Bone and Cartilage

Labs studying Bone and Cartilage

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Anseth Lab

The Anseth Lab designs innovative biomaterials with programmed, tunable properties and are pioneers in stem cell and organoid technologies. Their engineered cell-material constructs have applications from understanding development and disease to tissue replacement and regeneration.��

Bryant Lab

The Bryant Lab engineers 3D printed biomimetic and bioactive gels for tissue repair and regeneration with a special focus on solutions for cartilage loss or damage.��

Ferguson Lab

The Ferguson Biomechanics and Biomimetic Lab studies how the microstructure, composition, and material properties of tissues influence mechanical behavior. Further, they examine how these properties change with disrupted mechanical loading, aging, or disease.

Lynch Lab

The Lynch Lab studies the skeletal mechanical environment and its regulation of cancer using mechanical loading model systems to correlate cellular function with cancer pathogenesis, tissue-level changes in tumor burden, and skeletal tissue strength. They aim to identify targets for treating and preventing bone metastases as well as cancer-associated reductions in bone strength.

Neu Lab

The Neu Soft Tissue Bioengineering Lab develops technology for fundamental study and engineering of connective and cardiac tissues to inform new therapies for disorders of the connective and cardiac tissues, including arthritis and fibrosis. Biomechanics is a central lab theme, and they span multiple engineering and biology disciplines, including mechanical, electrical, micro/nanotechological, biochemical, and physiological subspecialties.��

Welker Lab

The Welker Lab works on movement assistive devices at the intersection of biomechanics, haptics, and robotics. Their work on the human-device as a system aims to improve movement for individuals with impairments or injuries and to reduce injury or prevent fatigue in the healthy population.

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