Correlation of bone mineral density with strength and microstructural parameters of cortical bone in vitro.
about
Practical Modeling Concepts for Connective Tissue Stem Cell and Progenitor Compartment KineticsAn efficient method of modeling material properties using a thermal diffusion analogy: an example based on craniofacial boneStructural analysis of cortical porosity applied to HR-pQCT data.Optimization of microCT data processing for modelling of dental structures in orthodontic studies.Automated 3D trabecular bone structure analysis of the proximal femur--prediction of biomechanical strength by CT and DXA.Amount of bone lengthening affects blood flow recovery and bone mineralization after distraction osteogenesis in a canine cleft palate model.Quantifying cortical bone water in vivo by three-dimensional ultra-short echo-time MRI.Development of a minimally invasive laser needle system: effects on cortical bone of osteoporotic mice.Direct stimulation of bone mass by increased GH signalling in the osteoblasts of Socs2-/- miceDistribution of cortical bone in the femoral neck and hip fracture: a prospective case-control analysis of 143 incident hip fractures; the AGES-REYKJAVIK Study.Musculoskeletal plasticity after acute spinal cord injury: effects of long-term neuromuscular electrical stimulation training.Sclerostin Antibody Treatment Increases Bone Formation, Bone Mass, and Bone Strength of Intact Bones in Adult Male Rats.Heavy metal lead exposure, osteoporotic-like phenotype in an animal model, and depression of Wnt signalingBone mechanical properties and changes with osteoporosis.Race and sex differences in bone mineral density and geometry at the femur.Risk of vertebral compression fractures in multiple myeloma patients: A finite-element study.Bone Mineral Density, Mechanical, Microstructural Properties and Mineral Content of the Femur in Growing Rats Fed with Cactus Opuntia ficus indica (L.) Mill. (Cactaceae) Cladodes as Calcium Source in DietRationale, design and clinical performance of the mechanical response tissue analyser: a non-invasive technology for measurement of long bone bending stiffness.Bone fatigue and its implications for injuries in racehorses.Micro-Computed tomography (CT) based assessment of dental regenerative therapy in the canine mandible model.A biomechanical sorting of clinical risk factors affecting osteoporotic hip fracture.Horticultural activity predicts later localized limb status in a contemporary pre-industrial population.Investigating histomorphometric relationships at the human femoral midshaft in a biomechanical context.Understanding Bone Strength Is Not Enough.In vivo assessment of bone structure and estimated bone strength by first- and second-generation HR-pQCT.Prevalent role of porosity and osteonal area over mineralization heterogeneity in the fracture toughness of human cortical bone.Local soft tissue compression enhances fracture healing in a rabbit fibula.Nanomechanical properties of mineralised collagen microfibrils based on finite elements method: biomechanical role of cross-links.Age at death estimation from bone histology in Malaysian males.Analysis of plastic deformation in cortical bone after insertion of coated and non-coated self-tapping orthopaedic screws.Effect of monthly ibandronate on hip structural geometry in men with low bone density.Core decompression of the equine navicular bone: an in vitro biomechanical study.Porosity of human mandibular condylar bone.Spatial variation in mandibular bone elastic modulus and its effect on structural bending stiffness: A test case using the Taï Forest monkeys.Site-specific quantification of bone quality using highly nonlinear solitary waves.Dietary vitamin D during pregnancy has dose-dependent effects on long bone density and architecture in guinea pig offspring but not the sows.Elevated Levels of Peripheral Kynurenine Decrease Bone Strength in Rats with Chronic Kidney Disease.Secondary osteons scale allometrically in mammalian humerus and femur.Cortical bone response to the presence of load-bearing percutaneous osseointegrated prostheses.Deterioration of bone quality in the tibia and fibula in growing mice during skeletal unloading: gender-related differences.
