia-like phenotype and when paired with footshocks, fear is robustly enhanced. TBI reduced neuronal activity in the hippocampus but increased activity in the ipsilateral lateral amygdala (LA) when exposed to white noise. The white noise effect in LA was driven by increased activity in neurons projecting from ipsilateral auditory thalamus (medial geniculate nucleus). These data suggest that altered sensory processing within subcortical sensory-emotional circuitry after TBI results in neutral stimuli adopting aversive properties with a corresponding impact on facilitating trauma memories and may contribute to TBI-PTSD comorbidity.
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- 2019
16. Bridging the gap: Mechanisms of plasticity and repair after pediatric TBI.
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Sta Maria, Naomi S, Sargolzaei, Saman, Prins, Mayumi L, Dennis, Emily L, Asarnow, Robert F, Hovda, David A, Harris, Neil G, and Giza, Christopher C
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Humans ,Recovery of Function ,Nerve Regeneration ,Neuronal Plasticity ,Child ,Child ,Preschool ,Infant ,Infant ,Newborn ,Brain Injuries ,Traumatic ,Development ,Pediatric TBI ,Plasticity ,Traumatic brain injury ,Traumatic Brain Injury (TBI) ,Pediatric ,Physical Injury - Accidents and Adverse Effects ,Neurosciences ,Traumatic Head and Spine Injury ,Rehabilitation ,Brain Disorders ,Unintentional Childhood Injury ,Neurological ,Clinical Sciences ,Psychology ,Neurology & Neurosurgery - Abstract
Traumatic brain injury is the leading cause of death and disability in the United States, and may be associated with long lasting impairments into adulthood. The multitude of ongoing neurobiological processes that occur during brain maturation confer both considerable vulnerability to TBI but may also provide adaptability and potential for recovery. This review will examine and synthesize our current understanding of developmental neurobiology in the context of pediatric TBI. Delineating this biology will facilitate more targeted initial care, mechanism-based therapeutic interventions and better long-term prognostication and follow-up.
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- 2019
17. Concussion Pathophysiology and Injury Biomechanics
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Romeu-Mejia, Rafael, Giza, Christopher C, and Goldman, Joshua T
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Biomedical and Clinical Sciences ,Health Sciences ,Sports Science and Exercise ,Traumatic Brain Injury (TBI) ,Physical Injury - Accidents and Adverse Effects ,Brain Disorders ,Neurosciences ,Traumatic Head and Spine Injury ,Bioengineering ,Clinical Research ,2.1 Biological and endogenous factors ,Aetiology ,Concussion pathophysiology ,Mild traumatic brain injury ,Neurometabolic cascade ,Biomechanical impact ,Concussion threshold ,Linear-rotational acceleration - Abstract
PURPOSE OF REVIEW:The concussion public health burden has increased alongside our knowledge of the pathophysiology of mild traumatic brain injury (mTBI). The purpose of this review is to summarize our current understanding of mTBI pathophysiology and biomechanics and how these underlying principles correlate with clinical manifestations of mTBI. RECENT FINDINGS:Changes in post-mTBI glutamate and GABA concentrations seem to be region-specific and time-dependent. Genetic variability may predict recovery and symptom severity while gender differences appear to be associated with the neuroinflammatory response and neuroplasticity. Ongoing biomechanical research has shown a growing body of evidence in support of an "individual-specific threshold" for mTBI that varies based on individual intrinsic factors. The literature demonstrates a well-characterized timeframe for mTBI pathophysiologic changes in animal models while work in this area continues to grow in humans. Current human research shows that these underlying post-mTBI effects are multifactorial and may correlate with symptomatology and recovery. While wearable sensor technology has advanced biomechanical impact research, a definitive concussion threshold remains elusive.
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- 2019
18. Prevalence of Potentially Clinically Significant Magnetic Resonance Imaging Findings in Athletes with and without Sport-Related Concussion
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Klein, Andrew P, Tetzlaff, Julie E, Bonis, Joshua M, Nelson, Lindsay D, Mayer, Andrew R, Huber, Daniel L, Harezlak, Jaroslaw, Mathews, Vincent P, Ulmer, John L, Sinson, Grant P, Nencka, Andrew S, Koch, Kevin M, Wu, Yu-Chien, Saykin, Andrew J, DiFiori, John P, Giza, Christopher C, Goldman, Joshua, Guskiewicz, Kevin M, Mihalik, Jason P, Duma, Stefan M, Rowson, Steven, Brooks, Alison, Broglio, Steven P, McAllister, Thomas, McCrea, Michael A, and Meier, Timothy B
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Biomedical and Clinical Sciences ,Clinical Sciences ,Physical Injury - Accidents and Adverse Effects ,Neurosciences ,Traumatic Head and Spine Injury ,Brain Disorders ,Clinical Research ,Traumatic Brain Injury (TBI) ,Biomedical Imaging ,Detection ,screening and diagnosis ,4.2 Evaluation of markers and technologies ,Injuries and accidents ,Athletes ,Athletic Injuries ,Brain ,Brain Concussion ,Female ,Humans ,Magnetic Resonance Imaging ,Male ,Prevalence ,Young Adult ,concussion ,MRI ,mTBI ,sport ,white matter hyperintensity ,Neurology & Neurosurgery ,Clinical sciences ,Biological psychology - Abstract
Previous studies have shown that mild traumatic brain injury (mTBI) can cause abnormalities in clinically relevant magnetic resonance imaging (MRI) sequences. No large-scale study, however, has prospectively assessed this in athletes with sport-related concussion (SRC). The aim of the current study was to characterize and compare the prevalence of acute, trauma-related MRI findings and clinically significant, non-specific MRI findings in athletes with and without SRC. College and high-school athletes were prospectively enrolled and participated in scanning sessions between January 2015 through August 2017. Concussed contact sport athletes (n = 138; 14 female [F]; 19.5 ± 1.6 years) completed up to four scanning sessions after SRC. Non-concussed contact (n = 135; 15 F; 19.7 ± 1.6) and non-contact athletes (n = 96; 15 F; 20.0 ± 1.7) completed similar scanning sessions and served as controls. Board-certified neuroradiologists, blinded to SRC status, reviewed T1-weighted and T2-weighted fluid-attenuated inversion recovery and T2*-weighted and T2-weighted images for acute (i.e., injury-related) or non-acute findings that prompted recommendation for clinical follow-up. Concussed athletes were more likely to have MRI findings relative to contact (30.4% vs. 15.6%; odds ratio [OR] = 2.32; p = 0.01) and non-contact control athletes (19.8%; OR = 2.11; p = 0.04). Female athletes were more likely to have MRI findings than males (43.2% vs. 19.4%; OR = 2.62; p = 0.01). One athlete with SRC had an acute, injury-related finding; group differences were largely driven by increased rate of non-specific white matter hyperintensities in concussed athletes. This prospective, large-scale study demonstrates that
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- 2019
19. Neuroimaging of the Injured Pediatric Brain: Methods and New Lessons
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Dennis, Emily L, Babikian, Talin, Giza, Christopher C, Thompson, Paul M, and Asarnow, Robert F
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Biomedical and Clinical Sciences ,Clinical Sciences ,Biomedical Imaging ,Childhood Injury ,Traumatic Brain Injury (TBI) ,Traumatic Head and Spine Injury ,Physical Injury - Accidents and Adverse Effects ,Behavioral and Social Science ,Brain Disorders ,Bioengineering ,Neurosciences ,Pediatric ,Clinical Research ,Unintentional Childhood Injury ,4.1 Discovery and preclinical testing of markers and technologies ,Detection ,screening and diagnosis ,Injuries and accidents ,Neurological ,Mental health ,Good Health and Well Being ,Adolescent ,Animals ,Brain ,Brain Injuries ,Child ,Humans ,Neuroimaging ,pediatric ,traumatic brain injury ,multimodal ,longitudinal ,brain imaging ,DTI ,MRI ,MRS ,cognitive ,fMRI ,Medical and Health Sciences ,Psychology and Cognitive Sciences ,Neurology & Neurosurgery ,Biomedical and clinical sciences ,Health sciences - Abstract
Traumatic brain injury (TBI) is a significant public health problem in the United States, especially for children and adolescents. Current epidemiological data estimate over 600,000 patients younger than 20 years are treated for TBI in emergency rooms annually. While many patients experience a full recovery, for others there can be long-lasting cognitive, neurological, psychological, and behavioral disruptions. TBI in youth can disrupt ongoing brain development and create added family stress during a formative period. The neuroimaging methods used to assess brain injury improve each year, providing researchers a more detailed characterization of the injury and recovery process. In this review, we cover current imaging methods used to quantify brain disruption post-injury, including structural magnetic resonance imaging (MRI), diffusion MRI, functional MRI, resting state fMRI, and magnetic resonance spectroscopy (MRS), with brief coverage of other methods, including electroencephalography (EEG), single-photon emission computed tomography (SPECT), and positron emission tomography (PET). We include studies focusing on pediatric moderate-severe TBI from 2 months post-injury and beyond. While the morbidity of pediatric TBI is considerable, continuing advances in imaging methods have the potential to identify new treatment targets that can lead to significant improvements in outcome.
