| P2093 | author name string | Dawn M Elliott | |
| | Daniel H Cortes | |
| | John F DeLucca | |
| | Nathan T Jacobs | |
| P2860 | cites work | Effects of degeneration on the biphasic material properties of human nucleus pulposus in confined compression | Q82054802 |
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| | Synthesis rates and binding kinetics of matrix products in engineered cartilage constructs using chondrocyte-seeded agarose gels | Q33594734 |
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| | Effect of orientation and targeted extracellular matrix degradation on the shear mechanical properties of the annulus fibrosus | Q35581427 |
| | Human Annulus Fibrosus Dynamic Tensile Modulus Increases with Degeneration | Q35661761 |
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| | Hyperelastic mechanical behavior of chitosan hydrogels for nucleus pulposus replacement-experimental testing and constitutive modeling | Q39643316 |
| | Injectable silk fibroin/polyurethane composite hydrogel for nucleus pulposus replacement | Q39666151 |
| | Biochemistry of the Intervertebral Disc | Q39828715 |
| | Analysis of cell viability in intervertebral disc: Effect of endplate permeability on cell population | Q39920146 |
| | Glycation increases human annulus fibrosus stiffness in both experimental measurements and theoretical predictions | Q40424691 |
| | Cell viability in intervertebral disc under various nutritional and dynamic loading conditions: 3d finite element analysis | Q41340119 |
| | Human annulus fibrosus material properties from biaxial testing and constitutive modeling are altered with degeneration | Q41394822 |
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| | A special theory of biphasic mixtures and experimental results for human annulus fibrosus tested in confined compression | Q41738733 |
| | Mechanical properties of the extra-fibrillar matrix of human annulus fibrosus are location and age dependent | Q42877570 |
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| | An extended biphasic model for charged hydrated tissues with application to the intervertebral disc | Q47427730 |
| | Quantifying the contributions of structure to annulus fibrosus mechanical function using a nonlinear, anisotropic, hyperelastic model | Q48421886 |
| | Computational modeling of nutrient utilization in engineered cartilage. | Q51279459 |
| | Apparent behaviour of charged and neutral materials with ellipsoidal fibre distributions and cross-validation of finite element implementations. | Q51382673 |
| | A comparison between mechano-electrochemical and biphasic swelling theories for soft hydrated tissues. | Q51481294 |
| | Breakthroughs in computational modeling of cartilage regeneration in perfused bioreactors. | Q51542590 |
| | Comparison of four methods to simulate swelling in poroelastic finite element models of intervertebral discs. | Q51545813 |
| | Determination of the strain-dependent hydraulic permeability of the compressed bovine nucleus pulposus. | Q51897479 |
| | Shear mechanical properties of human lumbar annulus fibrosus. | Q52136583 |
| | Composite hydrogels for nucleus pulposus tissue engineering | Q53101588 |
| | Image-based tissue engineering of a total intervertebral disc implant for restoration of function to the rat lumbar spine | Q61903728 |
| | The nonlinear characteristics of soft gels and hydrated connective tissues in ultrafiltration | Q68659711 |
| | Compressive properties of the cartilaginous end-plate of the baboon lumbar spine | Q70682523 |
| | Compressive mechanical properties of the human anulus fibrosus and their relationship to biochemical composition | Q72353980 |
| | The anisotropic hydraulic permeability of human lumbar anulus fibrosus. Influence of age, degeneration, direction, and water content | Q73335557 |
| | The viscoelastic behavior of the non-degenerate human lumbar nucleus pulposus in shear | Q73927624 |
| | Degeneration affects the anisotropic and nonlinear behaviors of human anulus fibrosus in compression | Q77355012 |
| P433 | issue | 9 | |
| P921 | main subject | tissue engineering | Q1540285 |
| P304 | page(s) | 2088-2094 | |
| P577 | publication date | 2013-12-25 | |
| P1433 | published in | Journal of Biomechanics | Q4862281 |
| P1476 | title | Elastic, permeability and swelling properties of human intervertebral disc tissues: A benchmark for tissue engineering | |
| P478 | volume | 47 | |