Your search keyword '"Goodrich-Hunsaker N"' showing total 9 results

1. The Role of the Human Hippocampus in Odor-Place Associative Memory

Author

Goodrich-Hunsaker, N. J., primary, Gilbert, P. E., additional, and Hopkins, R. O., additional

Published

2009

2. Young adult male carriers of the fragile X premutation exhibit genetically modulated impairments in visuospatial tasks controlled for psychomotor speed

Author

Wong Ling M, Goodrich-Hunsaker Naomi J, McLennan Yingratana, Tassone Flora, Harvey Danielle, Rivera Susan M, and Simon Tony J

Subjects

X-linked genetic disease, Psychomotor performance, FMR1, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Background A previous study reported enhanced psychomotor speed, and subtle but significant cognitive impairments, modulated by age and by mutations in the fragile X mental retardation 1 (FMR1) gene in adult female fragile X premutation carriers (fXPCs). Because male carriers, unlike females, do not have a second, unaffected FMR1 allele, male fXPCs should exhibit similar, if not worse, impairments. Understanding male fXPCs is of particular significance because of their increased risk of developing fragile X-associated tremor/ataxia syndrome (FXTAS). Methods Male fXPCs (n = 18) and healthy control (HC) adults (n = 26) aged less than 45 years performed two psychomotor speed tasks (manual and oral) and two visuospatial tasks (magnitude comparison and enumeration). In the magnitude comparison task, participants were asked to compare and judge which of two bars was larger. In the enumeration task, participants were shown between one and eight green bars in the center of the screen, and asked to state the total number displayed. Enumeration typically proceeds in one of two modes: subitizing, a fast and accurate process that works only with a small set of items, and counting, which requires accurate serial-object detection and individuation during visual search. We examined the associations between the performance on all tasks and the age, full-scale intelligent quotient, and CGG repeat length of participants. Results We found that in the magnitude comparison and enumeration tasks, male fXPCs exhibited slower reaction times relative to HCs, even after controlling for simple reaction time. Conclusions Our results indicate that male fXPCs as a group show impairments (slower reaction times) in numerical visuospatial tasks, which are consistent with previous findings. This adds to a growing body of literature characterizing the phenotype in fXPCs who are asymptomatic for FXTAS. Future longitudinal studies are needed to determine how these impairments relate to risk of developing FXTAS.

Published

2012

3. Microstructural Organization of Distributed White Matter Associated With Fine Motor Control in US Service Members With Mild Traumatic Brain Injury.

Author

Wade BSC, Tate DF, Kennedy E, Bigler ED, York GE, Taylor BA, Troyanskaya M, Hovenden ES, Goodrich-Hunsaker N, Newsome MR, Dennis EL, Abildskov T, Pugh MJ, Walker WC, Kenney K, Betts A, Shih R, Welsh RC, and Wilde EA

Subjects

Humans, Brain, Brain Concussion diagnostic imaging, Brain Concussion complications, White Matter diagnostic imaging, Brain Injuries complications, Military Personnel, Veterans

Abstract

Mild traumatic brain injury (mTBI) is the most common form of brain injury. While most individuals recover from mTBI, roughly 20% experience persistent symptoms, potentially including reduced fine motor control. We investigate relationships between regional white matter organization and subcortical volumes associated with performance on the Grooved Pegboard (GPB) test in a large cohort of military Service Members and Veterans (SM&Vs) with and without a history of mTBI(s). Participants were enrolled in the Long-term Impact of Military-relevant Brain Injury Consortium-Chronic Effects of Neurotrauma Consortium. SM&Vs with a history of mTBI(s) ( n  = 847) and without mTBI ( n  = 190) underwent magnetic resonance imaging and the GPB test. We first examined between-group differences in GPB completion time. We then investigated associations between GPB performance and regional structural imaging measures (tractwise diffusivity, subcortical volumes, and cortical thickness) in SM&Vs with a history of mTBI(s). Lastly, we explored whether mTBI history moderated associations between imaging measures and GPB performance. SM&Vs with mTBI(s) performed worse than those without mTBI(s) on the non-dominant hand GPB test at a trend level ( p  < 0.1). Higher fractional anisotropy (FA) of tracts including the posterior corona radiata, superior longitudinal fasciculus, and uncinate fasciculus were associated with better GPB performance in the dominant hand in SM&Vs with mTBI(s). These findings support that the organization of several white matter bundles are associated with fine motor performance in SM&Vs. We did not observe that mTBI history moderated associations between regional FA and GPB test completion time, suggesting that chronic mTBI may not significantly influence fine motor control.