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- 2018
20. Are EPB41 and alpha-synuclein diagnostic biomarkers of sport-related concussion?Findings from the NCAA and Department of Defense CARE Consortium
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Vorn, Rany, Devoto, Christina, Meier, Timothy B., Lai, Chen, Yun, Sijung, Broglio, Steven P., Mithani, Sara, McAllister, Thomas W., Giza, Christopher C., Kim, Hyung-Suk, Huber, Daniel, Harezlak, Jaroslaw, Cameron, Kenneth L., McGinty, Gerald, Jackson, Jonathan, Guskiewicz, Kevin M., Mihalik, Jason P., Brooks, Alison, Duma, Stefan, Rowson, Steven, Nelson, Lindsay D., Pasquina, Paul, McCrea, Michael A., and Gill, Jessica M.
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- 2022
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21. Magnetic resonance spectroscopy of fiber tracts in children with traumatic brain injury: A combined MRS – Diffusion MRI study
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Dennis, Emily L, Babikian, Talin, Alger, Jeffry, Rashid, Faisal, Villalon‐Reina, Julio E, Jin, Yan, Olsen, Alexander, Mink, Richard, Babbitt, Christopher, Johnson, Jeffrey, Giza, Christopher C, Thompson, Paul M, and Asarnow, Robert F
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Biomedical and Clinical Sciences ,Clinical Sciences ,Physical Injury - Accidents and Adverse Effects ,Neurosciences ,Clinical Research ,Brain Disorders ,Biomedical Imaging ,Traumatic Head and Spine Injury ,Traumatic Brain Injury (TBI) ,Pediatric ,Aetiology ,2.1 Biological and endogenous factors ,Neurological ,Adolescent ,Anisotropy ,Aspartic Acid ,Brain Damage ,Chronic ,Brain Injuries ,Traumatic ,Child ,Choline ,Cognition Disorders ,Demyelinating Diseases ,Diffusion Magnetic Resonance Imaging ,Female ,Humans ,Magnetic Resonance Spectroscopy ,Male ,Multimodal Imaging ,Neuroimaging ,White Matter ,diffusion MRI ,longitudinal ,MRS ,pediatric ,traumatic brain injury ,Cognitive Sciences ,Experimental Psychology ,Biological psychology ,Cognitive and computational psychology - Abstract
Traumatic brain injury can cause extensive damage to the white matter (WM) of the brain. These disruptions can be especially damaging in children, whose brains are still maturing. Diffusion magnetic resonance imaging (dMRI) is the most commonly used method to assess WM organization, but it has limited resolution to differentiate causes of WM disruption. Magnetic resonance spectroscopy (MRS) yields spectra showing the levels of neurometabolites that can indicate neuronal/axonal health, inflammation, membrane proliferation/turnover, and other cellular processes that are on-going post-injury. Previous analyses on this dataset revealed a significant division within the msTBI patient group, based on interhemispheric transfer time (IHTT); one subgroup of patients (TBI-normal) showed evidence of recovery over time, while the other showed continuing degeneration (TBI-slow). We combined dMRI with MRS to better understand WM disruptions in children with moderate-severe traumatic brain injury (msTBI). Tracts with poorer WM organization, as shown by lower FA and higher MD and RD, also showed lower N-acetylaspartate (NAA), a marker of neuronal and axonal health and myelination. We did not find lower NAA in tracts with normal WM organization. Choline, a marker of inflammation, membrane turnover, or gliosis, did not show such associations. We further show that multi-modal imaging can improve outcome prediction over a single modality, as well as over earlier cognitive function measures. Our results suggest that demyelination plays an important role in WM disruption post-injury in a subgroup of msTBI children and indicate the utility of multi-modal imaging.
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- 2018
22. Whole Brain Magnetic Resonance Spectroscopic Determinants of Functional Outcomes in Pediatric Moderate/Severe Traumatic Brain Injury.
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Babikian, Talin, Alger, Jeffry R, Ellis-Blied, Monica U, Giza, Christopher C, Dennis, Emily, Olsen, Alexander, Mink, Richard, Babbitt, Christopher, Johnson, Jeff, Thompson, Paul M, and Asarnow, Robert F
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Humans ,Diffuse Axonal Injury ,Magnetic Resonance Spectroscopy ,Recovery of Function ,Adolescent ,Child ,Female ,Male ,Brain Injuries ,Traumatic ,MK spectroscopy ,cognition ,neuropsychology ,pediatric brain injury ,Neurosciences ,Biomedical Imaging ,Brain Disorders ,Clinical Research ,Pediatric ,Traumatic Head and Spine Injury ,Physical Injury - Accidents and Adverse Effects ,Traumatic Brain Injury (TBI) ,Neurological ,Clinical Sciences ,Neurology & Neurosurgery - Abstract
Diffuse axonal injury contributes to the long-term functional morbidity observed after pediatric moderate/severe traumatic brain injury (msTBI). Whole-brain proton magnetic resonance echo-planar spectroscopic imaging was used to measure the neurometabolite levels in the brain to delineate the course of disruption/repair during the first year post-msTBI. The association between metabolite biomarkers and functional measures (cognitive functioning and corpus callosum [CC] function assessed by interhemispheric transfer time [IHTT] using an event related potential paradigm) was also explored. Pediatric patients with msTBI underwent assessments at two times (post-acutely at a mean of three months post-injury, n = 31, and chronically at a mean of 16 months post-injury, n = 24). Healthy controls also underwent two evaluations, approximately 12 months apart. Post-acutely, in patients with msTBI, there were elevations in choline (Cho; marker for inflammation and/or altered membrane metabolism) in all four brain lobes and the CC and decreases in N-acetylaspartate (NAA; marker for neuronal and axonal integrity) in the CC compared with controls, all of which normalized by the chronic time point. Subgroups of TBI showed variable patterns chronically. Patients with slow IHTT had lower lobar Cho chronically than those with normal IHTT; they also did not show normalization in CC NAA whereas those with normal IHTT showed significantly higher levels of CC NAA relative to controls. In the normal IHTT group only, chronic CC Cho and NAA together explained 70% of the variance in long-term cognitive functioning. MR based whole brain metabolic evaluations show different patterns of neurochemistry after msTBI in two subgroups with different outcomes. There is a dynamic relationship between prolonged inflammatory responses to brain damage, reparative processes/remyelination, and subsequent neurobehavioral outcomes. Multimodal studies allow us to test hypotheses about degenerative and reparative processes in patient groups that have divergent functional outcome, with the ultimate goal of developing targeted therapeutic agents.
