5 results on '"Chu, Zili D."'
Search Results
2. Emotional prosody and diffusion tensor imaging in children after traumatic brain injury.
- Author
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Schmidt, Adam T., Hanten, Gerri, Li, Xiaoqi, Wilde, Elisabeth A., Ibarra, Alyssa P., Chu, Zili D., Helbling, Antonia R., Shah, Sanjeev, and Levin, Harvey S.
- Subjects
BRAIN ,RADIOGRAPHY ,BRAIN injuries ,CHI-squared test ,STATISTICAL correlation ,EMOTIONS ,MAGNETIC resonance imaging ,T-test (Statistics) ,SOCIOECONOMIC factors ,DICOM (Computer network protocol) - Abstract
Primary objective: Brain structures and their white matter connections that may contribute to emotion processing and may be vulnerable to disruption by a traumatic brain injury (TBI) occurring in childhood have not been thoroughly explored. Research design and methods: The current investigation examines the relationship between diffusion tensor imaging (DTI) metrics, including fractional anisotropy (FA) and apparent diffusion coefficient (ADC), and 3-month post-injury performance on a task of emotion prosody recognition and a control task of phonological discrimination in a group of 91 children who sustained either a moderate-to-severe TBI ( n = 45) or orthopaedic injury (OI) ( n = 46). Main outcomes and results: Brain-behaviour findings within OI participants confirmed relationships between several significant white matter tracts in emotional prosody performance (i.e. the cingulum bundle, genu of the corpus callosum, inferior longitudinal fasciculus (ILF) and the inferior fronto-occipital fasciculus (IFOF). The cingulum and genu were also related to phonological discrimination performance. The TBI group demonstrated few strong brain behaviour relationships, with significant findings emerging only in the cingulum bundle for Emotional Prosody and the genu for Phonological Processing. Conclusion: The lack of clear relationships in the TBI group is discussed in terms of the likely disruption to cortical networks secondary to significant brain injuries. [ABSTRACT FROM AUTHOR]
- Published
- 2013
- Full Text
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3. Centrum Semiovale and Corpus Callosum Integrity in Relation to Information Processing Speed in Patients With Severe Traumatic Brain Injury.
- Author
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Kourtidou, Paraskevi, McCauley, Stephen R, Bigler, Erin D., Traipe, Elfrides, Wu, Trevor C., Chu, Zili D, Hunter, Jill V., Xiaoqi Li, Levin, Harvey S., and Wilde, Elisabeth A.
- Abstract
Objectives: This study investigated white matter alterations in the corpus callosum (CC) and centrum semiovale (CSO), using diffusion tensor imaging and magnetization transfer imaging, in participants with severe traumatic brain injury (TBI) and related these changes to processing speed measures. Participants and Methods: Fourteen adult participants with severe TBI underwent neuroimaging and assessment, using the Symbol Digit Modalities Test and Trail-Making Test, Part B, at approximately 6 months postinjury. Thirteen demographically similar, neurologically intact adults were imaged for comparison. Results: The TBI group demonstrated lower fractional anisotropy (FA) for the right CSO and higher apparent diffusion coefficient (ADC) for the CSO bilaterally than the control group. Lower FA and higher ADC were noted in all CC regions. Magnetization transfer imaging revealed smaller magnetization transfer ratios (MTRs) in the right and left CSO and CC genu and splenium. Written Symbol Digit Modalities Test performance was related to right CSO FA, bilateral CSO ADC, CC FA, and right CSO MTR, whereas oral Symbol Digit Modalities Test was related to right CSO FA, ADC, and MTR. Trail-Making Test, Part B, was related to right CSO FA and MTR. Conclusions: Advanced neuroimaging modalities such as diffusion tensor imaging and magnetization transfer imaging demonstrate significant alterations in white matter, which are related to processing speed. These techniques may be useful in quantifying the extent of injury even in normal appearing white matter after TBI. [ABSTRACT FROM AUTHOR]
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- 2013
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4. Longitudinal changes in cortical thickness in children after traumatic brain injury and their relation to behavioral regulation and emotional control
- Author
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Wilde, Elisabeth A., Merkley, Tricia L., Bigler, Erin D., Max, Jeffrey E., Schmidt, Adam T., Ayoub, Kareem W., McCauley, Stephen R., Hunter, Jill V., Hanten, Gerri, Li, Xiaoqi, Chu, Zili D., and Levin, Harvey S.
