Correlation of trabecular bone structure with age, bone mineral density, and osteoporotic status: in vivo studies in the distal radius using high resolution magnetic resonance imaging.
about
Assessment of bone turnover and bone quality in type 2 diabetic bone disease: current concepts and future directionsOrganic dust, lipopolysaccharide, and peptidoglycan inhalant exposures result in bone loss/diseasePostcranial skeletal pneumaticity: a case study in the use of quantitative microCT to assess vertebral structure in birdsEffects of local delivery of BMP2, zoledronate and their combination on bone microarchitecture, biomechanics and bone turnover in osteoporotic rabbitsNoncontact ultrasound imaging applied to cortical bone phantomsMRI of the wrist at 7 tesla using an eight-channel array coil combined with parallel imaging: preliminary results.Effects of surface roughness and maximum load on the mechanical properties of cancellous bone measured by nanoindentation.Postmenopausal women with osteoporosis and osteoarthritis show different microstructural characteristics of trabecular bone in proximal tibia using high-resolution magnetic resonance imaging at 3 teslaIn Vivo Quantitative MR Imaging of Bound and Pore Water in Cortical Bone.Advances in imaging approaches to fracture risk evaluation.Magnetic field distribution in the presence of paramagnetic plates in magnetic resonance imaging: a combined numerical and experimental study.Local bone enhancement fuzzy clustering for segmentation of MR trabecular bone images.Bone fragility and imaging techniques.Validation of quantitative magnetic resonance imaging-based apparent bone volume fraction in peri-articular tibial bone of cadaveric knees.Quantification of trabecular bone structure using magnetic resonance imaging at 3 Tesla--calibration studies using microcomputed tomography as a standard of reference.Areca nut extract protects against ovariectomy-induced osteoporosis in mice.Irisin prevents and restores bone loss and muscle atrophy in hind-limb suspended miceMonitoring of Cellular Changes in the Bone Marrow following PTH(1-34) Treatment of OVX Rats Using a Portable Stray-Field NMR Scanner.High-resolution imaging techniques for the assessment of osteoporosisSex differences in trabecular bone microarchitecture are not detected in pre and early pubertal children using magnetic resonance imaging.In vivo NMR microscopy allows short-term serial assessment of multiple skeletal implications of corticosteroid exposureInterrelationships between 3-T-MRI-derived cortical and trabecular bone structure parameters and quantitative-computed-tomography-derivedbone mineral density.T1/T2*-weighted MRI provides clinically relevant pseudo-CT density data for the pelvic bones in MRI-only based radiotherapy treatment planning.Effects of sex and age on bone microstructure at the ultradistal radius: a population-based noninvasive in vivo assessment.Effects of salmon calcitonin on trabecular microarchitecture as determined by magnetic resonance imaging: results from the QUEST study.Cortical and trabecular bone structure analysis at the distal radius-prediction of biomechanical strength by DXA and MRI.Quantitative imaging methods in osteoporosis.Comparative bone anatomy of commonly used laboratory animals: implications for drug discovery.Variable flip angle three-dimensional fast spin-echo sequence combined with outer volume suppression for imaging trabecular bone structure of the proximal femur.Accuracy of high-resolution in vivo micro magnetic resonance imaging for measurements of microstructural and mechanical properties of human distal tibial bone.Methods for assessing bone quality: a review.Geodesic topological analysis of trabecular bone microarchitecture from high-spatial resolution magnetic resonance imagesLongitudinal evaluation of the effects of alendronate on MRI bone microarchitecture in postmenopausal osteopenic womenNoninvasive imaging of bone microarchitecture.The pattern of trabecular bone microarchitecture in the distal femur of typically developing children and its effect on processing of magnetic resonance images.Imaging-Based Methods for Non-invasive Assessment of Bone Properties Influenced by Mechanical Loading.How precise is dental volumetric tomography in the prediction of bone density?Influence of the lateral pterygoid muscle on traumatic temporomandibular joint bony ankylosis.Evaluation of trabecular microarchitecture in nonosteoporotic postmenopausal women with and without fracture.Bone marrow lesions are associated with altered trabecular morphometry.
