Structural analysis of trabecular bone of the proximal femur using multislice computed tomography: a comparison with dual X-ray absorptiometry for predicting biomechanical strength in vitro.
about
Automated 3D trabecular bone structure analysis of the proximal femur--prediction of biomechanical strength by CT and DXA.Improving bone strength prediction in human proximal femur specimens through geometrical characterization of trabecular bone microarchitecture and support vector regression.Divergent Significance of Bone Mineral Density Changes in Aging Depending on Sites and Sex Revealed through Separate Analyses of Bone Mineral Content and AreaBone quality assessment for total hip arthroplasty with intraoperative trabecular torque measurementsMale-female differences in the association between incident hip fracture and proximal femoral strength: a finite element analysis studyMicro-CT vs. Whole Body Multirow Detector CT for Analysing Bone Regeneration in an Animal Model.The Association Between BMI and QCT-Derived Proximal Hip Structure and Strength in Older Men: A Cross-Sectional StudyMechanical torque measurement in the proximal femur correlates to failure load and bone mineral density ex vivo.Hip structural analysis: a comparison of DXA with CT in postmenopausal Japanese women.Proximal femoral structure and the prediction of hip fracture in men: a large prospective study using QCT.Standard radiography: untapped potential in the assessment of osteoporotic fracture risk.Finite Element Analysis of Denosumab Treatment Effects on Vertebral Strength in Ovariectomized Cynomolgus Monkeys.Combination of texture analysis and bone mineral density improves the prediction of fracture load in human femurs.Effect of View, Scan Orientation and Analysis Volume on Digital Tomosynthesis (DTS) Based Textural Analysis of Bone.Development and testing of texture discriminators for the analysis of trabecular bone in proximal femur radiographs.DXA and pQCT predict pertrochanteric and not femoral neck fracture load in a human side-impact fracture model.Trabecular bone structure analysis of the spine using clinical MDCT: can it predict vertebral bone strength?Introducing Anisotropic Minkowski Functionals and Quantitative Anisotropy Measures for Local Structure Analysis in Biomedical Imaging.Using Anisotropic 3D Minkowski Functionals for Trabecular Bone Characterization and Biomechanical Strength Prediction in Proximal Femur Specimens.Predicting the Biomechanical Strength of Proximal Femur Specimens with Minkowski Functionals and Support Vector Regression.Predicting the Biomechanical Strength of Proximal Femur Specimens through High Dimensional Geometric Features and Support Vector Regression.Characterizing Trabecular Bone structure for Assessing Vertebral Fracture Risk on Volumetric Quantitative Computed Tomography.Cortical Fractal Analysis and Collagen Crosslinks Content in Femoral Neck After Osteoporotic Fracture in Postmenopausal Women: Comparison with Osteoarthritis.Assessing vertebral fracture risk on volumetric quantitative computed tomography by geometric characterization of trabecular bone structure.Extraction of 3D Femur Neck Trabecular Bone Architecture from Clinical CT Images in Osteoporotic Evaluation: a Novel Framework.A computer-aided system for automatic extraction of femur neck trabecular bone architecture using isotropic volume construction from clinical hip computed tomography images.Comparison of effects of vanadium absorbed by Coprinus comatus with those of inorganic vanadium on bone in streptozotocin-diabetic rats.Yeast-incorporated gallium promotes fracture healing by increasing callus bony area and improving trabecular microstructure on ovariectomized osteopenic rats.The Singh Index does not correlate with bone mineral density (BMD) measured with dual energy X-ray absorptiometry (DXA) or peripheral quantitative computed tomography (pQCT).Emerging Research on Bone Health Using High-Resolution CT and MRI
P2860
Q33512932-9F5E2B51-D29D-41DF-AF7C-E611BB9AEB52Q33648627-9660F499-6847-450A-9C19-2C5341FD9ACBQ34507421-BB893403-F9A1-43E9-BA4D-8AC7B20312ACQ34610175-D0E04277-0D3C-49C1-8A41-E573A477CFB5Q34984691-0C454536-97F2-4A3D-AAE2-AF3E930BA1CAQ36202461-7484BA2A-140D-4227-A159-93987623A36CQ36585377-3F7780D1-FF10-4D6F-936A-FA627E2AB423Q37032054-C1F765BF-8515-4F0D-B238-9D98DCCD8814Q37049150-D752B81B-9F55-4A9A-94F3-35C209E5DF95Q37187065-C62BA2CF-CE2A-4FF6-B157-E9C0798A2DECQ38063088-56C0D05A-FD06-45CB-851A-8BAFD8413D7DQ39791628-45EA5499-C0DA-466A-9393-DCD20668F3A6Q39990436-EE0377FD-944C-49B3-9312-FEB4A46A1DA7Q40435054-96E98D2F-875C-4D49-AD1D-D864251D9535Q43528756-838F8858-17CA-477E-8F57-0DCDF597E7DFQ44223490-5F74E4C7-344F-4CD2-91E0-B0EE13FFB97EQ44660908-FDD091FA-884A-46CD-A1F0-903BDFB8C7FAQ45375155-3B5176C9-2E54-4BDC-B036-F89C7BF01C42Q45959639-9C5F3D03-C7A5-41CA-8B5F-8CB7469133E6Q46320006-34D30EDD-2EE8-4A10-8F8C-3A2AFB6016B5Q46716033-FCF1A87A-1E3C-4465-B8B7-AD20BFE07C75Q47142212-F9C97316-7AAF-485E-9434-69F252481AD9Q48105046-7D2DB6FB-FB2C-43E3-B391-A4D991CB24F3Q49723608-C84BE58E-E354-4509-B99B-3D95290C416AQ51009927-7EB52AC2-0459-4924-9BC1-1AF6E0CD2765Q51205426-9A793C46-4458-45A9-BBE5-F0F831DAEA04Q51342492-2A12F3AF-9A02-41B1-ADC8-B1AABC948892Q51567338-E2828EC1-B114-4DC6-B8E6-C4C911DADFA8Q53023423-0291F832-C01E-4E8B-A16A-849E6BCB9E42Q57644176-BB2E9183-D93F-4CEF-B153-A4B55D1C2953
P2860
Structural analysis of trabecular bone of the proximal femur using multislice computed tomography: a comparison with dual X-ray absorptiometry for predicting biomechanical strength in vitro.
description
2006 nî lūn-bûn
@nan
2006 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Structural analysis of trabecu ...... omechanical strength in vitro.
@ast
Structural analysis of trabecu ...... omechanical strength in vitro.
@en
type
label
Structural analysis of trabecu ...... omechanical strength in vitro.
@ast
Structural analysis of trabecu ...... omechanical strength in vitro.
@en
prefLabel
Structural analysis of trabecu ...... omechanical strength in vitro.
@ast
Structural analysis of trabecu ...... omechanical strength in vitro.
@en
P2093
P1476
Structural analysis of trabecu ...... omechanical strength in vitro.
@en
P2093
P2860
P2888
P356
10.1007/S00223-005-0070-3
P407
P577
2006-02-06T00:00:00Z
P6179
1014477866