- Subjects
BRAIN injuries ,EMOTIONS ,TRAUMA centers ,CHILDREN'S injuries ,FRONTAL lobe ,LONGITUDINAL method ,CONTROL (Psychology) - Abstract
Abstract: The purpose of this study was to assess patterns of cortical development over time in children who had sustained traumatic brain injury (TBI) as compared to children with orthopedic injury (OI), and to examine how these patterns related to emotional control and behavioral dysregulation, two common post-TBI symptoms. Cortical thickness was measured at approximately 3 and 18 months post-injury in 20 children aged 8.2–17.5 years who had sustained moderate-to-severe closed head injury and 21 children aged 7.4–16.7 years who had sustained OI. At approximately 3 months post-injury, the TBI group evidenced decreased cortical thickness bilaterally in aspects of the superior frontal, dorsolateral frontal, orbital frontal, and anterior cingulate regions compared to the control cohort, areas of anticipated vulnerability to TBI-induced change. At 18 months post-injury, some of the regions previously evident at 3 months post-injury remained significantly decreased in the TBI group, including bilateral frontal, fusiform, and lingual regions. Additional regions of significant cortical thinning emerged at this time interval (bilateral frontal regions and fusiform gyrus and left parietal regions). However, differences in other regions appeared attenuated (no longer areas of significant cortical thinning) by 18 months post-injury including large bilateral regions of the medial aspects of the frontal lobes and anterior cingulate. Cortical thinning within the OI group was evident over time in dorsolateral frontal and temporal regions bilaterally and aspects of the left medial frontal and precuneus, and right inferior parietal regions. Longitudinal analyses within the TBI group revealed decreases in cortical thickness over time in numerous aspects throughout the right and left cortical surface, but with notable “sparing” of the right and left frontal and temporal poles, the medial aspects of both the frontal lobes, the left fusiform gyrus, and the cingulate bilaterally. An analysis of longitudinal changes in cortical thickness over time (18 months–3 months) in the TBI versus OI group demonstrated regions of relative cortical thinning in the TBI group in bilateral superior parietal and right paracentral regions, but relative cortical thickness increases in aspects of the medial orbital frontal lobes and bilateral cingulate and in the right lateral orbital frontal lobe. Finally, findings from analyses correlating the longitudinal cortical thickness changes in TBI with symptom report on the Emotional Control subscale of the Behavior Rating Inventory of Executive Function (BRIEF) demonstrated a region of significant correlation in the right medial frontal and right anterior cingulate gyrus. A region of significant correlation between the longitudinal cortical thickness changes in the TBI group and symptom report on the Behavioral Regulation Index was also seen in the medial aspect of the left frontal lobe. Longitudinal analyses of cortical thickness highlight an important deviation from the expected pattern of developmental change in children and adolescents with TBI, particularly in the medial frontal lobes, where typical patterns of thinning fail to occur over time. Regions which fail to undergo expected cortical thinning in the medial aspects of the frontal lobes correlate with difficulties in emotional control and behavioral regulation, common problems for youth with TBI. Examination of post-TBI brain development in children may be critical to identification of children that may be at risk for persistent problems with executive functioning deficits and the development of interventions to address these issues. [Copyright &y& Elsevier]
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- 2012
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5. Persistent Disruption of Brain Connectivity after Sports-Related Concussion in a Female Athlete.
- Author
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Wilde, Elisabeth A., Newsome, Mary R., Ott, Summer D., Hunter, Jill V., Dash, Pramod, Redell, John, Spruiell, Matthew, Diaz, Marlene, Chu, Zili D., Goodrich-Hunsaker, Naomi, Petrie, JoAnn, Li, Ruosha, and Levin, Harvey
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WOMEN athletes , *HIGH school athletes , *CORPUS callosum , *BRAIN imaging - 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. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
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