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- 2018
23. FDDNP-PET Tau Brain Protein Binding Patterns in Military Personnel with Suspected Chronic Traumatic Encephalopathy
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Chen, Stephen T, Siddarth, Prabha, Merrill, David A, Martinez, Jacqueline, Emerson, Natacha D, Liu, Jie, Wong, Koon-Pong, Satyamurthy, Nagichettiar, Giza, Christopher C, Huang, Sung-Cheng, Fitzsimmons, Robert P, Bailes, Julian, Omalu, Bennet, Barrio, Jorge R, and Small, Gary W
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Biological Psychology ,Biomedical and Clinical Sciences ,Psychology ,Physical Injury - Accidents and Adverse Effects ,Acquired Cognitive Impairment ,Alzheimer's Disease ,Dementia ,Neurodegenerative ,Traumatic Brain Injury (TBI) ,Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD) ,Traumatic Head and Spine Injury ,Neurosciences ,Brain Disorders ,Biomedical Imaging ,Aging ,Clinical Research ,Neurological ,Aged ,Alzheimer Disease ,Athletic Injuries ,Brain ,Chronic Traumatic Encephalopathy ,Cognition Disorders ,Humans ,Magnetic Resonance Imaging ,Male ,Middle Aged ,Military Personnel ,Nitriles ,Positron-Emission Tomography ,Protein Binding ,Statistics ,Nonparametric ,United States ,tau Proteins ,Alzheimer's disease ,brain tau and amyloid ,chronic traumatic encephalopathy ,FDDNP-PET ,mild traumatic brain injury ,military personnel ,retired professional football players ,Alzheimer’s disease ,Clinical Sciences ,Cognitive Sciences ,Neurology & Neurosurgery ,Clinical sciences ,Biological psychology - Abstract
BackgroundOur group has shown that in vivo tau brain binding patterns from FDDNP-PET scans in retired professional football players with suspected chronic traumatic encephalopathy differ from those of tau and amyloid aggregate binding observed in Alzheimer's disease (AD) patients and cognitively-intact controls.ObjectiveTo compare these findings with those from military personnel with histories of mild traumatic brain injury(mTBI).MethodsFDDNP-PET brain scans were compared among 7 military personnel and 15 retired players with mTBI histories and cognitive and/or mood symptoms, 24 AD patients, and 28 cognitively-intact controls. Nonparametric ANCOVAs with Tukey-Kramer adjusted post-hoc comparisons were used to test for significant differences in regional FDDNP binding among subject groups.ResultsFDDNP brain binding was higher in military personnel compared to controls in the amygdala, midbrain, thalamus, pons, frontal and anterior and posterior cingulate regions (p < 0.01-0.0001). Binding patterns in the military personnel were similar to those of the players except for the amygdala and striatum (binding higher in players; p = 0.02-0.003). Compared with the AD group, the military personnel showed higher binding in the midbrain (p = 0.0008) and pons (p = 0.002) and lower binding in the medial temporal, lateral temporal, and parietal regions (all p = 0.02).ConclusionThis first study of in vivo tau and amyloid brain signals in military personnel with histories of mTBI shows binding patterns similar to those of retired football players and distinct from the binding patterns in AD and normal aging, suggesting the potential value of FDDNP-PET for early detection and treatment monitoring in varied at-risk populations.
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- 2018
24. Diffusion MRI in pediatric brain injury
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Dennis, Emily L, Babikian, Talin, Giza, Christopher C, Thompson, Paul M, and Asarnow, Robert F
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Biomedical and Clinical Sciences ,Neurosciences ,Clinical Sciences ,Brain Disorders ,Childhood Injury ,Traumatic Head and Spine Injury ,Traumatic Brain Injury (TBI) ,Unintentional Childhood Injury ,Pediatric ,Physical Injury - Accidents and Adverse Effects ,Biomedical Imaging ,6.6 Psychological and behavioural ,Evaluation of treatments and therapeutic interventions ,Injuries and accidents ,Good Health and Well Being ,Brain Injuries ,Child ,Child ,Preschool ,Diffusion Magnetic Resonance Imaging ,Humans ,Image Processing ,Computer-Assisted ,Pediatrics ,Traumatic brain injury ,Diffusion MRI ,Diffuse axonal injury ,Concussion ,Neurology & Neurosurgery ,Clinical sciences - Abstract
Traumatic brain injury (TBI) is a major public health issue around the world and can be especially devastating in children as TBI can derail cognitive and social development. White matter (WM) is particularly vulnerable to disruption post-TBI, as myelination is ongoing during this period. Diffusion magnetic resonance imaging (dMRI) is a versatile modality for identifying and quantifying WM disruption and can detect diffuse axonal injury (DAI or TAI (traumatic axonal injury)). This review covers dMRI studies of pediatric TBI, including mild to severe injuries, and covering all periods post-injury. While there have been considerable advances in our understanding of pediatric TBI through the use of dMRI, there are still large gaps in our knowledge, which will be filled in by larger studies and more longitudinal studies. Heterogeneity post-injury is an obstacle in all TBI studies, but we expect that larger better-characterized samples will aid in identifying clinically meaningful subgroups within the pediatric TBI patient population.
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- 2017
25. D-Cycloserine Restores Experience-Dependent Neuroplasticity after Traumatic Brain Injury in the Developing Rat Brain
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Maria, Naomi S Sta, Reger, Maxine L, Cai, Yan, Baquing, Mary Anne T, Buen, Floyd, Ponnaluri, Aditya, Hovda, David A, Harris, Neil G, and Giza, Christopher C
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Brain Disorders ,Behavioral and Social Science ,Neurosciences ,Traumatic Brain Injury (TBI) ,Physical Injury - Accidents and Adverse Effects ,Pediatric ,Traumatic Head and Spine Injury ,Mental health ,Animals ,Brain Injuries ,Traumatic ,Combined Modality Therapy ,Cycloserine ,Disease Models ,Animal ,Environment ,Excitatory Amino Acid Agonists ,Male ,Neurological Rehabilitation ,Neuronal Plasticity ,Rats ,Rats ,Sprague-Dawley ,Receptors ,AMPA ,Receptors ,N-Methyl-D-Aspartate ,behavioral assessments ,learning and memory ,neuroplasticity ,receptors ,TBI ,Clinical Sciences ,Neurology & Neurosurgery - Abstract
Traumatic brain injury (TBI) in children can cause persisting cognitive and behavioral dysfunction, and inevitably raises concerns about lost potential in these injured youth. Lateral fluid percussion injury (FPI) in weanling rats pathologically affects hippocampal N-methyl-d-aspartate receptor (NMDAR)- and α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor (AMPAR)-mediated glutamatergic neurotransmission subacutely within the first post-injury week. FPI to weanling rats has also been shown to impair enriched-environment (EE) induced enhancement of Morris water maze (MWM) learning and memory in adulthood. Recently, improved outcomes can be achieved using agents that enhance NMDAR function. We hypothesized that administering D-cycloserine (DCS), an NMDAR co-agonist, every 12 h (i.p.) would restore subacute glutamatergic neurotransmission and reinstate experience-dependent plasticity. Postnatal day 19 (P19) rats received either a sham or FPI. On post-injury day (PID) 1-3, animals were randomized to saline (Sal) or DCS. Firstly, immunoblotting of hippocampal NMDAR and AMPAR proteins were measured on PID4. Second, PID4 novel object recognition, an NMDAR- and hippocampal- mediated working memory task, was assessed. Third, P19 rats were placed in an EE (17 days), and MWM performance was measured, starting on PID30. On PID4, DCS restored reduced NR2A and increased GluR2 by 54%, and also restored diminished recognition memory in FPI pups. EE significantly improved MWM performance in shams, regardless of treatment. In contrast, FPI-EE-Sal animals only performed to the level of standard housed animals, whereas FPI-EE-DCS animals were comparable with sham-EE counterparts. This study shows that NMDAR agonist use during reduced glutamatergic transmission after developmental TBI can reinstate early molecular and behavioral responses that subsequently manifest in experience-dependent plasticity and rescued potential.
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- 2017
26. Diverging white matter trajectories in children after traumatic brain injury
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Dennis, Emily L, Rashid, Faisal, Ellis, Monica U, Babikian, Talin, Vlasova, Roza M, Villalon-Reina, Julio E, Jin, Yan, Olsen, Alexander, Mink, Richard, Babbitt, Christopher, Johnson, Jeffrey, Giza, Christopher C, Thompson, Paul M, and Asarnow, Robert F
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Pediatric ,Traumatic Head and Spine Injury ,Clinical Research ,Brain Disorders ,Biomedical Imaging ,Traumatic Brain Injury (TBI) ,Physical Injury - Accidents and Adverse Effects ,Neurosciences ,Adolescent ,Brain Injuries ,Traumatic ,Case-Control Studies ,Child ,Cognition Disorders ,Corpus Callosum ,Diffusion Tensor Imaging ,Electroencephalography ,Evoked Potentials ,Female ,Glasgow Coma Scale ,Humans ,Longitudinal Studies ,Male ,Neuropsychological Tests ,White Matter ,Young Adult ,Clinical Sciences ,Cognitive Sciences ,Neurology & Neurosurgery - Abstract
ObjectiveTo examine longitudinal trajectories of white matter organization in pediatric moderate/severe traumatic brain injury (msTBI) over a 12-month period.MethodsWe studied 21 children (16 M/5 F) with msTBI, assessed 2-5 months postinjury and again 13-19 months postinjury, as well as 20 well-matched healthy control children. We assessed corpus callosum function through interhemispheric transfer time (IHTT), measured using event-related potentials, and related this to diffusion-weighted MRI measures of white matter (WM) microstructure. At the first time point, half of the patients with TBI had significantly slower IHTT (TBI-slow-IHTT, n = 11) and half were in the normal range (TBI-normal-IHTT, n = 10).ResultsThe TBI-normal-IHTT group did not differ significantly from healthy controls, either in WM organization in the chronic phase or in the longitudinal trajectory of WM organization between the 2 evaluations. In contrast, the WM organization of the TBI-slow-IHTT group was significantly lower than in healthy controls across a large portion of the WM. Longitudinal analyses showed that the TBI-slow-IHTT group experienced a progressive decline between the 2 evaluations in WM organization throughout the brain.ConclusionsWe present preliminary evidence suggesting a potential biomarker that identifies a subset of patients with impaired callosal organization in the first months postinjury who subsequently experience widespread continuing and progressive degeneration in the first year postinjury.