Published

2024

4. Longitudinal white matter microstructural changes in pediatric mild traumatic brain injury: An A-CAP study.

Author

Ware AL, Yeates KO, Tang K, Shukla A, Onicas AI, Guo S, Goodrich-Hunsaker N, Abdeen N, Beauchamp MH, Beaulieu C, Bjornson B, Craig W, Dehaes M, Doan Q, Deschenes S, Freedman SB, Goodyear BG, Gravel J, Ledoux AA, Zemek R, and Lebel C

Subjects

Brain diagnostic imaging, Child, Diffusion Tensor Imaging methods, Humans, Longitudinal Studies, Prospective Studies, Brain Concussion diagnostic imaging, White Matter diagnostic imaging

Abstract

In the largest sample studied to date, white matter microstructural trajectories and their relation to persistent symptoms were examined after pediatric mild traumatic brain injury (mTBI). This prospective, longitudinal cohort study recruited children aged 8-16.99 years with mTBI or mild orthopedic injury (OI) from five pediatric emergency departments. Children's pre-injury and 1-month post-injury symptom ratings were used to classify mTBI with or without persistent symptoms. Children completed diffusion-weighted imaging at post-acute (2-33 days post-injury) and chronic (3 or 6 months via random assignment) post-injury assessments. Mean diffusivity (MD) and fractional anisotropy (FA) were derived for 18 white matter tracts in 560 children (362 mTBI/198 OI), 407 with longitudinal data. Superior longitudinal fasciculus FA was higher in mTBI without persistent symptoms relative to OI, d (95% confidence interval) = 0.31 to 0.37 (0.02, 0.68), across time. In younger children, MD of the anterior thalamic radiations was higher in mTBI with persistent symptoms relative to both mTBI without persistent symptoms, 1.43 (0.59, 2.27), and OI, 1.94 (1.07, 2.81). MD of the arcuate fasciculus, -0.58 (-1.04, -0.11), and superior longitudinal fasciculus, -0.49 (-0.90, -0.09) was lower in mTBI without persistent symptoms relative to OI at 6 months post-injury. White matter microstructural changes suggesting neuroinflammation and axonal swelling occurred chronically and continued 6 months post injury in children with mTBI, especially in younger children with persistent symptoms, relative to OI. White matter microstructure appears more organized in children without persistent symptoms, consistent with their better clinical outcomes., (© 2022 The Authors. Human Brain Mapping published by Wiley Periodicals LLC.)

Published

2022

5. Persistent Disruption of Brain Connectivity after Sports-Related Concussion in a Female Athlete.

Author

Wilde EA, Newsome MR, Ott SD, Hunter JV, Dash P, Redell J, Spruiell M, Diaz M, Chu ZD, Goodrich-Hunsaker N, Petrie J, Li R, and Levin H

Subjects

Adolescent, Brain diagnostic imaging, Brain Concussion diagnostic imaging, Female, Humans, Magnetic Resonance Imaging, Nerve Net diagnostic imaging, Brain physiopathology, Brain Concussion physiopathology, Nerve Net physiopathology, Soccer injuries

Abstract

Structural and functional connectivity (FC) after sports-related concussion (SRC) may remain altered in adolescent athletes despite symptom resolution. Little is known, however, about how alterations in structural connectivity and FC co-present in female athletes whose symptom recovery tends to be prolonged. Despite resolution of symptoms, one month after her second SRC, an 18-year-old female athlete had decreased structural connectivity in the corpus callosum and cingulum, with altered FC near those regions, compared with other SRC and orthopedically injured athletes. Findings show persistent effects of SRC on advanced brain imaging and the possibility of greater vulnerability of white matter tracts in females.

