Pages that link to "Q34682251"
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The following pages link to Material properties of the human lumbar facet joint capsule (Q34682251):
Displaying 18 items.
- Estimating zero-strain states of very soft tissue under gravity loading using digital image correlation (Q33653556) (← links)
- Human lumbar spine creep during cyclic and static flexion: creep rate, biomechanics, and facet joint capsule strain. (Q34226567) (← links)
- Comparison of human lumbar facet joint capsule strains during simulated high-velocity, low-amplitude spinal manipulation versus physiological motions (Q34226576) (← links)
- Relationships between joint motion and facet joint capsule strain during cat and human lumbar spinal motions. (Q35190252) (← links)
- MRI findings in the lumbar spines of asymptomatic, adolescent, elite tennis players (Q36767996) (← links)
- Spinal Facet Joint Biomechanics and Mechanotransduction in Normal, Injury and Degenerative Conditions (Q36995630) (← links)
- Position sensitivity of feline paraspinal muscle spindles to vertebral movement in the lumbar spine (Q37225544) (← links)
- Image-based multiscale mechanical modeling shows the importance of structural heterogeneity in the human lumbar facet capsular ligament (Q38865541) (← links)
- Planar biaxial extension of the lumbar facet capsular ligament reveals significant in-plane shear forces (Q39445542) (← links)
- Quantitative comparison of ligament formulation and pre-strain in finite element analysis of the human lumbar spine (Q39894555) (← links)
- Biomechanical implications of lumbar spinal ligament transection (Q42691186) (← links)
- Strain changes on the cortical shell of vertebral bodies due to spine ageing: a parametric study using a finite element model evaluated by strain measurements (Q44568911) (← links)
- Dynamic responsiveness of lumbar paraspinal muscle spindles during vertebral movement in the cat. (Q48528563) (← links)
- Collagen Organization in Facet Capsular Ligaments Varies With Spinal Region and With Ligament Deformation (Q50988143) (← links)
- Nonlinear viscoelasticty plays an essential role in the functional behavior of spinal ligaments (Q51452999) (← links)
- Human cervical spine ligaments exhibit fully nonlinear viscoelastic behavior (Q51662348) (← links)
- A comparison between the principal stress direction and collagen fiber orientation in coronary atherosclerotic plaque fibrous caps (Q86890448) (← links)
- Isotropic Failure Criteria Are Not Appropriate for Anisotropic Fibrous Biological Tissues (Q87648955) (← links)