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- 2017
27. Diverging volumetric trajectories following pediatric traumatic brain injury.
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Dennis, Emily L, Faskowitz, Joshua, Rashid, Faisal, Babikian, Talin, Mink, Richard, Babbitt, Christopher, Johnson, Jeffrey, Giza, Christopher C, Jahanshad, Neda, Thompson, Paul M, and Asarnow, Robert F
- Subjects
Hypothalamus ,Corpus Callosum ,Humans ,Atrophy ,Disease Progression ,Magnetic Resonance Imaging ,Follow-Up Studies ,Adolescent ,Child ,Female ,Male ,White Matter ,Brain Injuries ,Traumatic ,Longitudinal ,Pediatric ,Tensor-based morphometry ,Traumatic brain injury ,Clinical Research ,Behavioral and Social Science ,Neurosciences ,Rehabilitation ,Traumatic Brain Injury (TBI) ,Traumatic Head and Spine Injury ,Physical Injury - Accidents and Adverse Effects ,Childhood Injury ,Brain Disorders ,Unintentional Childhood Injury ,Injuries and accidents ,Mental health - Abstract
Traumatic brain injury (TBI) is a significant public health concern, and can be especially disruptive in children, derailing on-going neuronal maturation in periods critical for cognitive development. There is considerable heterogeneity in post-injury outcomes, only partially explained by injury severity. Understanding the time course of recovery, and what factors may delay or promote recovery, will aid clinicians in decision-making and provide avenues for future mechanism-based therapeutics. We examined regional changes in brain volume in a pediatric/adolescent moderate-severe TBI (msTBI) cohort, assessed at two time points. Children were first assessed 2-5 months post-injury, and again 12 months later. We used tensor-based morphometry (TBM) to localize longitudinal volume expansion and reduction. We studied 21 msTBI patients (5 F, 8-18 years old) and 26 well-matched healthy control children, also assessed twice over the same interval. In a prior paper, we identified a subgroup of msTBI patients, based on interhemispheric transfer time (IHTT), with significant structural disruption of the white matter (WM) at 2-5 months post injury. We investigated how this subgroup (TBI-slow, N = 11) differed in longitudinal regional volume changes from msTBI patients (TBI-normal, N = 10) with normal WM structure and function. The TBI-slow group had longitudinal decreases in brain volume in several WM clusters, including the corpus callosum and hypothalamus, while the TBI-normal group showed increased volume in WM areas. Our results show prolonged atrophy of the WM over the first 18 months post-injury in the TBI-slow group. The TBI-normal group shows a different pattern that could indicate a return to a healthy trajectory.
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- 2017
28. A Network Approach to Examining Injury Severity in Pediatric TBI
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Dennis, Emily L, Rashid, Faisal, Jahanshad, Neda, Babikian, Talin, Mink, Richard, Babbitt, Christopher, Johnson, Jeffrey, Giza, Christopher C, Asarnow, Robert F, and Thompson, Paul M
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Clinical and Health Psychology ,Psychology ,Unintentional Childhood Injury ,Traumatic Head and Spine Injury ,Clinical Research ,Epilepsy ,Physical Injury - Accidents and Adverse Effects ,Neurosciences ,Pediatric ,Brain Disorders ,Neurodegenerative ,Traumatic Brain Injury (TBI) ,Childhood Injury ,Mental health ,Injuries and accidents ,Neurological ,traumatic brain injury ,early post-traumatic seizure ,graph theory ,diffusion MRI - Abstract
Traumatic brain injury (TBI) is the leading cause of death and disability in children, and can lead to long lasting functional impairment. Many factors influence outcome, but imaging studies examining effects of individual variables are limited by sample size. Roughly 20-40% of hospitalized TBI patients experience seizures, but not all of these patients go on to develop a recurrent seizure disorder. Here we examined differences in structural network connectivity in pediatric patients who had sustained a moderate-severe TBI (msTBI). We compared those who experienced early post-traumatic seizures to those who did not; we found network differences months after seizure activity stopped. We also examined correlations between network measures and a common measure of injury severity, the Glasgow Coma Scale (GCS). The global GCS score did not have a detectable relationship to brain integrity, but sub-scores of the GCS (eyes, motor, verbal) were more closely related to imaging measures.
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- 2017
29. Pediatric Neurocritical Care: Special Considerations
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VIAMONTE, MANUEL A., primary, MADIKIANS, ANDRANIK, additional, and GIZA, CHRISTOPHER C., additional
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- 2021
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30. The ENIGMA sports injury working group:– an international collaboration to further our understanding of sport-related brain injury
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Koerte, Inga K., Esopenko, Carrie, Hinds, II, Sidney R., Shenton, Martha E., Bonke, Elena M., Bazarian, Jeffrey J., Bickart, Kevin C., Bigler, Erin D., Bouix, Sylvain, Buckley, Thomas A., Choe, Meeryo C., Echlin, Paul S., Gill, Jessica, Giza, Christopher C., Hayes, Jasmeet, Hodges, Cooper B., Irimia, Andrei, Johnson, Paula K., Kenney, Kimbra, Levin, Harvey S., Lin, Alexander P., Lindsey, Hannah M., Lipton, Michael L., Max, Jeffrey E., Mayer, Andrew R., Meier, Timothy B., Merchant-Borna, Kian, Merkley, Tricia L., Mills, Brian D., Newsome, Mary R., Porfido, Tara, Stephens, Jaclyn A., Tartaglia, Maria Carmela, Ware, Ashley L., Zafonte, Ross D., Zeineh, Michael M., Thompson, Paul M., Tate, David F., Dennis, Emily L., Wilde, Elisabeth A., and Baron, David
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- 2021
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31. Survey of Pediatric ICU EEG Monitoring–Reassessment After a Decade.
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Fung, France W., Carpenter, Jessica L., Chapman, Kevin E., Gallentine, William, Giza, Christopher C., Goldstein, Joshua L., Hahn, Cecil D., Loddenkemper, Tobias, Matsumoto, Joyce H., Press, Craig A., Riviello Jr, James J., and Abend, Nicholas S.
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- 2024
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32. Multi-modal Registration Improves Group Discrimination in Pediatric Traumatic Brain Injury.
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Dennis, Emily L, Rashid, Faisal, Villalon-Reina, Julio, Prasad, Gautam, Faskowitz, Joshua, Babikian, Talin, Mink, Richard, Babbitt, Christopher, Johnson, Jeffrey, Giza, Christopher C, Asarnow, Robert F, and Thompson, Paul M
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Traumatic Brain Injury (TBI) ,Neurosciences ,Physical Injury - Accidents and Adverse Effects ,Biomedical Imaging ,Traumatic Head and Spine Injury ,Brain Disorders ,Artificial Intelligence & Image Processing - Abstract
Traumatic brain injury (TBI) can disrupt the white matter (WM) integrity in the brain, leading to functional and cognitive disruptions that may persist for years. There is considerable heterogeneity within the patient group, which complicates group analyses. Here we present improvements to a tract identification workflow, automated multi-atlas tract extraction (autoMATE), evaluating the effects of improved registration. Use of study-specific template improved group classification accuracy over the standard workflow. The addition of a multi-modal registration that includes information from diffusion weighted imaging (DWI), T1-weighted, and Fluid-Attenuated Inversion Recovery (FLAIR) further improved classification accuracy. We also examined whether particular tracts contribute more to group classification than others. Parts of the corpus callosum contributed most, and there were unexpected asymmetries between bilateral tracts.
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- 2016
33. Concussion—Mild Traumatic Brain Injury Recoverable Injury with Potential for Serious Sequelae
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Kamins, Joshua and Giza, Christopher C
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Allied Health and Rehabilitation Science ,Biomedical and Clinical Sciences ,Health Sciences ,Traumatic Brain Injury (TBI) ,Physical Injury - Accidents and Adverse Effects ,Traumatic Head and Spine Injury ,Brain Disorders ,Clinical Research ,Neurosciences ,Aetiology ,2.1 Biological and endogenous factors ,Neurological ,Injuries and accidents ,Brain Concussion ,Brain Injuries ,Traumatic ,Cognition ,Humans ,Motor Skills ,Risk Factors ,Severity of Illness Index ,Concussion ,Mild TBI ,Sequalae of concussion ,Neurology & Neurosurgery - Abstract
Concussion is increasingly recognized as a major public health issue. Most patients will return to baseline and experience full recovery, although a subset experiences persistent symptoms. Newer animal models and imaging studies are beginning to demonstrate that metabolic and neurovascular resolution may actually take longer than symptomatic recovery. Repeat traumatic brain injury within the metabolic window of dysfunction may result in worsened symptoms and prolonged recovery. The true risk for second impact syndrome appears to be small, and development of cerebral edema after a mild impact may be related to genetic risks rather than serial impacts.