Published

2019

6. Structural neuroimaging in mild traumatic brain injury: A chronic effects of neurotrauma consortium study.

Author

Bigler ED, Abildskov TJ, Eggleston B, Taylor BA, Tate DF, Petrie JA, Newsome MR, Scheibel RS, Levin H, Walker WC, Goodrich-Hunsaker N, Tustison NJ, Stone JR, Mayer AR, Duncan TD, York GE, and Wilde EA

Subjects

Adult, Chronic Disease, Cohort Studies, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Brain diagnostic imaging, Brain Concussion diagnostic imaging, Neuroimaging

Abstract

Objectives: The chronic effects of neurotrauma consortium (CENC) observational study is a multisite investigation designed to examine the long-term longitudinal effects of mild traumatic brain injury (mTBI). All participants in this initial CENC cohort had a history of deployment in Operation Enduring Freedom (Afghanistan), Operation Iraqi Freedom (Iraq), and/or their follow-on conflicts (Operation Freedom's Sentinel). All participants undergo extensive medical, neuropsychological, and neuroimaging assessments and either meet criteria for any lifetime mTBI or not. These assessments are integrated into six CENC core studies-Biorepository, Biostatistics, Data and Study Management, Neuroimaging, and Neuropathology., Methods: The current study outlines the quantitative neuroimaging methods managed by the Neuroimaging Core using FreeSurfer automated software for image quantification., Results: At this writing, 319 participants from the CENC observational study have completed all baseline assessments including the imaging protocol and tertiary data quality assurance procedures., Conclusions/discussion: The preliminary findings of this initial cohort are reported to describe how the Neuroimaging Core manages neuroimaging quantification for CENC studies., (© 2019 John Wiley & Sons, Ltd.)

Published

2019

7. The Relation of Focal Lesions to Cortical Thickness in Pediatric Traumatic Brain Injury.

Author

Bigler ED, Zielinski BA, Goodrich-Hunsaker N, Black GM, Huff BS, Christiansen Z, Wood DM, Abildskov TJ, Dennis M, Taylor HG, Rubin K, Vannatta K, Gerhardt CA, Stancin T, and Yeates KO

Subjects

Brain Injuries, Traumatic complications, Brain Injuries, Traumatic metabolism, Cerebral Cortex metabolism, Child, Chronic Disease, Encephalomalacia diagnostic imaging, Encephalomalacia etiology, Encephalomalacia metabolism, Female, Glasgow Coma Scale, Hemosiderin metabolism, Humans, Length of Stay, Magnetic Resonance Imaging, Male, Organ Size, White Matter diagnostic imaging, White Matter metabolism, Brain Injuries, Traumatic diagnostic imaging, Cerebral Cortex diagnostic imaging

Abstract

In a sample of children with traumatic brain injury, this magnetic resonance imaging (MRI)-based investigation examined whether presence of a focal lesion uniquely influenced cortical thickness in any brain region. Specifically, the study explored the relation of cortical thickness to injury severity as measured by Glasgow Coma Scale score and length of stay, along with presence of encephalomalacia, focal white matter lesions or presence of hemosiderin deposition as a marker of shear injury. For comparison, a group of children without head injury but with orthopedic injury of similar age and sex were also examined. Both traumatic brain injury and orthopedic injury children had normally reduced cortical thickness with age, assumed to reflect neuronal pruning. However, the reductions observed within the traumatic brain injury sample were similar to those in the orthopedic injury group, suggesting that in this sample traumatic brain injury, per se, did not uniquely alter cortical thickness in any brain region at the group level. Injury severity in terms of Glasgow Coma Scale or longer length of stay was associated with greater reductions in frontal and occipitoparietal cortical thickness. However, presence of focal lesions were not related to unique changes in cortical thickness despite having a prominent distribution of lesions within frontotemporal regions among children with traumatic brain injury. Because focal lesions were highly heterogeneous, their association with cortical thickness and development appeared to be idiosyncratic, and not associated with group level effects., (© The Author(s) 2016.)

Published

2016

8. The hippocampi of children with chromosome 22q11.2 deletion syndrome have localized anterior alterations that predict severity of anxiety.