P2860
Q26750574-497422A1-8021-4758-BA97-F2156F123E13Q28396417-018615D8-8284-45DD-91D3-1FFCACF005DFQ28754631-E23824E3-8915-4927-BEE7-8587EFA5B217Q30358100-D6DEE22F-7A19-4F72-BBB8-66A48CA0F00AQ30454123-517129E7-0937-40EB-98FC-AD1831C2DA75Q30476722-25740C34-CA55-4897-8940-3F0BA912F903Q30499552-65AD8774-67F0-4E31-91F2-033B6BF66B49Q30539980-AA424B8C-3006-4960-A42C-949E0171A657Q30960498-2DE597EA-5E82-405A-81D4-C18CEFA861C6Q31141102-41995935-5B56-4650-81BA-8CD177CA9EE4Q31159596-37030B1A-D554-4D98-A758-FCB2BCAF552AQ33582095-FE78EE96-385A-46C9-933A-218EBF924F38Q33610307-1791D691-2E9E-49FC-93FE-7B1984EFAD83Q33611315-812F0B52-944C-4A5C-AEBC-7824BAE1F1A4Q33728546-2AF091E0-F074-4BDF-B60B-B360D5B43B88Q33744420-0038BD18-720C-4EF2-A67D-702910A8E0B1Q33767244-8B365D62-F1C3-4F6B-8659-19C3E40C1C22Q33790595-BD3F026E-B708-4FC8-9D58-58F3EE69A8E2Q33981001-866256A0-CDCC-478B-9C82-E539F89D15C1Q33996352-68201B6F-7CCA-48C3-A0A9-F71EA8D04825Q34049051-FBB29453-BFAC-4A3E-9D16-D83EEE6B93ADQ34238686-09587664-EA31-4594-A374-A6A8AB1070D5Q34308910-66D3AE59-B0C8-48F3-ADF6-1275A69379F2Q34315811-7C5FBC4B-FC18-4876-8873-5B54EAEF7CD6Q34439029-72B3AA0D-99FA-4AA6-BB17-6DB1404D611EQ34487841-60368523-3DAB-4473-9732-F8EC9BC6C6AAQ34680523-B5378597-3F52-4AAF-A81D-5A7C91F9A298Q34695228-6E108B93-6373-44B9-8CF8-B50B51DC7720Q34765970-47BD0EDD-3926-4F40-A728-C2A89B08578FQ35053679-CE760517-4E56-4770-91A3-BCF8A0686830Q35078802-759632BD-7BCC-4300-B5CE-7108E359C2AFQ35653745-B7B35865-D655-49FC-AEAB-4BF22F7EE9ADQ35703229-C6AC26D1-7568-4DA0-B511-3CC3DC34BA7AQ35703263-B22916FF-18F2-4D7D-89D3-08C01C5B04EFQ35798110-2DFC220E-BDCA-4AC9-9D03-BAA3B1F06C48Q35877300-9302C1CC-BDF9-4889-90E1-D80CBD70F484Q36014597-FA0E1D4C-3ADF-4E1F-819A-AB4BA96FD6C3Q36032839-25F15975-06F6-40AA-AF9E-4B6EA687E81EQ36040681-10563FE0-FEDB-4CB0-8E7E-7B2AA057D144Q36339411-FD0B5375-1C4F-4E16-B23A-D95481D38BAF
P2860
Correlation of trabecular bone structure with age, bone mineral density, and osteoporotic status: in vivo studies in the distal radius using high resolution magnetic resonance imaging.
description
1997 nî lūn-bûn
@nan
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
1997年论文
@zh
1997年论文
@zh-cn
name
Correlation of trabecular bone ...... on magnetic resonance imaging.
@en
type
label
Correlation of trabecular bone ...... on magnetic resonance imaging.
@en
prefLabel
Correlation of trabecular bone ...... on magnetic resonance imaging.
@en
P2093
P2860
P1476
Correlation of trabecular bone ...... on magnetic resonance imaging.
@en
P2093
Majumdar S
P2860
P304
P356
10.1359/JBMR.1997.12.1.111
P577
1997-01-01T00:00:00Z