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- 2016
34. The progression of electrophysiologic abnormalities during epileptogenesis after experimental traumatic brain injury.
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Reid, Aylin Y, Bragin, Anatol, Giza, Christopher C, Staba, Richard J, and Engel, Jerome
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Animals ,Rats ,Rats ,Sprague-Dawley ,Epilepsy ,Post-Traumatic ,Disease Models ,Animal ,Disease Progression ,Electroencephalography ,Percussion ,Brain Mapping ,Electrodes ,Implanted ,Video Recording ,Male ,Functional Laterality ,Brain Waves ,Brain Injuries ,Traumatic ,Biomarker ,Lateral fluid percussion injury ,Posttraumatic epilepsy ,Seizure ,Neurodegenerative ,Injury - Traumatic brain injury ,Neurosciences ,Epilepsy ,Brain Disorders ,Injury - Trauma - (Head and Spine) ,Injury (total) Accidents/Adverse Effects ,4.1 Discovery and preclinical testing of markers and technologies ,Detection ,screening and diagnosis ,Aetiology ,2.1 Biological and endogenous factors ,Neurological ,Clinical Sciences ,Neurology & Neurosurgery - Abstract
ObjectivePosttraumatic epilepsy (PTE) accounts for 20% of acquired epilepsies. Experimental models are important for studying epileptogenesis. We previously reported that repetitive high-frequency oscillations with spikes (rHFOSs) occur early after lateral fluid percussion injury (FPI) and may be a biomarker for PTE. The objective of this study was to use multiple electrodes in rat hippocampal and neocortical regions to describe the long-term electroencephalographic and behavioral evolution of rHFOSs and epileptic seizures after traumatic brain injury (TBI).MethodsAdult male rats underwent mild, moderate, or severe FPI or sham injury followed by video-electroencephalography (EEG) recordings with a combination of 16 neocortical and hippocampal electrodes at an early, intermediate, or late time-point after injury, up to 52 weeks. Recordings were analyzed for the presence of rHFOSs and seizures.ResultsAnalysis was done on 28 rats with FPI and 7 shams. Perilesional rHFOSs were recorded in significantly more rats after severe (70.3%) than mild (20%) injury or shams (14.3%). Frequency of occurrence was significantly highest in the early (10.8/h) versus late group (3.2/h). Late focal seizures originating from the same electrodes were recorded in significantly more rats in the late (87.5%) versus early period (22.2%), occurring almost exclusively in injured rats. Seizure duration increased significantly over time, averaging 19 s at the beginning of the early period and 27 s at the end of the late period. Seizure frequency also increased significantly over time, from 4.4 per week in the early group to 26.4 per week in the late group. Rarely, rats displayed early seizures or generalized seizures.SignificanceFPI results in early rHFOSs and later spontaneous focal seizures arising from peri-lesional neocortex, supporting its use as a model for PTE. Epilepsy severity increased over time and was related to injury severity. The association between early rHFOSs and later focal seizures suggests that rHFOSs may be a potential noninvasive biomarker of PTE.
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- 2016
35. Guideline Adherence and Hospital Costs in Pediatric Severe Traumatic Brain Injury*
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Graves, Janessa M, Kannan, Nithya, Mink, Richard B, Wainwright, Mark S, Groner, Jonathan I, Bell, Michael J, Giza, Christopher C, Zatzick, Douglas F, Ellenbogen, Richard G, Boyle, Linda Ng, Mitchell, Pamela H, Rivara, Frederick P, Wang, Jin, Rowhani-Rahbar, Ali, and Vavilala, Monica S
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Health Services and Systems ,Biomedical and Clinical Sciences ,Health Sciences ,Patient Safety ,Brain Disorders ,Traumatic Brain Injury (TBI) ,Traumatic Head and Spine Injury ,Health Services ,Neurosciences ,Pediatric ,Physical Injury - Accidents and Adverse Effects ,Clinical Research ,Injuries and accidents ,Good Health and Well Being ,Adolescent ,Brain Injuries ,Traumatic ,Child ,Child ,Preschool ,Female ,Guideline Adherence ,Hospital Costs ,Humans ,Infant ,Infant ,Newborn ,Linear Models ,Male ,Practice Guidelines as Topic ,Practice Patterns ,Physicians' ,Retrospective Studies ,United States ,brain injuries ,costs and cost analysis ,injuries ,pediatrics ,quality of healthcare ,Pediatric Guideline Adherence and Outcomes Study ,Nursing ,Paediatrics and Reproductive Medicine ,Pediatrics ,Clinical sciences ,Paediatrics - Abstract
ObjectivesAdherence to pediatric traumatic brain injury guidelines has been associated with improved survival and better functional outcome. However, the relationship between guideline adherence and hospitalization costs has not been examined. To evaluate the relationship between adherence to pediatric severe traumatic brain injury guidelines, measured by acute care clinical indicators, and the total costs of hospitalization associated with severe traumatic brain injury.DesignRetrospective cohort study.SettingFive regional pediatric trauma centers affiliated with academic medical centers.PatientsDemographic, injury, treatment, and charge data were included for pediatric patients (17 yr) with severe traumatic brain injury.InterventionsPercent adherence to clinical indicators was determined for each patient. Cost-to-charge ratios were used to estimate ICU and total hospital costs for each patient. Generalized linear models evaluated the association between healthcare costs and adherence rate.Measurements and main resultsCost data for 235 patients were examined. Estimated mean adjusted hospital costs were $103,485 (95% CI, 98,553-108,416); adjusted ICU costs were $82,071 (95% CI, 78,559-85,582). No association was found between adherence to guidelines and total hospital or ICU costs, after adjusting for patient and injury characteristics. Adjusted regression model results provided cost ratio equal to 1.01 for hospital and ICU costs (95% CI, 0.99-1.03 and 0.99-1.02, respectively).ConclusionsAdherence to severe pediatric traumatic brain injury guidelines at these five leading pediatric trauma centers was not associated with increased hospitalization and ICU costs. Therefore, cost should not be a factor as institutions and providers strive to provide evidence-based guideline driven care of children with severe traumatic brain injury.
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- 2016
36. Pediatric Sport-Related Concussion: Recommendations From the Amsterdam Consensus Statement 2023
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Davis, Gavin A., primary, Schneider, Kathryn J., additional, Anderson, Vicki, additional, Babl, Franz E., additional, Barlow, Karen M., additional, Blauwet, Cheri A., additional, Bressan, Silvia, additional, Broglio, Steven P., additional, Emery, Carolyn A., additional, Echemendia, Ruben J., additional, Gagnon, Isabelle, additional, Gioia, Gerard A., additional, Giza, Christopher C., additional, Leddy, John J., additional, Master, Christina L., additional, McCrea, Michael, additional, McNamee, Michael J., additional, Meehan, William P., additional, Purcell, Laura, additional, Putukian, Margot, additional, Moser, Rosemarie Scolaro, additional, Takagi, Michael, additional, Yeates, Keith Owen, additional, Zemek, Roger, additional, and Patricios, Jon S., additional
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- 2023
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37. Shear thinning behavior of cerebrospinal fluid with elevated protein or cellular concentration
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Hollister, John C. P., primary, Wang, Anthony C., additional, Kim, Won, additional, Giza, Christopher C., additional, Prins, Mayumi L., additional, and Kavehpour, H. Pirouz, additional
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- 2023
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38. Multimodal Analysis of Secondary Cerebellar Alterations After Pediatric Traumatic Brain Injury
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Keleher, Finian, primary, Lindsey, Hannah M., additional, Kerestes, Rebecca, additional, Amiri, Houshang, additional, Asarnow, Robert F., additional, Babikian, Talin, additional, Bartnik-Olson, Brenda, additional, Bigler, Erin D., additional, Caeyenberghs, Karen, additional, Esopenko, Carrie, additional, Ewing-Cobbs, Linda, additional, Giza, Christopher C., additional, Goodrich-Hunsaker, Naomi J., additional, Hodges, Cooper B., additional, Hoskinson, Kristen R., additional, Irimia, Andrei, additional, Königs, Marsh, additional, Max, Jeffrey E., additional, Newsome, Mary R., additional, Olsen, Alexander, additional, Ryan, Nicholas P., additional, Schmidt, Adam T., additional, Stein, Dan J., additional, Suskauer, Stacy J., additional, Ware, Ashley L., additional, Wheeler, Anne L., additional, Zielinski, Brandon A., additional, Thompson, Paul M., additional, Harding, Ian H., additional, Tate, David F., additional, Wilde, Elisabeth A., additional, and Dennis, Emily L., additional
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- 2023
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39. Found in translation: Understanding the biology and behavior of experimental traumatic brain injury
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Bondi, Corina O, Semple, Bridgette D, Noble-Haeusslein, Linda J, Osier, Nicole D, Carlson, Shaun W, Dixon, C Edward, Giza, Christopher C, and Kline, Anthony E
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Traumatic Head and Spine Injury ,Brain Disorders ,Neurosciences ,Behavioral and Social Science ,Traumatic Brain Injury (TBI) ,Physical Injury - Accidents and Adverse Effects ,Basic Behavioral and Social Science ,Injuries and accidents ,Neurological ,Animals ,Biology ,Brain Injuries ,Disease Models ,Animal ,Environment ,Humans ,Translational Research ,Biomedical ,Attentional set-shifting test ,Closed head injury ,Concussion ,Controlled cortical impact ,Environmental enrichment ,Fluid percussion ,Neurorehabilitation ,Pediatrics ,Social behavior ,Medical and Health Sciences ,Psychology and Cognitive Sciences ,Behavioral Science & Comparative Psychology - Abstract
The aim of this review is to discuss in greater detail the topics covered in the recent symposium entitled "Traumatic brain injury: laboratory and clinical perspectives," presented at the 2014 International Behavioral Neuroscience Society annual meeting. Herein, we review contemporary laboratory models of traumatic brain injury (TBI) including common assays for sensorimotor and cognitive behavior. New modalities to evaluate social behavior after injury to the developing brain, as well as the attentional set-shifting test (AST) as a measure of executive function in TBI, will be highlighted. Environmental enrichment (EE) will be discussed as a preclinical model of neurorehabilitation, and finally, an evidence-based approach to sports-related concussion will be considered. The review consists predominantly of published data, but some discussion of ongoing or future directions is provided.
