Size-optimized 32-channel brain arrays for 3 T pediatric imaging.
about
MRI evaluation and safety in the developing brain.Massively parallel MRI detector arraysFunctional Laterality of Task-Evoked Activation in Sensorimotor Cortex of Preterm Infants: An Optimized 3 T fMRI Study Employing a Customized Neonatal Head CoilOrganization of high-level visual cortex in human infantsA 31-channel MR brain array coil compatible with positron emission tomographyPediatric neuroimaging in early childhood and infancy: challenges and practical guidelinesA dedicated neonatal brain imaging systemThe functional architecture for face-processing expertise: FMRI evidence of the developmental trajectory of the core and the extended face systemsSpurious group differences due to head motion in a diffusion MRI studyData quality in diffusion tensor imaging studies of the preterm brain: a systematic review.Acquisition guidelines and quality assessment tools for analyzing neonatal diffusion tensor MRI data.A 32-Channel Head Coil Array with Circularly Symmetric Geometry for Accelerated Human Brain ImagingAn implanted 8-channel array coil for high-resolution macaque MRI at 3T.A Specialized Multi-Transmit Head Coil for High Resolution fMRI of the Human Visual Cortex at 7TThe ultimate signal-to-noise ratio in realistic body models.Angular versus spatial resolution trade-offs for diffusion imaging under time constraints.Pediatric brain MRI part 1: basic techniques.A 64-channel 3T array coil for accelerated brain MRI.A neural window on the emergence of cognition.Resonant inductive decoupling (RID) for transceiver arrays to compensate for both reactive and resistive components of the mutual impedanceA critical review of the development of face recognition: experience is less important than previously believed.Dense, shape-optimized posterior 32-channel coil for submillimeter functional imaging of visual cortex at 3T.Strategies to minimize sedation in pediatric body magnetic resonance imaging.Calibrated bold fMRI with an optimized ASL-BOLD dual-acquisition sequence.Comparison of simulated parallel transmit body arrays at 3 T using excitation uniformity, global SAR, local SAR, and power efficiency metrics.Identification of quality improvement areas in pediatric MRI from analysis of patient safety reports.A 22-channel receive array with Helmholtz transmit coil for anesthetized macaque MRI at 3 T.Signal-to-noise ratio and parallel imaging performance of commercially available phased array coils in 3.0 T brain magnetic resonance imaging.High resolution anatomical and quantitative MRI of the entire human occipital lobe ex vivo at 9.4T.A highly decoupled transmit-receive array design with triangular elements at 7T.Development of the social brain from age three to twelve years.Improved SENSE imaging using accurate coil sensitivity maps generated by a global magnitude-phase fitting method.
P2860
Q26852623-4386F21E-CBE2-4BF7-B9E4-EC57A7F92755Q26991881-9B2EED09-D685-4867-9567-149B4D4B8019Q30364855-7275FDFB-5968-46EF-8CA5-0BA8A46209ADQ30365172-A5E5363F-C2FA-444B-802A-A550FB18E1E2Q30382488-D2020043-9D89-4F75-B562-845458B92805Q30455755-FF899416-4986-4F16-9BD0-34DBEBEB07BEQ30489860-B4BF854D-1418-416E-B143-C532C0CBEE70Q30557212-88BA53FF-9889-4EDC-B219-1E94E8F9515FQ30700177-54A5DD99-E1C1-49D0-9AF7-5813811146B9Q30918847-F72EA2B4-78F0-4B04-AE44-26B7BEB257EAQ34631165-8D8366D0-1557-4CEE-9902-7F2AF014807DQ35933695-0D876494-774B-43FF-8775-A8FE21D04732Q36128441-67BF2687-C24F-491B-A24A-A6B2A4E16BD8Q36212042-F0DC4BE5-41FC-4720-9C0F-C731DBA3A591Q36213104-FC48AE07-D940-4C1F-AC32-891A95949363Q36309822-13C7A46C-9CC4-4E48-8F4E-4B2F9073D89DQ36346708-3858E9C0-0F3B-417D-BB62-FE7A58013210Q36514104-E11B3205-DC8C-483E-AA57-FA33D174E0A6Q36922198-B3AB2D61-D07A-4F4D-8E4D-4CFA2AA1E0C8Q37239447-45D4E02A-3D19-46F1-BFC4-03F07AB52ABCQ37987612-04BC7E63-AD59-4DC9-9D50-1B4E28B32151Q38325224-D46384CB-5693-496E-842B-5C5FD9FCC116Q38845287-C081C290-88CD-45F5-949E-182DAF6E61A8Q39511620-E008AA02-81F5-443E-BDB9-64BC6577BA8AQ42548732-9CA9B4B1-4A66-4544-8343-525F9EB13BADQ47239706-F53EE6FE-4A06-487E-9F5C-029F9086EDD6Q48005325-93A92A9F-412B-4270-A944-F957EE51DBCBQ48160350-56636629-0FCF-41D7-83EF-E56541294125Q48248399-F58C4A4E-0144-4938-9B52-C4DD293DA6E9Q52639107-9C982CFA-052B-4C83-A328-11E93AC2A84BQ53435772-1EB339FA-CB54-4737-8ED4-F4B6F941E78CQ53497032-2021A36E-86DC-4CDF-8B84-125397731C97
P2860
Size-optimized 32-channel brain arrays for 3 T pediatric imaging.
description
2011 nî lūn-bûn
@nan
2011 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Size-optimized 32-channel brain arrays for 3 T pediatric imaging.
@ast
Size-optimized 32-channel brain arrays for 3 T pediatric imaging.
@en
type
label
Size-optimized 32-channel brain arrays for 3 T pediatric imaging.
@ast
Size-optimized 32-channel brain arrays for 3 T pediatric imaging.
@en
prefLabel
Size-optimized 32-channel brain arrays for 3 T pediatric imaging.
@ast
Size-optimized 32-channel brain arrays for 3 T pediatric imaging.
@en
P2093
P2860
P50
P356
P1476
Size-optimized 32-channel brain arrays for 3 T pediatric imaging.
@en
P2093
Azma Mareyam
Boris Keil
Daniel D Dilks
Jennifer A McNab
P Ellen Grant
Veneta Tountcheva
Vijay Alagappan
P2860
P304
P356
10.1002/MRM.22961
P577
2011-06-07T00:00:00Z