about
Non-invasive predictors of human cortical bone mechanical properties: T(2)-discriminated H NMR compared with high resolution X-rayUltrashort echo time and zero echo time MRI at 7TCharacterizing inter-compartmental water exchange in myelinated tissue using relaxation exchange spectroscopy.Partial removal of pore and loosely bound water by low-energy drying decreases cortical bone toughness in young and old donors.Validation of quantitative bound- and pore-water imaging in cortical boneAge-related changes in the fracture resistance of male Fischer F344 rat boneChanges in skeletal collagen cross-links and matrix hydration in high- and low-turnover chronic kidney disease.Markerless attenuation correction for carotid MRI surface receiver coils in combined PET/MR imagingClinically compatible MRI strategies for discriminating bound and pore water in cortical bone.Modular Coils with Low Hydrogen Content Especially for MRI of Dry Solids.ZTE imaging in humans.Origins of the ultrashort-T2 1H NMR signals in myelinated nerve: a direct measure of myelin content?Rapid dual-echo ramped hybrid encoding MR-based attenuation correction (dRHE-MRAC) for PET/MR.In vivo magnetization transfer imaging of the lung using a zero echo time sequence at 4.7 Tesla in mice: Initial experience.A virtually 1H-free birdcage coil for zero echo time MRI without background signal.Rapid and robust pulmonary proton ZTE imaging in the mouse.Exploring the bandwidth limits of ZTE imaging: Spatial response, out-of-band signals, and noise propagation.ZTE imaging with enhanced flip angle using modulated excitation.
P2860
Q28743351-E89BB32F-B294-44B5-B7C9-350C69315729Q30355307-B7DECF0B-8C2F-41E0-9D24-C740AE74DF3FQ30581244-5A818681-F6FB-40C2-8BE2-8689187B4085Q30620616-05A4087D-A7AF-4E18-9E3D-E8033240621BQ30656749-FD9703A0-9A4C-4A28-A0B8-EFB7922ADEB7Q30700273-5EC8BD55-4FBB-4D3C-A499-2C9E23F21A73Q30873913-8729BC9D-BDE9-48D6-A779-07103C1D4706Q30960471-E7C632B9-00BB-46E1-B805-55B7FCC0FECFQ34147307-934677F5-2E27-4676-A0F4-F40AD0884050Q35818813-89C2BF37-4542-4894-8BC1-48C77D9A7F30Q40118480-F8BAD2C3-C842-4D81-B35B-814E6F204ED6Q42069696-652A18CB-5D08-41D9-A5D3-A27A7524CCF9Q47859761-8DC63232-0DBD-4401-A823-CE42E9179964Q50868008-5F70FA5C-9FB0-453B-91F6-271A0CB30140Q51209737-0E356F76-4981-44BA-8CA6-62925225C074Q51707804-9B802B5D-92A7-4F3C-B85D-DAD8D73B37A1Q53400632-B021C66B-6579-4424-8868-20357CAEB80AQ53438962-A144C417-D807-4B32-B0C6-969E12183EBE
P2860
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
2010年论文
@zh
2010年论文
@zh-cn
name
RF coil considerations for short-T2 MRI.
@en
RF coil considerations for short-T2 MRI.
@nl
type
label
RF coil considerations for short-T2 MRI.
@en
RF coil considerations for short-T2 MRI.
@nl
prefLabel
RF coil considerations for short-T2 MRI.
@en
RF coil considerations for short-T2 MRI.
@nl
P2093
P2860
P356
P1476
RF coil considerations for short-T2 MRI.
@en
P2093
Daniel F Gochberg
Ken Wilkens
Mark D Does
R Adam Horch
P2860
P304
P356
10.1002/MRM.22558
P577
2010-12-01T00:00:00Z