Biomechanical properties of porcine meniscus as determined via AFM: Effect of region, compartment and anisotropy

Abstract: The meniscus is a fibrocartilaginous tissue that plays an essential role in load transmission, lubrication, and stabilization of the knee. Loss of meniscus function, through degeneration or trauma, can lead to osteoarthritis in the underlying articular cartilage. To perform its crucial function, the meniscus extracellular matrix has a particular organization, including collagen fiber bundles running circumferentially, allowing the tissue to withstand tensile hoop stresses developed during axial loading. Given … Show more

“…This entails that the permeability tensor is dependent not solely on pressure, but is also contingent on a temporary basis by its spatial location within the meniscus due to local variation of applied pressure gradients. Recent work on the meniscus highlighted the link between biomechanical and physical properties such as fibre orientation, tissue layer, and water content [14][15][16][17] .…”

On the Characteristics of Natural Hydraulic Dampers: An Image-Based Approach to Study the Fluid Flow Behaviour Inside the Human Meniscal Tissue

“…This entails that the permeability tensor is dependent not solely on pressure, but is also contingent on a temporary basis by its spatial location within the meniscus due to local variation of applied pressure gradients. Recent work on the meniscus highlighted the link between biomechanical and physical properties such as fibre orientation, tissue layer, and water content [14][15][16][17] .…”

On the Characteristics of Natural Hydraulic Dampers: An Image-Based Approach to Study the Fluid Flow Behaviour Inside the Human Meniscal Tissue

On the characteristics of natural hydraulic dampers: An image-based approach to study the fluid flow behaviour inside the human meniscal tissue

Intraoperative identification of patient-specific elastic modulus of the meniscus during arthroscopy