Author

Scott JA, Goodrich-Hunsaker N, Kalish K, Lee A, Hunsaker MR, Schumann CM, Carmichael OT, and Simon TJ

Subjects

Adolescent, Child, Female, Hippocampus growth & development, Humans, Image Processing, Computer-Assisted, Intelligence, Intelligence Tests, Magnetic Resonance Imaging, Male, Organ Size, Prognosis, Psychiatric Status Rating Scales, Severity of Illness Index, Sex Characteristics, Anxiety diagnostic imaging, DiGeorge Syndrome diagnostic imaging, DiGeorge Syndrome psychology, Hippocampus diagnostic imaging

Abstract

Background: Individuals with 22q11.2 deletion syndrome (22q11.2DS) have an elevated risk for schizophrenia, which increases with history of childhood anxiety. Altered hippocampal morphology is a common neuroanatomical feature of 22q11.2DS and idiopathic schizophrenia. Relating hippocampal structure in children with 22q11.2DS to anxiety and impaired cognitive ability could lead to hippocampus-based characterization of psychosis-proneness in this at-risk population., Methods: We measured hippocampal volume using a semiautomated approach on MRIs collected from typically developing children and children with 22q11.2DS. We then analyzed hippocampal morphology with Localized Components Analysis. We tested the modulating roles of diagnostic group, hippocampal volume, sex and age on local hippocampal shape components. Lastly, volume and shape components were tested as covariates of IQ and anxiety., Results: We included 48 typically developing children and 69 children with 22q11.2DS in our study. Hippocampal volume was reduced bilaterally in children with 22q11.2DS, and these children showed greater variation in the shape of the anterior hippocampus than typically developing children. Children with 22q11.2DS had greater inward deformation of the anterior hippocampus than typically developing children. Greater inward deformation of the anterior hippocampus was associated with greater severity of anxiety, specifically fear of physical injury, within the 22q11.2DS group., Limitations: Shape alterations are not specific to hippocampal subfields., Conclusion: Alterations in the structure of the anterior hippocampus likely affect function and may impact limbic circuitry. We suggest these alterations potentially contribute to anxiety symptoms in individuals with 22q11.2DS through modulatory pathways. Altered hippocampal morphology may be uniquely linked to anxiety risk factors for schizophrenia, which could be a powerful neuroanatomical marker of schizophrenia risk and hence protection.

Published

2016

9. Quantitative structural neuroimaging of mild traumatic brain injury in the Chronic Effects of Neurotrauma Consortium (CENC): Comparison of volumetric data within and across scanners.

Author

Wilde EA, Bigler ED, Huff T, Wang H, Black GM, Christensen ZP, Goodrich-Hunsaker N, Petrie JA, Abildskov T, Taylor BA, Stone JR, Tustison NJ, Newsome MR, Levin HS, Chu ZD, York GE, and Tate DF

Subjects

Adult, Female, Humans, Image Processing, Computer-Assisted, Male, Young Adult, Brain diagnostic imaging, Brain Concussion diagnostic imaging, Magnetic Resonance Imaging, Phantoms, Imaging

Abstract

Background: An important component of the multicentre Chronic Effects of Neurotrauma Consortium (CENC) project is the development of improved quantitative magnetic resonance imaging (MRI) methods, including volumetric analysis. Although many studies routinely employ quality assurance (QA) procedures including MR and human phantoms to promote accuracy and monitor site differences, few studies perform rigorous direct comparisons of these data nor report findings that enable inference regarding site-to-site comparability. These gaps in evaluating cross-site differences are concerning, especially given the well-established differences that can occur between data acquired on scanners with different manufacturer, hardware or software., Methods: This study reports findings on (1) a series of studies utilizing two MR phantoms to interrogate machine-based variability using data collected on the same magnet, (2) a human phantom repeatedly imaged on the same scanner to investigate within-subject, within-site variability and (3) a human phantom imaged on three different scanners to examine within subject, between-site variability., Results: Although variability is relatively minimal for the phantom scanned on the same magnet, significantly more variability is introduced in a human subject, particularly when regions are relatively small or multiple sites used., Conclusion: Vigilance when combining data from different sites is suggested and that future efforts address these issues.

Published

2016