Journal ArticleDOI
Biphasic Creep and Stress-Relaxation of Articular-Cartilage in Compression - Theory and Experiments
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This article is published in Journal of Biomechanical Engineering-transactions of The Asme.The article was published on 1980-02-01. It has received 2376 citations till now. The article focuses on the topics: Stress relaxation & Creep.read more
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Journal ArticleDOI
Viscoelastic properties of chondrocytes from normal and osteoarthritic human cartilage
TL;DR: Compared with earlier theoretical models of cell‐matrix interactions in articular cartilage, the increased elastic and viscous properties suggest that the mechanical environment of the chondrocyte may be altered in osteoarthritic cartilage.
Journal ArticleDOI
The deformation behavior and mechanical properties of chondrocytes in articular cartilage
TL;DR: Findings imply that the PCM plays a functional biomechanical role in articular cartilage, and alterations in PCM properties with aging or disease will significantly affect the biophysical environment of the chondrocyte.
Journal ArticleDOI
Glenohumeral stability. Biomechanical properties of passive and active stabilizers.
TL;DR: Additional studies of normal motion in different planes, the effects of rotator cuff pathology and dysfunction on the kinematics of the joint, proprioception of the capsule, and biomechanical tests of the inferior glenohumeral ligament and other components of the Joint capsule at strain rates associated with injury, need to be conducted to understand the specifics of normal shoulder function.
A Paradigm for Functional Tissue Engineering of Articular Cartilage
TL;DR: In this article, a review summarizes the experience with physiologic deformational loading of chondrocyte-seeded agarose hydrogels to promote development of cartilage constructs having mechanical properties matching that of the parent calf tissue.
Journal ArticleDOI
A Paradigm for Functional Tissue Engineering of Articular Cartilage via Applied Physiologic Deformational Loading
TL;DR: Early efforts to engineer cylindrical and anatomically shaped bilayered constructs of agarose hydrogel and bone will provide an underlying framework from which a functional tissue-engineering approach, as described by Butler and coworkers (2000), may be applied to general cell-scaffold systems adopted for cartilage tissue engineering.
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