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- 2015
40. Effect of Routine Sport Participation on Short-Term Clinical Neurological Outcomes: A Comparison of Non-Contact, Contact, and Collision Sport Athletes
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Eckner, James T., Wang, Jingshen, Nelson, Lindsay D., Bancroft, Richard, Pohorence, Melissa, He, Xuming, Broglio, Steven P., Giza, Christopher C., Guskiewicz, Kevin M., Kutcher, Jeffrey S., and McCrea, Michael
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- 2020
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41. Callosal Function in Pediatric Traumatic Brain Injury Linked to Disrupted White Matter Integrity
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Dennis, Emily L, Ellis, Monica U, Marion, Sarah D, Jin, Yan, Moran, Lisa, Olsen, Alexander, Kernan, Claudia, Babikian, Talin, Mink, Richard, Babbitt, Christopher, Johnson, Jeffrey, Giza, Christopher C, Thompson, Paul M, and Asarnow, Robert F
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Neurosciences ,Brain Disorders ,Unintentional Childhood Injury ,Biomedical Imaging ,Pediatric ,Traumatic Brain Injury (TBI) ,Traumatic Head and Spine Injury ,Physical Injury - Accidents and Adverse Effects ,Childhood Injury ,Clinical Research ,Adolescent ,Brain Injuries ,Case-Control Studies ,Child ,Cognition Disorders ,Corpus Callosum ,Diffusion Magnetic Resonance Imaging ,Evoked Potentials ,Female ,Functional Laterality ,Glasgow Coma Scale ,Humans ,Image Processing ,Computer-Assisted ,Intensive Care Units ,Male ,Neuropsychological Tests ,Photic Stimulation ,Tomography Scanners ,X-Ray Computed ,Transfer ,Psychology ,White Matter ,corpus callosum ,DTI ,ERP ,interhemispheric transfer time ,traumatic brain injury ,Medical and Health Sciences ,Psychology and Cognitive Sciences ,Neurology & Neurosurgery - Abstract
Traumatic brain injury (TBI) often results in traumatic axonal injury and white matter (WM) damage, particularly to the corpus callosum (CC). Damage to the CC can lead to impaired performance on neurocognitive tasks, but there is a high degree of heterogeneity in impairment following TBI. Here we examined the relation between CC microstructure and function in pediatric TBI. We used high angular resolution diffusion-weighted imaging (DWI) to evaluate the structural integrity of the CC in humans following brain injury in a sample of 32 children (23 males and 9 females) with moderate-to-severe TBI (msTBI) at 1-5 months postinjury, compared with well matched healthy control children. We assessed CC function through interhemispheric transfer time (IHTT) as measured using event-related potentials (ERPs), and related this to DWI measures of WM integrity. Finally, the relation between DWI and IHTT results was supported by additional results of neurocognitive performance assessed using a single composite performance scale. Half of the msTBI participants (16 participants) had significantly slower IHTTs than the control group. This slow IHTT group demonstrated lower CC integrity (lower fractional anisotropy and higher mean diffusivity) and poorer neurocognitive functioning than both the control group and the msTBI group with normal IHTTs. Lower fractional anisotropy-a common sign of impaired WM-and slower IHTTs also predicted poor neurocognitive function. This study reveals that there is a subset of pediatric msTBI patients during the post-acute phase of injury who have markedly impaired CC functioning and structural integrity that is associated with poor neurocognitive functioning.Significance statementTraumatic brain injury (TBI) is the primary cause of death and disability in children and adolescents. There is considerable heterogeneity in postinjury outcome, which is only partially explained by injury severity. Imaging biomarkers may help explain some of this variance, as diffusion weighted imaging is sensitive to the white matter disruption that is common after injury. The corpus callosum (CC) is one of the most commonly reported areas of disruption. In this multimodal study, we discovered a divergence within our pediatric moderate-to-severe TBI sample 1-5 months postinjury. A subset of the TBI sample showed significant impairment in CC function, which is supported by additional results showing deficits in CC structural integrity. This subset also had poorer neurocognitive functioning. Our research sheds light on postinjury heterogeneity.
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- 2015
42. Concussion Recovery Time Among High School and Collegiate Athletes: A Systematic Review and Meta-Analysis
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Williams, Richelle M, Puetz, Tim W, Giza, Christopher C, and Broglio, Steven P
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Brain Disorders ,Physical Injury - Accidents and Adverse Effects ,Pediatric ,Clinical Research ,Traumatic Head and Spine Injury ,Neurosciences ,Basic Behavioral and Social Science ,Traumatic Brain Injury (TBI) ,Behavioral and Social Science ,Adolescent ,Age Factors ,Athletic Injuries ,Brain Concussion ,Humans ,Models ,Statistical ,Neuropsychological Tests ,Recovery of Function ,Schools ,Self Report ,Students ,Young Adult ,Mechanical Engineering ,Human Movement and Sports Sciences ,Curriculum and Pedagogy ,Sport Sciences - Abstract
BackgroundConcussion diagnosis and management is made through the clinical exam using assessment tools that include self-report symptomatology, postural control, and cognitive evaluations. The specific timing of concussion resolution varies between individuals. However, despite a lack of research in concussion recovery, it is widely accepted that the majority of young adults will recover in 7-10 days, with youth athletes taking longer.ObjectivesThe purpose of this review is to directly compare the recovery duration among high school and collegiate athletes on symptom reports and cognitive assessments following concussion.Data sourcesData were collected from a literature search comprising high school or college athletes only. This included studies (n = 6) that reported symptom or cognitive performance recovery to the exact day.ResultsHigh school athletes self-reported symptom recovery at 15 days compared with 6 days in collegiate athletes. Both college and high school athletes showed cognitive recovery at similar rates of 5 and 7 days.LimitationsThis review only included articles that were directly related to concussed high school or college athletes. Additionally, athletes in the high school and college setting typically receive a battery of neurocognitive tests that may not be as sensitive or as comprehensive as a full neuropsychological exam.ConclusionThe review finds that neurocognitive recovery rates are similar among high school and college athletes, while symptom reporting shows longer recovery time points in high school than in college.Implications of key findingsAn individualized and stepwise concussion management plan is important for proper concussion recovery regardless of age.
