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Orthopaedic tissue engineering, hydrogels, affinity-based protein delivery
The goal of our laboratory is to design polymeric biomaterials for specific orthopaedic applications, including regeneration of tendon/ligament, cartilage and bone. These synthetic and naturally-derived biomaterials are used in conjunction with other biochemical and mechanical stimuli to promote priming of stem cells to express a particular phenotype, as well as deliver biomolecules to promote healing of tissues that have degenerated due to chronic conditions, such as osteoarthritis or overuse injuries.
The goal of our laboratory is to design polymeric biomaterials for specific orthopaedic applications, including regeneration of tendon/ligament, cartilage and bone. These synthetic and naturally-derived biomaterials are used in conjunction with other biochemical and mechanical stimuli to promote priming of stem cells to express a particular phenotype, as well as deliver biomolecules to promote healing of tissues that have degenerated due to chronic conditions, such as osteoarthritis or overuse injuries.
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Leah E. Anderson,Liane E. Tellier, Keshav R. Shah,Joseph J. Pearson, Alexandra L. Brimeyer,Edward A. Botchwey,Johnna S. Temenoff
TISSUE ENGINEERING PART Ano. 1-2 (2024): 45-60
Annals of Biomedical Engineeringpp.1-21, (2024)
Annals of biomedical engineering (2024)
Tissue engineering. Part Ano. 1-2 (2024): 45-60
Tissue engineering. Part C, Methodsno. 8 (2023): 361-370
Journal of biomedical materials research. Part Ano. 5 (2023): 634-643
ACS biomaterials science & engineeringno. 11 (2023): 6282-6292
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