Mechanics of Biological Tissues
The structure-function relationships of biological materials are critical to understating tissue development, function, disease, and therapy. We use custom-built devices to simultaneously study structure and mechanics of biological tissues.
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Application of a Variational Autoencoder for Clustering and Analyzing in Situ Articular Cartilage Cellular Response to Mechanical Stimuli
Microscale strain concentrations in tissue-engineered osteochondral implants are dictated by local compositional thresholds and architecture
Relationship between Microscale Shear Modulus, Composition, and Structure in Porcine, Canine, and Human Temporomandibular-Joint Cartilage: Relevance to Disease and Degeneration
Reentrant Rigidity Percolation in Structurally Correlated Filamentous Networks
STRAINS: A big data method for classifying cellular response to stimuli at the tissue scale
The Role of Buckling Instabilities in the Global and Local Mechanical Response in Porous Collagen Scaffolds
Cartilage Research Collaboration wins Kappa Delta Anne Doner Vaughn Award
Congratulations to Itai, Larry, Lisa, and Michelle for winning the Kappa Delta award!
Article in the Cornell Chronicle here.
Structural origins of cartilage shear mechanics
Rigidity and fracture of biopolymer double networks
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