Fernando E Boada
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Explore the profile of Fernando E Boada including associated specialties, affiliations and a list of published articles.
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62
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911
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Recent Articles
1.
Filipiak P, Shepherd T, Basler L, Zuccolotto A, Placantonakis D, Schneider W, et al.
Comput Diffus MRI
. 2025 Feb;
14328:23-34.
PMID: 39957914
White matter fiber reconstructions based on seeking local maxima of Orientation Distribution Functions (ODFs) typically fail to identify fibers crossing at narrow angles below 45°. ODF-Fingerprinting (ODF-FP) replaces the ODF...
2.
A noise-robust post-processing pipeline for accelerated phase-cycled Na Multi-Quantum Coherences MRI
Licht C, Ilicak E, Boada F, Guye M, Zollner F, Schad L, et al.
Z Med Phys
. 2025 Jan;
35(1):98-108.
PMID: 39843306
Purpose: To develop an improved post-processing pipeline for noise-robust accelerated phase-cycled Cartesian Single (SQ) and Triple Quantum (TQ) sodium (Na) Magnetic Resonance Imaging (MRI) of in vivo human brain at...
3.
Filipiak P, Sajitha T, Shepherd T, Clarke K, Goldman H, Placantonakis D, et al.
Magn Reson Med
. 2023 Nov;
91(3):1075-1086.
PMID: 37927121
Purpose: The accuracy of diffusion MRI tractography reconstruction decreases in the white matter regions with crossing fibers. The optic pathways in rodents provide a challenging structure to test new diffusion...
4.
Girard G, Rafael-Patino J, Truffet R, Aydogan D, Adluru N, Nair V, et al.
Neuroimage
. 2023 Jun;
277:120231.
PMID: 37330025
Estimating structural connectivity from diffusion-weighted magnetic resonance imaging is a challenging task, partly due to the presence of false-positive connections and the misestimation of connection weights. Building on previous efforts,...
5.
Filipiak P, Shepherd T, Basler L, Zuccolotto A, Placantonakis D, Schneider W, et al.
Comput Diffus MRI
. 2023 Jan;
13722:89-100.
PMID: 36695675
Fitting of the multicompartment biophysical model of white matter is an ill-posed optimization problem. One approach to make it computationally tractable is through Orientation Distribution Function (ODF) Fingerprinting. However, the...
6.
Filipiak P, Shepherd T, Lin Y, Placantonakis D, Boada F, Baete S
Magn Reson Med
. 2022 Feb;
88(1):418-435.
PMID: 35225365
Purpose: Orientation Distribution Function (ODF) peak finding methods typically fail to reconstruct fibers crossing at shallow angles below 40°, leading to errors in tractography. ODF-Fingerprinting (ODF-FP) with the biophysical multicompartment...
7.
Solomon E, Rigie D, Vahle T, Paska J, Bollenbeck J, Sodickson D, et al.
Magn Reson Med
. 2020 Dec;
85(5):2672-2685.
PMID: 33306216
Purpose: To describe an approach for detection of respiratory signals using a transmitted radiofrequency (RF) reference signal called Pilot-Tone (PT) and to use the PT signal for creation of motion-resolved...
8.
Lin Y, Baete S, Wang X, Boada F
Brain Behav
. 2020 May;
10(6):e01647.
PMID: 32351025
Introduction: Connectome analysis of the human brain's structural and functional architecture provides a unique opportunity to understand the organization of the brain's functional architecture. In previous studies, connectome fingerprinting using...
9.
Vahle T, Bacher M, Rigie D, Fenchel M, Speier P, Bollenbeck J, et al.
Invest Radiol
. 2020 Jan;
55(3):153-159.
PMID: 31895221
Objectives: The aim of this study was to develop a method for tracking respiratory motion throughout full MR or PET/MR studies that requires only minimal additional hardware and no modifications...
10.
Ramos N, Baquero-Buitrago J, Ben Youss Gironda Z, Zaim Wadghiri Y, Reiner T, Boada F, et al.
J Nucl Med
. 2019 Sep;
61(3):437-442.
PMID: 31481582
The cell cycle is a progression of 4 distinct phases (G1, S, G2, and M), with various cycle proteins being essential in regulating this process. We aimed to develop a...