The thickness of human vertebral cortical bone and its changes in aging and osteoporosis: a histomorphometric analysis of the complete spinal column from thirty-seven autopsy specimens.
about
A three-dimensional histological method for direct determination of the number of trabecular termini in cancellous bone.Geometry of the intervertebral volume and vertebral endplates of the human spine.Effect of sacral slope on the biomechanical behavior of the low lumbar spine.Bone three-dimensional microstructural features of the common osteoporotic fracture sites.Mechanisms of initial endplate failure in the human vertebral body.Alterations of cortical and trabecular architecture are associated with fractures in postmenopausal women, partially independent of decreased BMD measured by DXA: the OFELY study.Tibial cortical thickness: A dependable tool for assessing osteoporosis in the absence of dual energy X-ray absorptiopmetry.How do bisphosphonates prevent fractures?Automated cortical bone segmentation for multirow-detector CT imaging with validation and application to human studies.Age-related changes in trabecular and cortical bone microstructurePercolation theory relates corticocancellous architecture to mechanical function in vertebrae of inbred mouse strains.Cervical spine bone density in young healthy adults as a function of sex, vertebral level and anatomic location.Areal and volumetric bone mineral density and risk of multiple types of fracture in older men.Does cortical bone thickness in the last sacral vertebra differ among tail types in primates?The challenges in developing a finite element injury model of the neck to predict the penetration of explosively propelled projectiles.The role of cortical shell and trabecular fabric in finite element analysis of the human vertebral body.Patient-specific fracture risk assessment of vertebrae: A multiscale approach coupling X-ray physics and continuum micromechanics.Contribution of the cortical shell of vertebrae to mechanical behaviour of the lumbar vertebrae with implications for predicting fracture risk.Towards assessing cortical bone porosity using low-frequency quantitative acoustics: A phantom-based study.The use of X-shaped cross-link in posterior spinal constructs improves stability in thoracolumbar burst fracture: a finite element analysis.Contribution to FE modeling for intraoperative pedicle screw strength prediction.Automated 3D closed surface segmentation: application to vertebral body segmentation in CT images.BMP-7 stimulates early diaphyseal fracture healing in estrogen deficient rats.Low dose of bisphosphonate enhances sclerostin antibody-induced trabecular bone mass gains in Brtl/+ osteogenesis imperfecta mouse model.CT determination of bone mineral density and structural investigations on the axial skeleton for estimating the osteoporosis-related fracture risk by means of a risk score.Long range node-strut analysis of trabecular bone microarchitecture.Reduced Bone Material Strength is Associated with Increased Risk and Severity of Osteoporotic Fractures. An Impact Microindentation Study.
P2860
Q30656946-13D2BF77-F3E6-46B2-9527-9B5B00CA6375Q33577927-CFF7C97C-6030-4FED-B224-18DBAFB5BBCAQ33724109-E0A97EDF-B66E-4220-BC7C-6F72DF33B4B8Q34047741-8D74F56C-499E-4656-91BB-42110B12A19AQ34348645-4FF900CD-6D0B-4352-8177-86E3FE8DB5B5Q34593182-38442B16-81E3-42AA-88A6-2C34B3F9D1BCQ35052491-0B4E2164-A0B5-4CC0-9590-52F6022D7899Q35547420-6598E69D-2BBF-40FC-A016-7DD6CB225325Q35842283-55823A7A-F1DE-48BE-987A-0E89542E9140Q36734024-804C4E91-0728-4279-8960-14D30A7E014FQ37115016-0E18440F-4303-4F97-9A07-24E9FFCB076AQ38800216-5F393DC1-47C5-4D4C-A600-66DBD441B32BQ38935399-EA3C9A89-BAED-47EA-99D2-49D4DA25239BQ39027587-441915A1-4222-4949-B56C-EA89A79E38E5Q39336348-EFA420A7-7B48-4C89-B8E1-9694B5271A83Q39926358-E1886B33-1904-4AE0-890D-E02116B45508Q40212716-190732BA-3428-421B-842D-DD2515D25638Q40839985-985CCB80-542D-4C58-A01E-F470B1A6E4ACQ41576639-F86A3821-C06E-42E1-B431-47944D1FC921Q45739914-42B281B0-A1C7-4F0D-85C3-BE04D5C59087Q47332738-A2D2617D-27FC-4A58-B04A-E44AACE3DCAEQ50775881-5490B436-A597-4A9B-BA65-290219262FFBQ51387021-35FCB1D6-3101-44C0-8FC2-69C195C351D0Q52653933-E94CA8FF-A1A3-4E94-B5AF-731A439AC90DQ52975910-96C92C09-23B8-49D2-929A-F5F4C20E0914Q53198461-7F6D6F10-2AA5-49DD-8184-7A1BED18F082Q54357682-7E3618FC-9B14-4066-934F-E2042875322B
P2860
The thickness of human vertebral cortical bone and its changes in aging and osteoporosis: a histomorphometric analysis of the complete spinal column from thirty-seven autopsy specimens.
description
1997 nî lūn-bûn
@nan
1997年の論文
@ja
1997年学术文章
@wuu
1997年学术文章
@zh
1997年学术文章
@zh-cn
1997年学术文章
@zh-hans
1997年学术文章
@zh-my
1997年学术文章
@zh-sg
1997年學術文章
@yue
1997年學術文章
@zh-hant
name
The thickness of human vertebr ...... hirty-seven autopsy specimens.
@en
The thickness of human vertebr ...... hirty-seven autopsy specimens.
@nl
type
label
The thickness of human vertebr ...... hirty-seven autopsy specimens.
@en
The thickness of human vertebr ...... hirty-seven autopsy specimens.
@nl
prefLabel
The thickness of human vertebr ...... hirty-seven autopsy specimens.
@en
The thickness of human vertebr ...... hirty-seven autopsy specimens.
@nl
P2093
P1476
The thickness of human vertebr ...... hirty-seven autopsy specimens.
@en
P2093
P2860
P356
10.1359/JBMR.1997.12.1.89
P577
1997-01-01T00:00:00Z