Assessment of cortical bone with clinical and ultrashort echo time sequences.
about
Magnetic resonance of calcified tissues.Validation of quantitative bound- and pore-water imaging in cortical boneMRI of the hip at 7T: feasibility of bone microarchitecture, high-resolution cartilage, and clinical imagingBone mineral (31)P and matrix-bound water densities measured by solid-state (31)P and (1)H MRI.Magnetic resonance imaging assessed cortical porosity is highly correlated with μCT porosity.Cortical bone water changes in ovariectomized rats during the early postoperative period: Objective evaluation using sweep imaging with Fourier transform.Effects of inversion time on inversion recovery prepared ultrashort echo time (IR-UTE) imaging of bound and pore water in cortical bone.In Vivo UTE-MRI Reveals Positive Effects of Raloxifene on Skeletal-Bound Water in Skeletally Mature Beagle Dogs.Bi-component T2 * analysis of bound and pore bone water fractions fails at high field strengths.Ultrashort echo time magnetization transfer (UTE-MT) imaging of cortical bone.In Vivo Quantitative MR Imaging of Bound and Pore Water in Cortical Bone.Volumetric Cortical Bone Porosity Assessment with MR Imaging: Validation and Clinical Feasibility.MRI-derived bound and pore water concentrations as predictors of fracture resistanceSolid-State Quantitative (1)H and (31)P MRI of Cortical Bone in Humans.Separation of collagen-bound and porous bone water transverse relaxation in mice: proposal of a multi-step approach.Magnetic resonance imaging of myelin using ultrashort Echo time (UTE) pulse sequences: Phantom, specimen, volunteer and multiple sclerosis patient studies.Measurement of bound and pore water T1 relaxation times in cortical bone using three-dimensional ultrashort echo time cones sequences.Fast volumetric imaging of bound and pore water in cortical bone using three-dimensional ultrashort-TE (UTE) and inversion recovery UTE sequences.Advances in imaging approaches to fracture risk evaluation.Assessment of different fitting methods for in-vivo bi-component T2* analysis of human patellar tendon in magnetic resonance imagingEvaluation of bound and pore water in cortical bone using ultrashort-TE MRI.Separation of collagen-bound and porous bone-water longitudinal relaxation in mice using a segmented inversion recovery zero-echo-time sequence.Bone quantitative susceptibility mapping using a chemical species-specific R2* signal model with ultrashort and conventional echo data.Novel assessment tools for osteoporosis diagnosis and treatment.Investigation of the Longitudinal Relaxation Time of Rat Tibial Cortical Bone using SWIFT.Cortical Bone Porosity: What Is It, Why Is It Important, and How Can We Detect It?Magnetization transfer imaging of cortical bone in vivo using a zero echo time sequence in mice at 4.7 T: a feasibility study.Imaging and quantification of iron-oxide nanoparticles (IONP) using MP-RAGE and UTE based sequences.Visualization of Middle Ear Ossicles in Elder Subjects with Ultra-short Echo Time MR Imaging.
P2860
Q30589496-63700C52-013B-400A-9F6C-69E0100BAA2DQ30656749-1C4E1C9F-D273-4FFC-8A24-D209413B3FE5Q30675847-22F5A749-77BC-4C8C-BE5A-9D100E20E977Q30824972-100B4BBB-3AAC-4A1F-ACAF-438F674510D9Q30831057-BD1661D6-BC26-46FE-B4DD-B8E424E82828Q30854920-E532FD08-1DD2-4FCA-84A9-C9B421F748A9Q30864245-569F2EC0-012C-4435-957D-FAA07B330122Q30887197-2AEF836D-AE0E-455F-828F-01F3153D75C6Q30952904-E133F35E-6CB9-4B35-8D62-DE0DF30071B9Q30952921-C199BCA8-DE1B-4753-9216-156C2C8DD04EQ30960498-433C4829-0C7B-45C8-8A08-9EB195CCE400Q30982219-AAA0C01C-65E8-43D3-B101-7431510805D1Q31060711-F9A0F0B8-239F-40C3-B886-AFB8336DF80BQ31069297-7504A099-5CF7-4A93-8309-7247C3927D4AQ31085374-0213C108-35FF-44C9-9251-5613CED7182CQ31092769-AB2ED24E-3C3B-4E75-99CC-507EBA527785Q31105705-41CD501B-119C-49D0-B427-A1647A63774FQ31119860-FF19F987-B845-42AE-8A46-853851B0DEA8Q31141102-E4844C21-6D8E-4675-B096-EB41360D8858Q33894291-4C6DF4DF-A537-49F0-A15D-EF744F8E99AFQ35829986-01CCE6D3-EE17-492A-A928-7CD0C16D492CQ36028534-34686ABB-FF4A-4E18-8623-26A775CFEC8AQ36297808-FEDBD259-A552-4987-A297-381A16107FB7Q38216229-C186EA1C-F247-47EA-B3B3-26CC88F17A11Q38784353-F90EC05D-844D-47DE-AA68-D99A81B4A1AEQ38953355-17FBD0F8-3DA3-41D4-B77B-7B925D1A871EQ39626797-2F9E85E8-AC0B-486C-A815-5168D42FCABAQ40971704-DFC3D68E-9424-419B-B7D5-084C5318FA6CQ42359390-942C0440-D7F1-4E74-8FAF-C1D61727B0E8
P2860
Assessment of cortical bone with clinical and ultrashort echo time sequences.
description
2012 nî lūn-bûn
@nan
2012 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Assessment of cortical bone with clinical and ultrashort echo time sequences.
@ast
Assessment of cortical bone with clinical and ultrashort echo time sequences.
@en
type
label
Assessment of cortical bone with clinical and ultrashort echo time sequences.
@ast
Assessment of cortical bone with clinical and ultrashort echo time sequences.
@en
prefLabel
Assessment of cortical bone with clinical and ultrashort echo time sequences.
@ast
Assessment of cortical bone with clinical and ultrashort echo time sequences.
@en
P2093
P2860
P356
P1476
Assessment of cortical bone with clinical and ultrashort echo time sequences
@en
P2093
Graeme M Bydder
Jacqueline Corbeil
Juan C Hermida
Richard Znamirowski
P2860
P304
P356
10.1002/MRM.24497
P577
2012-09-21T00:00:00Z