about
Lower peak bone mass and abnormal trabecular and cortical microarchitecture in young men infected with HIV early in life.Skeletal structure in postmenopausal women with osteopenia and fractures is characterized by abnormal trabecular plates and cortical thinningReproducibility of direct quantitative measures of cortical bone microarchitecture of the distal radius and tibia by HR-pQCTBone mass and microarchitecture in CKD patients with fractureCortical porosity identifies women with osteopenia at increased risk for forearm fractures.Abnormalities in cortical bone, trabecular plates, and stiffness in postmenopausal women treated with glucocorticoids.Variations in morphological and biomechanical indices at the distal radius in subjects with identical BMD.Abnormal microarchitecture and stiffness in postmenopausal women with ankle fractures.Discriminants of prevalent fractures in chronic kidney diseaseAbnormal microarchitecture and reduced stiffness at the radius and tibia in postmenopausal women with fractures.Determinants of forearm strength in postmenopausal women.7 Tesla MRI of bone microarchitecture discriminates between women without and with fragility fractures who do not differ by bone mineral density.Variability of trabecular microstructure is age-, gender-, race- and anatomic site-dependent and affects stiffness and stress distribution properties of human vertebral cancellous bone.Effects of sequential osteoporosis treatments on trabecular bone in adult rats with low bone massWhat accounts for rib fractures in older adults?Specialized connective tissue: bone, the structural framework of the upper extremity.Bone density, microarchitecture and stiffness in Caucasian and Caribbean Hispanic postmenopausal American women.Individual trabecula segmentation (ITS)-based morphological analyses and microfinite element analysis of HR-pQCT images discriminate postmenopausal fragility fractures independent of DXA measurements.The epidemiology of distal radius fractures.Bone microarchitecture in hemodialysis patients assessed by HR-pQCT.Assessing fracture risk using gradient boosting machine (GBM) models.Wrist Fracture and Risk of Subsequent Fracture: Findings from the Women's Health Initiative Study.Bone Mineral Density as a Predictor of Subsequent Wrist Fractures: Findings From the Women's Health Initiative Study.Increased cortical porosity in type 2 diabetic postmenopausal women with fragility fractures.Better skeletal microstructure confers greater mechanical advantages in Chinese-American women versus white women.Differences in bone microarchitecture between postmenopausal Chinese-American and white women.Age- and gender-related differences in cortical geometry and microstructure: Improved sensitivity by regional analysisBariatric surgery results in cortical bone loss.Voxel size dependency, reproducibility and sensitivity of an in vivo bone loading estimation algorithm.High-resolution peripheral quantitative computed tomography for the assessment of bone strength and structure: a review by the Canadian Bone Strength Working Group.Premenopausal and postmenopausal differences in bone microstructure and mechanical competence in Chinese-American and white women.Trabecular and cortical microarchitecture in postmenopausal HIV-infected women.Sclerostin antibody prevented progressive bone loss in combined ovariectomized and concurrent functional disuse.Microarchitectural abnormalities are more severe in postmenopausal women with vertebral compared to nonvertebral fractures.Fast trabecular bone strength predictions of HR-pQCT and individual trabeculae segmentation-based plate and rod finite element model discriminate postmenopausal vertebral fractures.Microarchitecture and Peripheral BMD are Impaired in Postmenopausal White Women With Fracture Independently of Total Hip T-Score: An International Multicenter StudyDeterioration of trabecular plate-rod and cortical microarchitecture and reduced bone stiffness at distal radius and tibia in postmenopausal women with vertebral fracturesEvaluation and treatment of osetoporotic distal radius fracture in the elderly patient3D image registration is critical to ensure accurate detection of longitudinal changes in trabecular bone density, microstructure, and stiffness measurements in rat tibiae by in vivo microcomputed tomography (μCT).Improved fracture risk assessment based on nonlinear micro-finite element simulations from HRpQCT images at the distal radius.
