Depth-dependent anisotropy of the micromechanical properties of the extracellular and pericellular matrices of articular cartilage evaluated via atomic force microscopy
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Biomechanical properties of murine meniscus surface via AFM-based nanoindentationAtomic force microscopy reveals regional variations in the micromechanical properties of the pericellular and extracellular matrices of the meniscus.Biomechanics and mechanobiology in functional tissue engineering.A biphasic multiscale study of the mechanical microenvironment of chondrocytes within articular cartilage under unconfined compression.The structure and function of the pericellular matrix of articular cartilage.The mechanobiology of articular cartilage: bearing the burden of osteoarthritis.Multiscale cartilage biomechanics: technical challenges in realizing a high-throughput modelling and simulation workflow.The effect of matrix stiffness on biomechanical properties of chondrocytes.Osteoarthritis: toward a comprehensive understanding of pathological mechanism.Nanomechanics of Cells and Biomaterials Studied by Atomic Force Microscopy.Fast Stiffness Mapping of Cells Using High-Bandwidth Atomic Force Microscopy.The mechanical microenvironment of high concentration agarose for applying deformation to primary chondrocytes.Mechanisms and Microenvironment Investigation of Cellularized High Density Gradient Collagen Matrices via DensificationAtomic force microscopy reveals age-dependent changes in nanomechanical properties of the extracellular matrix of native human menisci: implications for joint degeneration and osteoarthritis.Encapsulation of chondrocytes in high-stiffness agarose microenvironments for in vitro modeling of osteoarthritis mechanotransduction.Indentation mapping revealed poroelastic, but not viscoelastic, properties spanning native zonal articular cartilage.Functional properties of native and tissue-engineered cartilage toward understanding the pathogenesis of chondral lesions at the knee: A bovine cadaveric study.Functional properties of chondrocytes and articular cartilage using optical imaging to scanning probe microscopy.Densification of Type I Collagen Matrices as a Model for Cardiac Fibrosis.Nanoindentation modulus of murine cartilage: a sensitive indicator of the initiation and progression of post-traumatic osteoarthritis.
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P2860
Depth-dependent anisotropy of the micromechanical properties of the extracellular and pericellular matrices of articular cartilage evaluated via atomic force microscopy
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
Depth-dependent anisotropy of ...... ed via atomic force microscopy
@ast
Depth-dependent anisotropy of ...... ed via atomic force microscopy
@en
type
label
Depth-dependent anisotropy of ...... ed via atomic force microscopy
@ast
Depth-dependent anisotropy of ...... ed via atomic force microscopy
@en
prefLabel
Depth-dependent anisotropy of ...... ed via atomic force microscopy
@ast
Depth-dependent anisotropy of ...... ed via atomic force microscopy
@en
P2860
P1476
Depth-dependent anisotropy of ...... ed via atomic force microscopy
@en
P2093
Morgan A McLeod
Rebecca E Wilusz
P2860
P304
P356
10.1016/J.JBIOMECH.2012.09.003
P577
2012-10-11T00:00:00Z