ISSLS prize winner: how loading rate influences disc failure mechanics: a microstructural assessment of internal disruption.
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Tissue Engineering a Biological Repair Strategy for Lumbar Disc HerniationEndplate changes following discectomy: natural history and associations between imaging and clinical data.A novel finite element model of the ovine lumbar intervertebral disc with anisotropic hyperelastic material properties.Influence of biochemical composition on endplate cartilage tensile properties in the human lumbar spineLeg length discrepancy and osteoarthritis in the knee, hip and lumbar spine.Influence of lumbar intervertebral disc degeneration on the outcome of total lumbar disc replacement: a prospective clinical, histological, X-ray and MRI investigationOptical Coherence Tomographic Elastography Reveals Mesoscale Shear Strain Inhomogeneities in the Annulus Fibrosus.Role of biomechanics in intervertebral disc degeneration and regenerative therapies: what needs repairing in the disc and what are promising biomaterials for its repair?Molecular basis of intervertebral disc degeneration and herniations: what are the important translational questions?Significance of Vertebral Endplate Failure in Symptomatic Lumbar Disc Herniation.Region and strain-dependent diffusivities of glucose and lactate in healthy human cartilage endplate.The region-dependent biomechanical and biochemical properties of bovine cartilaginous endplate.A more realistic disc herniation model incorporating compression, flexion and facet-constrained shear: a mechanical and microstructural analysis. Part II: high rate or 'surprise' loading.A more realistic disc herniation model incorporating compression, flexion and facet-constrained shear: a mechanical and microstructural analysis. Part I: Low rate loading.An anisotropic multiphysics damage model with application to annulus fibrosus.Prediction of clinically relevant initiation and progression of tears within annulus fibrosus.A new dynamic six degrees of freedom disc-loading simulator allows to provoke disc damage and herniation.
P2860
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P2860
ISSLS prize winner: how loading rate influences disc failure mechanics: a microstructural assessment of internal disruption.
description
2010 nî lūn-bûn
@nan
2010年の論文
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2010年学术文章
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2010年学术文章
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2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
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2010年學術文章
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name
ISSLS prize winner: how loadin ...... ssment of internal disruption.
@en
ISSLS prize winner: how loadin ...... ssment of internal disruption.
@nl
type
label
ISSLS prize winner: how loadin ...... ssment of internal disruption.
@en
ISSLS prize winner: how loadin ...... ssment of internal disruption.
@nl
prefLabel
ISSLS prize winner: how loadin ...... ssment of internal disruption.
@en
ISSLS prize winner: how loadin ...... ssment of internal disruption.
@nl
P1433
P1476
ISSLS prize winner: how loadin ...... ssment of internal disruption.
@en
P2093
Neil D Broom
Peter A Robertson
P304
P356
10.1097/BRS.0B013E3181D9B69E
P407
P577
2010-10-01T00:00:00Z