Skip to main page content
U.S. flag

An official website of the United States government

Dot gov

The .gov means it’s official.
Federal government websites often end in .gov or .mil. Before sharing sensitive information, make sure you’re on a federal government site.

Https

The site is secure.
The https:// ensures that you are connecting to the official website and that any information you provide is encrypted and transmitted securely.

Access keys NCBI Homepage MyNCBI Homepage Main Content Main Navigation

Search Page

Filters

My NCBI Filters

Results by year

Table representation of search results timeline featuring number of search results per year.

Year Number of Results
1995 1
2009 1
2010 3
2011 2
2012 3
2013 2
2014 4
2015 1
2016 1
2017 1
2018 2
2019 3
2020 2
2021 1
2022 1
2024 0

Text availability

Article attribute

Article type

Publication date

Search Results

23 results

Results by year

Filters applied: . Clear all
Page 1
Showing results for leonardo nibib
Your search for Leonardo Nibbi retrieved no results
Neuroimaging and genetic risk for Alzheimer's disease and addiction-related degenerative brain disorders.
Roussotte FF, Daianu M, Jahanshad N, Leonardo CD, Thompson PM. Roussotte FF, et al. Brain Imaging Behav. 2014 Jun;8(2):217-233. doi: 10.1007/s11682-013-9263-y. Brain Imaging Behav. 2014. PMID: 24142306 Free PMC article. Review.
Neuroimaging offers a powerful means to assess the trajectory of brain degeneration in a variety of disorders, including Alzheimer's disease (AD). Here we describe how multi-modal imaging can be used to study the changing brain during the different stages of AD. We integra …
Neuroimaging offers a powerful means to assess the trajectory of brain degeneration in a variety of disorders, including Alzheimer's disease …
The ENIGMA Consortium: large-scale collaborative analyses of neuroimaging and genetic data.
Thompson PM, Stein JL, Medland SE, Hibar DP, Vasquez AA, Renteria ME, Toro R, Jahanshad N, Schumann G, Franke B, Wright MJ, Martin NG, Agartz I, Alda M, Alhusaini S, Almasy L, Almeida J, Alpert K, Andreasen NC, Andreassen OA, Apostolova LG, Appel K, Armstrong NJ, Aribisala B, Bastin ME, Bauer M, Bearden CE, Bergmann O, Binder EB, Blangero J, Bockholt HJ, Bøen E, Bois C, Boomsma DI, Booth T, Bowman IJ, Bralten J, Brouwer RM, Brunner HG, Brohawn DG, Buckner RL, Buitelaar J, Bulayeva K, Bustillo JR, Calhoun VD, Cannon DM, Cantor RM, Carless MA, Caseras X, Cavalleri GL, Chakravarty MM, Chang KD, Ching CR, Christoforou A, Cichon S, Clark VP, Conrod P, Coppola G, Crespo-Facorro B, Curran JE, Czisch M, Deary IJ, de Geus EJ, den Braber A, Delvecchio G, Depondt C, de Haan L, de Zubicaray GI, Dima D, Dimitrova R, Djurovic S, Dong H, Donohoe G, Duggirala R, Dyer TD, Ehrlich S, Ekman CJ, Elvsåshagen T, Emsell L, Erk S, Espeseth T, Fagerness J, Fears S, Fedko I, Fernández G, Fisher SE, Foroud T, Fox PT, Francks C, Frangou S, Frey EM, Frodl T, Frouin V, Garavan H, Giddaluru S, Glahn DC, Godlewska B, Goldstein RZ, Gollub RL, Grabe HJ, Grimm O, Gruber O, Guadalupe T, Gur RE, Gur RC, Göring HH, Ha… See abstract for full author list ➔ Thompson PM, et al. Brain Imaging Behav. 2014 Jun;8(2):153-82. doi: 10.1007/s11682-013-9269-5. Brain Imaging Behav. 2014. PMID: 24399358 Free PMC article. Review.
Subcortical volumetric abnormalities in bipolar disorder.
Hibar DP, Westlye LT, van Erp TG, Rasmussen J, Leonardo CD, Faskowitz J, Haukvik UK, Hartberg CB, Doan NT, Agartz I, Dale AM, Gruber O, Krämer B, Trost S, Liberg B, Abé C, Ekman CJ, Ingvar M, Landén M, Fears SC, Freimer NB, Bearden CE; Costa Rica/Colombia Consortium for Genetic Investigation of Bipolar Endophenotypes; Sprooten E, Glahn DC, Pearlson GD, Emsell L, Kenney J, Scanlon C, McDonald C, Cannon DM, Almeida J, Versace A, Caseras X, Lawrence NS, Phillips ML, Dima D, Delvecchio G, Frangou S, Satterthwaite TD, Wolf D, Houenou J, Henry C, Malt UF, Bøen E, Elvsåshagen T, Young AH, Lloyd AJ, Goodwin GM, Mackay CE, Bourne C, Bilderbeck A, Abramovic L, Boks MP, van Haren NE, Ophoff RA, Kahn RS, Bauer M, Pfennig A, Alda M, Hajek T, Mwangi B, Soares JC, Nickson T, Dimitrova R, Sussmann JE, Hagenaars S, Whalley HC, McIntosh AM, Thompson PM, Andreassen OA. Hibar DP, et al. Mol Psychiatry. 2016 Dec;21(12):1710-1716. doi: 10.1038/mp.2015.227. Epub 2016 Feb 9. Mol Psychiatry. 2016. PMID: 26857596 Free PMC article.
Acoustoelectric imaging of deep dipoles in a human head phantom for guiding treatment of epilepsy.
Barragan A, Preston C, Alvarez A, Bera T, Qin Y, Weinand M, Kasoff W, Witte RS. Barragan A, et al. J Neural Eng. 2020 Oct 30;17(5):056040. doi: 10.1088/1741-2552/abb63a. J Neural Eng. 2020. PMID: 33124600 Free PMC article.
OBJECTIVE: This study employs a human head model with real skull to demonstrate the feasibility of transcranial acoustoelectric brain imaging (tABI) as a new modality for electrical mapping of deep dipole sources during treatment of epilepsy with much better resolution and …
OBJECTIVE: This study employs a human head model with real skull to demonstrate the feasibility of transcranial acoustoelectric brain ima
Reducing RF-induced Heating near Implanted Leads through High-Dielectric Capacitive Bleeding of Current (CBLOC).
Golestanirad L, Angelone LM, Kirsch J, Downs S, Keil B, Bonmassar G, Wald LL. Golestanirad L, et al. IEEE Trans Microw Theory Tech. 2019 Mar;67(3):1265-1273. doi: 10.1109/TMTT.2018.2885517. Epub 2019 Jan 1. IEEE Trans Microw Theory Tech. 2019. PMID: 31607756 Free PMC article.
Patients with implanted medical devices such as deep brain stimulation or spinal cord stimulation are often unable to receive magnetic resonance imaging (MRI). This is because once the device is within the radiofrequency (RF) field of the MRI scanner, electrically conducti …
Patients with implanted medical devices such as deep brain stimulation or spinal cord stimulation are often unable to receive magnetic reson …
23 results