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- 2015
43. Glutamate and GABA Imbalance Following Traumatic Brain Injury
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Guerriero, Réjean M, Giza, Christopher C, and Rotenberg, Alexander
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Neurosciences ,Physical Injury - Accidents and Adverse Effects ,Traumatic Brain Injury (TBI) ,Epilepsy ,Traumatic Head and Spine Injury ,Neurodegenerative ,Brain Disorders ,2.1 Biological and endogenous factors ,Aetiology ,Neurological ,Animals ,Brain Injuries ,Glutamic Acid ,Homeostasis ,Humans ,Receptors ,GABA ,Receptors ,Glutamate ,gamma-Aminobutyric Acid ,Posttraumatic epilepsy ,Parvalbumin interneuron ,Glutamate transporter ,NMDA receptor ,Clinical Sciences ,Neurology & Neurosurgery - Abstract
Traumatic brain injury (TBI) leads to multiple short- and long-term changes in neuronal circuits that ultimately conclude with an imbalance of cortical excitation and inhibition. Changes in neurotransmitter concentrations, receptor populations, and specific cell survival are important contributing factors. Many of these changes occur gradually, which may explain the vulnerability of the brain to multiple mild impacts, alterations in neuroplasticity, and delays in the presentation of posttraumatic epilepsy. In this review, we provide an overview of normal glutamate and GABA homeostasis and describe acute, subacute, and chronic changes that follow injury. We conclude by highlighting opportunities for therapeutic interventions in this paradigm.
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- 2015
44. In vivo characterization of chronic traumatic encephalopathy using [F-18]FDDNP PET brain imaging
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Barrio, Jorge R, Small, Gary W, Wong, Koon-Pong, Huang, Sung-Cheng, Liu, Jie, Merrill, David A, Giza, Christopher C, Fitzsimmons, Robert P, Omalu, Bennet, Bailes, Julian, and Kepe, Vladimir
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Biological Psychology ,Psychology ,Neurodegenerative ,Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD) ,Dementia ,Behavioral and Social Science ,Basic Behavioral and Social Science ,Acquired Cognitive Impairment ,Alzheimer's Disease ,Physical Injury - Accidents and Adverse Effects ,Brain Disorders ,Biomedical Imaging ,Traumatic Head and Spine Injury ,Traumatic Brain Injury (TBI) ,Neurosciences ,Aging ,Clinical Research ,Neurological ,Adult ,Aged ,Aged ,80 and over ,Alzheimer Disease ,Amygdala ,Autopsy ,Brain ,Brain Injury ,Chronic ,Case-Control Studies ,Demography ,Humans ,Male ,Mesencephalon ,Middle Aged ,Nitriles ,Positron-Emission Tomography ,traumatic brain injury ,chronic traumatic encephalopathy ,[F-18]FDDNP PET ,tau imaging ,concussions - Abstract
Chronic traumatic encephalopathy (CTE) is an acquired primary tauopathy with a variety of cognitive, behavioral, and motor symptoms linked to cumulative brain damage sustained from single, episodic, or repetitive traumatic brain injury (TBI). No definitive clinical diagnosis for this condition exists. In this work, we used [F-18]FDDNP PET to detect brain patterns of neuropathology distribution in retired professional American football players with suspected CTE (n = 14) and compared results with those of cognitively intact controls (n = 28) and patients with Alzheimer's dementia (AD) (n = 24), a disease that has been cognitively associated with CTE. [F-18]FDDNP PET imaging results in the retired players suggested the presence of neuropathological patterns consistent with models of concussion wherein brainstem white matter tracts undergo early axonal damage and cumulative axonal injuries along subcortical, limbic, and cortical brain circuitries supporting mood, emotions, and behavior. This deposition pattern is distinctively different from the progressive pattern of neuropathology [paired helical filament (PHF)-tau and amyloid-β] in AD, which typically begins in the medial temporal lobe progressing along the cortical default mode network, with no or minimal involvement of subcortical structures. This particular [F-18]FDDNP PET imaging pattern in cases of suspected CTE also is primarily consistent with PHF-tau distribution observed at autopsy in subjects with a history of mild TBI and autopsy-confirmed diagnosis of CTE.
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- 2015
45. White Matter Integrity in Traumatic Brain Injury: Effects of Permissible Fiber Turning Angle
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Dennis, Emily L, Jin, Yan, Kernan, Claudia, Babikian, Talin, Mink, Richard, Babbitt, Christopher, Johnson, Jeffrey, Giza, Christopher C, Asarnow, Robert F, and Thompson, Paul M
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Biomedical and Clinical Sciences ,Clinical Sciences ,Physical Sciences ,Physical Injury - Accidents and Adverse Effects ,Biomedical Imaging ,Traumatic Head and Spine Injury ,Brain Disorders ,Neurosciences ,Unintentional Childhood Injury ,Pediatric ,Clinical Research ,Childhood Injury ,Traumatic Brain Injury (TBI) ,High angular resolution diffusion imaging ,traumatic brain injury ,tractography ,fiber turning angle - Abstract
Traumatic brain injury (TBI) is the leading cause of death and disability in children. Diffusion weighted imaging (DWI) methods have been shown to be especially sensitive to white matter abnormalities in TBI. We used our newly developed autoMATE algorithm (automated multi-atlas tract extraction) to map altered WM integrity in TBI. Even so, tractography methods include a free parameter that limits the maximum permissible turning angles for extracted fibers, with little investigation of how this may affect statistical group comparisons. Here, we examined WM integrity calculated over a range of fiber turning angles to determine to what extent this parameter affects our ability to detect group differences. Fiber turning angle threshold has a subtle, but sometimes significant, effect on the differences we were able to detect between TBI and healthy children.
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- 2015
46. White matter disruption in moderate/severe pediatric traumatic brain injury: Advanced tract-based analyses
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Dennis, Emily L, Jin, Yan, Villalon-Reina, Julio E, Zhan, Liang, Kernan, Claudia L, Babikian, Talin, Mink, Richard B, Babbitt, Christopher J, Johnson, Jeffrey L, Giza, Christopher C, Thompson, Paul M, and Asarnow, Robert F
- Subjects
Biomedical and Clinical Sciences ,Clinical Sciences ,Childhood Injury ,Biomedical Imaging ,Rehabilitation ,Traumatic Head and Spine Injury ,Traumatic Brain Injury (TBI) ,Behavioral and Social Science ,Neurosciences ,Unintentional Childhood Injury ,Mind and Body ,Pediatric ,Clinical Research ,Brain Disorders ,Physical Injury - Accidents and Adverse Effects ,Mental health ,Adolescent ,Brain ,Brain Injuries ,Child ,Cognition Disorders ,Cross-Sectional Studies ,Diffusion Tensor Imaging ,Female ,Humans ,Image Interpretation ,Computer-Assisted ,Longitudinal Studies ,Male ,White Matter ,Young Adult ,Diffusion tensor imaging ,Traumatic brain injury ,Longitudinal ,Tractography ,Biological psychology ,Clinical and health psychology - Abstract
Traumatic brain injury (TBI) is the leading cause of death and disability in children and can lead to a wide range of impairments. Brain imaging methods such as DTI (diffusion tensor imaging) are uniquely sensitive to the white matter (WM) damage that is common in TBI. However, higher-level analyses using tractography are complicated by the damage and decreased FA (fractional anisotropy) characteristic of TBI, which can result in premature tract endings. We used the newly developed autoMATE (automated multi-atlas tract extraction) method to identify differences in WM integrity. 63 pediatric patients aged 8-19 years with moderate/severe TBI were examined with cross sectional scanning at one or two time points after injury: a post-acute assessment 1-5 months post-injury and a chronic assessment 13-19 months post-injury. A battery of cognitive function tests was performed in the same time periods. 56 children were examined in the first phase, 28 TBI patients and 28 healthy controls. In the second phase 34 children were studied, 17 TBI patients and 17 controls (27 participants completed both post-acute and chronic phases). We did not find any significant group differences in the post-acute phase. Chronically, we found extensive group differences, mainly for mean and radial diffusivity (MD and RD). In the chronic phase, we found higher MD and RD across a wide range of WM. Additionally, we found correlations between these WM integrity measures and cognitive deficits. This suggests a distributed pattern of WM disruption that continues over the first year following a TBI in children.