P2860
Q24792634-1415D712-E5B5-454D-9F64-543F6E49DCE0Q28742848-82CF86D5-3E1A-4682-93A9-AB9717EB888CQ30422004-7F99800E-BEC4-478A-AD50-93D752B6248BQ31120580-1F85001E-FCEF-4551-91DD-7174770AC165Q33512932-93EAC4E0-1133-4B62-ABD0-AB7466D4AE18Q33567078-6C9B3BD0-420F-4423-B248-4BC32AC0100EQ33806094-CE2188EC-342F-4DB9-9235-392C3B08351EQ34074296-2679F798-34B4-4592-A80C-20493CBAEDADQ34197808-EA962234-4C82-4A57-A47D-8ECCC5530100Q35086199-BA9AF118-E43A-4179-9DC5-55F7F3995D7EQ35819950-F033B3F7-CE20-4248-A9EF-73694997498AQ36192571-251F800A-327E-4748-B51C-E4C2E7CBBF8FQ36556068-3C053642-3555-4DAF-A477-501CB20F852EQ37113961-0BB7E425-CCE3-4D0F-8541-A2B9ED9C25A8Q37369371-D328001E-3B11-479F-B569-694690EBEBFDQ37606354-E2B8F736-8D18-4C56-8FFB-732E71DF496EQ37673139-44A40B66-167B-4EB5-B688-4E6E1D1B49E7Q38077557-0049F6A9-5842-4602-8798-E2AD8B66B24CQ38188049-F7D7DBED-09CE-49AA-8D46-99E775CC97B6Q38314053-BD409B22-3FC5-4B5D-A6CB-B2FD225C28B7Q38585164-AFAD8B67-BCEC-475D-8185-603755B7C081Q38874403-ADB0AD6E-5D86-4333-BF33-115F869175FEQ39025881-387DE376-9F35-490A-B5FB-B6824F192BBAQ39076566-341EE643-4D9F-4085-B447-6A3A66D62B42Q39786085-D897BAC8-09B6-4725-822F-DA9E72C5CF0CQ41377964-52A43594-3AB2-4991-B255-DE9B1CEBAAF7Q41786266-A6B32DB1-8742-45B5-8B4A-1C13FE02B208Q44064055-16FDC26F-EFEC-44FB-91CD-CBCCDDE8CC05Q44972021-978713E5-A907-413B-A3C5-C38E316122B8Q45826833-77FD2CF2-517D-4DC3-BD32-6F1C5D4F77E9Q46047966-04E6B7AD-C48C-493B-BD16-C1E61E44DEF1Q46122758-FCC07F50-E794-4717-A4AC-FDF57678376CQ46280320-A6E73C77-B0FE-4338-BC44-F0E17284E03EQ46458645-CB861D8E-563E-48D1-9211-14BA1FF37898Q46504149-341C0834-A3A7-47F6-B18B-F7E5595842AAQ46653246-777BA7BC-2134-4857-BD40-8565C16E099DQ47099897-91EAB18A-ADB8-41DF-B765-07F93EC98FA4Q47126238-C98F330D-FED5-49E0-AA50-A9D4617057D1Q47373887-F4842E16-20F1-44F2-8EA7-186E9083593AQ51375621-1AB0EF64-4C52-40A8-91DC-810D601048D8
P2860
Correlation of bone mineral density with strength and microstructural parameters of cortical bone in vitro.
description
2002 nî lūn-bûn
@nan
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
2002年论文
@zh
2002年论文
@zh-cn
name
Correlation of bone mineral de ...... ers of cortical bone in vitro.
@en
Correlation of bone mineral de ...... ers of cortical bone in vitro.
@nl
type
label
Correlation of bone mineral de ...... ers of cortical bone in vitro.
@en
Correlation of bone mineral de ...... ers of cortical bone in vitro.
@nl
prefLabel
Correlation of bone mineral de ...... ers of cortical bone in vitro.
@en
Correlation of bone mineral de ...... ers of cortical bone in vitro.
@nl
P2093
P1433
P1476
Correlation of bone mineral de ...... ters of cortical bone in vitro
@en
P2093
G D Krischak
M R Sarkar
N J Wachter
P356
10.1016/S8756-3282(02)00779-2
P50
P577
2002-07-01T00:00:00Z