This subproject is one of many research subprojects utilizing the resources provided by a Center grant funded by NIH/NCRR. Primary support for the subproject and the subproject's principal investigator may have been provided by other sources, including other NIH sources. The Total Cost listed for the subproject likely represents the estimated amount of Center infrastructure utilized by the subproject, not direct funding provided by the NCRR grant to the subproject or subproject staff. The Neuroimaging Core will continue to provide the necessary support for all neuroimaging studies performed by ADRC investigators. The Core has had a tri-fold purpose within the ADRC, which it will continue to pursue: 1) methodological development and validation of advanced structural and functional imaging techniques targeting the unique challenges inherent in in vivo studies of the aging brain, 2) development and maintenance of an in vivo """"""""brain bank"""""""" of high-resolution structural magnetic resonance imaging (MRI) data, and 3) providing support for the multidisciplinary training of future imaging researchers who will address questions specific to neurodegenerative disease. We have made substantial progress over the last funding period in novel MRI applications including innovative morphometric techniques in collaboration with the UCLA Laboratory of Neuroimaging and the Carnegie Mellon University Robotics Institute, and the development of non-invasive arterial spin-labeling MRI perfusion imaging. As a result of advances in positron emission tomography (PET) techniques highly relevant and supportive of the mission of the ADRC, the proposed Core application will expand the role of PET imaging to encompass in vivo quantification of amyloid load in normal aging, mild cognitive impairment, and AD. The complementary use of a range of neuroimaging tools is fostered by collaborations among investigators utilizing Core resources. The Neuroimaging Core is also highly committed to the mentoring of junior faculty, and pre- and post-doctoral trainees in the validation and translation of advanced brain imaging techniques to aging and AD research.
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| Yang, Yaling; Joshi, Shantanu H; Jahanshad, Neda et al. (2017) Neural correlates of proactive and reactive aggression in adolescent twins. Aggress Behav 43:230-240 |
| Dennis, Emily L; Rashid, Faisal; Faskowitz, Josh et al. (2017) MAPPING AGE EFFECTS ALONG FIBER TRACTS IN YOUNG ADULTS. Proc IEEE Int Symp Biomed Imaging 2017:101-104 |
| Walsh, Christine M; Ruoff, Leslie; Walker, Kathleen et al. (2017) Sleepless Night and Day, the Plight of Progressive Supranuclear Palsy. Sleep 40: |
| Green, Shulamite A; Hernandez, Leanna; Bookheimer, Susan Y et al. (2017) Reduced modulation of thalamocortical connectivity during exposure to sensory stimuli in ASD. Autism Res 10:801-809 |
| Flournoy, John C; Pfeifer, Jennifer H; Moore, William E et al. (2016) Neural Reactivity to Emotional Faces May Mediate the Relationship Between Childhood Empathy and Adolescent Prosocial Behavior. Child Dev 87:1691-1702 |
| Joshi, Shantanu H; Vizueta, Nathalie; Foland-Ross, Lara et al. (2016) Relationships Between Altered Functional Magnetic Resonance Imaging Activation and Cortical Thickness in Patients With Euthymic Bipolar I Disorder. Biol Psychiatry Cogn Neurosci Neuroimaging 1:507-517 |
| Ordóñez, Anna E; Loeb, Frances F; Zhou, Xueping et al. (2016) Lack of Gender-Related Differences in Childhood-Onset Schizophrenia. J Am Acad Child Adolesc Psychiatry 55:792-9 |
| Green, Shulamite A; Hernandez, Leanna; Bookheimer, Susan Y et al. (2016) Salience Network Connectivity in Autism Is Related to Brain and Behavioral Markers of Sensory Overresponsivity. J Am Acad Child Adolesc Psychiatry 55:618-626.e1 |
| Kodumuri, Nishanth; Sebastian, Rajani; Davis, Cameron et al. (2016) The association of insular stroke with lesion volume. Neuroimage Clin 11:41-45 |
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