P2860
Q33603221-EE91DCD0-C1D5-4F9A-80D2-6AB32A9133A6Q33854524-5FFBE780-4DCC-432E-A6A3-7E8CE438974CQ34079504-BB3AE437-5B66-48E6-B58D-571ABA29590FQ34124155-D00DCC86-95D2-4B08-BE61-80DA73121D9BQ34145022-00761D0A-4A06-4658-B28C-216131317E7FQ34468133-E7FB3636-CFDF-4886-BC11-3050CF47D34EQ34482348-1BAF5173-380D-4660-8929-4069F69F01BAQ35101796-EA7118F5-7F9D-4FA0-B198-E4638A1FADA6Q35142758-16197D6B-2BA0-4A70-9416-BE81ED584AE0Q35146437-37C36351-F743-43F0-9816-685C95DCEC39Q35148570-C760DF18-0557-4638-B55A-EAD3C0587FFEQ35187088-11B1A515-B477-4FF4-98F1-06BE0854471DQ35206911-2EFA3005-2FC0-40D0-9A79-73D9C54D509CQ35384673-202AAE04-AC18-4542-A64B-EE78186FE7C2Q35418396-AA2E945E-E7E5-4EEA-9502-3FD94BE1A182Q35742611-ABF1D17B-E278-454D-8380-C909CDF70729Q35755168-411546D1-A0AE-4DCD-AC33-4B1A84CE6135Q35791429-7FF7E4C9-2157-4B41-8258-9EE258871B07Q35936280-761A3100-2381-4956-ADBC-3179CFED14BCQ35983458-CF4C1442-4DC9-4BFA-A0AD-CACA30612E09Q36129582-2275ADC2-DE1F-472B-BC49-1CE8BCF19C71Q36190846-B6371752-6A55-4A09-8D3F-297CBF67FF4EQ36433622-FB9997EF-81A7-404D-A411-239AA6094E10Q36501319-4C1FEBEE-CFD0-42A6-95FD-C5886A31D849Q36553060-8D638AA1-48F9-49F2-9C33-240938B81818Q36573777-3758EFF6-CDCF-4740-85DA-BFCD67DD0AF8Q36588215-839749F1-50DB-439A-B220-FFA3209FE0EBQ36589419-B3185410-0C17-4A8B-98C4-6337ECEA464AQ36596192-0CD98DCD-5AFD-46AC-AAF7-7DD5A1D1CF9BQ36809342-08BD9571-93E8-4469-BCE5-CBEBE276CC70Q36817003-57B8E80D-94AB-473A-AAEC-25F518E5A9EFQ36849920-1E4740CC-EA92-4D2F-A61B-56BC0F702282Q36889104-C9B512BC-FAD9-46FC-B2D6-E1B171948560Q36906951-DCCB9D73-E48E-44DB-8581-C92EB993DF33Q36944938-72926EA2-070F-465C-AFF8-C31F78CAA00FQ36963613-6960CE4D-5393-4155-B19A-E2AA3396EA09Q36984128-A6CD75C4-D19B-4244-9D19-BF67A3FEDC45Q36986545-4C07C715-4AEA-4593-B4AC-B5A7CA86EB17Q37026160-F774B202-3BDF-451F-94C9-B12A5157B8F2Q37282432-8F82373B-9FA5-4919-BAD0-C2698AA217CF
P2860
description
2009 nî lūn-bûn
@nan
2009 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
name
Assessing forearm fracture risk in postmenopausal women
@ast
Assessing forearm fracture risk in postmenopausal women
@en
type
label
Assessing forearm fracture risk in postmenopausal women
@ast
Assessing forearm fracture risk in postmenopausal women
@en
prefLabel
Assessing forearm fracture risk in postmenopausal women
@ast
Assessing forearm fracture risk in postmenopausal women
@en
P2093
P2860
P50
P1476
Assessing forearm fracture risk in postmenopausal women
@en
P2093
D Christen
E J Atkinson
L J Melton
S J Achenbach
P2860
P2888
P304
P356
10.1007/S00198-009-1047-2
P407
P577
2009-08-28T00:00:00Z
P5875
P6179
1034006237