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- 2015
47. List of Contributors
- Author
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Aaen, Gregory, primary, Abroms, Israel F., additional, Ådén, Ulrika, additional, Ahlsten, Gunnar, additional, Aird, Robert B., additional, Al-Zaidy, Samiah A., additional, Andermann, Fred, additional, Anlar, Banu, additional, Arzimanoglou, Alexis, additional, Ashwal, Stephen, additional, Augustine, Erika, additional, Ballaban-Gil, Karen, additional, Bamford, Nigel S., additional, Barlow, Charles F., additional, Bast, Thomas, additional, Bates, David, additional, Baumann, Robert J., additional, Bertini, Enrico, additional, Beya, Alidor, additional, Blaw, Michael, additional, Bodensteiner, John, additional, Bonthius, Daniel J., additional, Brin, Amy E., additional, Brockmann, Knut, additional, Brown, John Keith, additional, Brown, Stuart B., additional, Brumback, Audrey Christine, additional, Bureau, Michelle, additional, Burke, James R., additional, Bye, Annie, additional, Camfield, Carol, additional, Camfield, Peter, additional, Campistol Plana, Jaume, additional, Canale, Dee James, additional, Caneris, Onasis, additional, Caraballo, Roberto H., additional, Caviness, Alison Chantal, additional, Chao, Hsiao-Tuan, additional, Chapman, Catherine A., additional, Chaves-Carballo, Enrique, additional, Cho, Yoon-Jae, additional, Christen, Hans-Jürgen, additional, Chugani, Harry T., additional, Cioni, Giovanni, additional, Clark, David, additional, Cliff, Edward Robert Scheffer, additional, Cochran, Frederick B., additional, Cohen, Bruce H., additional, Cohen, Maynard M., additional, Collins, Kevin, additional, Covanis, Athanasios, additional, Critchley, Macdonald, additional, Cross, J. Helen, additional, Crumrine, Patricia K., additional, Curatolo, Paolo, additional, Davies, Pamela A., additional, deVeber, Gabrielle, additional, De Vivo, Darryl C., additional, de Vries, Linda S., additional, De Waele, Liesbeth, additional, DeMyer, William, additional, Devlin, Anita, additional, Dobyns, William B., additional, Dodson, W. Edwin, additional, Donald, Kirsty, additional, Duffy, Frank H., additional, Dunn, David W., additional, Dunn, Henry G., additional, Dure, Leon S., additional, Dyken, Paul Richard, additional, Encha-Razavi, Férechté, additional, Erenberg, Gerald, additional, Estes, Melinda L., additional, Evrard, Philippe, additional, Ferriero, Donna, additional, Ferry, Peggy, additional, Fine, Archie, additional, Fine, Edward J., additional, Fine, John S., additional, Finkel, Richard S., additional, Fischer, Alain, additional, Fischer, Christine, additional, Fogan, Lance, additional, Fowler, Glenn W., additional, Frank, Yitzchak, additional, Fullerton, Heather J., additional, Furukawa, Tetsuo, additional, Gabriel, Ronald S., additional, Galanopoulou, Aristea S., additional, Gardner-Medwin, David, additional, Garg, Bhuwan, additional, Genton, Pierre, additional, George, Mark S., additional, Gineste, Thierry, additional, Giza, Christopher C., additional, Goemans, Nathalie, additional, Golden, Gerald S., additional, Golden, Jeffrey Alan, additional, Goldstein, Gary W., additional, Gomez, Christopher, additional, Gomez, Manuel R., additional, Gomez, Timothy, additional, Goodkin, Howard P., additional, Gordon, Neil, additional, Gressens, Pierre, additional, Groger, Helmut, additional, Guerrini, Renzo, additional, Gurnett, Christina A., additional, Gussoni, Emanuela, additional, Haas, Richard, additional, Hagberg, Bengt, additional, Haller, Jerome S., additional, Hartman, Adam L., additional, Haruda, Fred, additional, Hirtz, Deborah, additional, Hogan, Gwendolyn R., additional, Hunt, Guy M., additional, Iannaccone, Susan T., additional, Eleanor Inder, Terrie, additional, Ionasescu, Victor, additional, Jansen, Katrien, additional, Jiang, Yuwu, additional, Kaminski, Henry J., additional, Kamoshita, Shigehiko, additional, Kang, Peter B., additional, Kaufman, David M., additional, Kaufmann, Walter E., additional, Kaye, Edward M., additional, Kellaway, Peter, additional, Kelley, Rhona S., additional, Kennedy, Charles, additional, Kim, Young-Min, additional, Kirby, Michael, additional, Kirton, Adam, additional, Kobayashi, Eliane, additional, Kossoff, Eric H., additional, Koutroumanidis, Michail, additional, Krupp, Lauren, additional, Lange, Bernadette M., additional, Lanska, Douglas J., additional, Lanska, Mary Jo, additional, Larsen, Paul D., additional, Lassoff, Samuel J., additional, Laterra, John, additional, Lemieux, Bernard, additional, Lenn, Nicholas J., additional, Logan, William J., additional, Lomax, Elizabeth, additional, Longo, Lawrence D., additional, Lorris Betz, A., additional, Manyam, Bala V., additional, Marks, Warren A., additional, Massey, E. Wayne, additional, Mate, Laszlo J., additional, McKinlay, Ian, additional, McLean, William T., additional, McLellan, Ailsa, additional, Mehler, Mark F., additional, Melchior, Johannes C., additional, Michelson, David J., additional, Miller, Steven P., additional, Miller, Suzanne L., additional, Millichap, J. Gordon, additional, Minns, Robert A., additional, Mizrahi, Eli M., additional, Moser, Ann B., additional, Moshé, Solomon L., additional, Muhle, Hiltrud, additional, Muntoni, Francesco, additional, Naidu, Sakkubai, additional, Narayanan, Vinodh, additional, Nardocci, Nardo, additional, Neil, Jeffrey J., additional, Neumeyer, Ann, additional, Noetzel, Michael J., additional, Nomura, Yoshiko, additional, Nordli, Douglas R., additional, North, Kathryn, additional, Ohtsuka, Yoko, additional, O’Callaghan, Finbar J.K., additional, Packer, Roger J., additional, Pastores, Gregory M., additional, Patterson, Marc C., additional, Pearl, Phillip L., additional, Philippart, Michel, additional, Pihko, Helena S., additional, Piller, Gordon, additional, Platz, Thomas F., additional, Poduri, Annapurna, additional, Pollack, Michael A., additional, Porter, Brenda E., additional, Provis, Michèle, additional, Rating, Dietz, additional, Reich, Harold, additional, Remler, Bernd, additional, Rho, Jong M., additional, Richards, Peter, additional, Richardson, Edward P., additional, Richardson, Sylvia O., additional, Roach, E. Steve, additional, Rose, Arthur L., additional, Rozear, Marvin P., additional, Rubinstein, Lucien J., additional, Rust, Robert S., additional, Saini, Arushi Gahlot, additional, Saint-Anne Dargassies, Suzanne, additional, Sarnat, Harvey B., additional, Sarwar, Mohammad, additional, Satran, Richard, additional, Schneider, Sanford, additional, Schrank, Waltraud, additional, Scott, Rodney C., additional, Seinfeld, Syndi, additional, Selcen, Duygu, additional, Sestan, Nenad, additional, Shapiro, Steven, additional, Sherr, Elliott H., additional, Shevell, Michael, additional, Shield, Lloyd, additional, Sidman, Richard L., additional, Silverstein, Faye S., additional, Sinnreich, Michael, additional, Snead, O. Carter, additional, Solomons, Regan, additional, Soria-Duran, Emilio, additional, Stafstrom, Carl E., additional, Steven Roach, E., additional, Stevens, Harold, additional, Strassburg, Hans Michael, additional, Stumpf, David A., additional, Sullivan, Thomas, additional, Swick, Herbert M., additional, Swisher, Charles N., additional, Takahashi, Takao, additional, Tein, Ingrid, additional, Tochen, Laura, additional, Thomas, Eva E., additional, Thompson, Alan, additional, Toor, Svinder S., additional, Tyler, H. Richard, additional, Uldall, Peter, additional, Urion, David K., additional, Valappil, Ahsan Moosa Naduvil, additional, Van Toorn, Ronald, additional, Vermilion, Jennifer, additional, Vidaver, Doris, additional, Vohr, Betty R., additional, Vollmer, Brigitte, additional, Volpe, Joseph J., additional, Waber, Deborah P., additional, Wainwright, Mark S., additional, Waites, Lucius, additional, Walsh, Christopher, additional, Weindl, Adolf, additional, Whelan, Mary Anne, additional, White, Larry E., additional, Whittemore, Vicky Holets, additional, Wilmshurst, Jo, additional, Wirrell, Elaine, additional, Wolf, Nicole I., additional, Youssef, Paul, additional, Zempel, John, additional, Zoghbi, Huda Y., additional, Zuberi, Sameer M., additional, and Zupanc, Mary, additional
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- 2021
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48. W. Donald Shields
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Giza, Christopher C., primary
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- 2021
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49. The Future of Concussion
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Snyder, Aliyah R. and Giza, Christopher C.
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- 2019
- Full Text
- View/download PDF
50. The Rise of the Concussion Clinic for Diagnosis of Pediatric Mild Traumatic Brain Injury
- Author
-
Kerrigan, Julia Morrow and Giza, Christopher C.
- Published
- 2019
- Full Text
- View/download PDF
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