Farshid Guilak, Ph.D.
Affiliations: | Orthopaedic Surgery | Washington University School of medicine in Saint Louis |
Area:
biomechanics, mechanobiology, regenerative medicine, osteoarthritis, biomedical engineeringWebsite:
https://orthopaedicresearch.wustl.edu/labs/farshid-guilak/Google:
"Farshid Guilak"Bio:
https://regenerativemedicine.wustl.edu/people/farshid-guilak-phd/
https://scholar.google.com/citations?user=CWj6pVcAAAAJ&hl=en
https://www.proquest.com/openview/4c29ac7c273fd9de7a046566f3daec0e/1
Parents
Sign in to add mentorVan C. Mow | grad student | 1992 | Columbia (E-Tree) | |
(Cell-matrix interactions and metabolic changes in articular cartilage under compression) |
Children
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Publications
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Kim YS, Guilak F. (2022) Engineering Hyaluronic Acid for the Development of New Treatment Strategies for Osteoarthritis. International Journal of Molecular Sciences. 23 |
Collins KH, Gui C, Ely EV, et al. (2022) Leptin mediates the regulation of muscle mass and strength by adipose tissue. The Journal of Physiology |
Guilak F, Estes BT, Moutos FT. (2021) Functional tissue engineering of articular cartilage for biological joint resurfacing-The 2021 Elizabeth Winston Lanier Kappa Delta Award. Journal of Orthopaedic Research : Official Publication of the Orthopaedic Research Society |
Nims RJ, Pferdehirt L, Guilak F. (2021) Mechanogenetics: harnessing mechanobiology for cellular engineering. Current Opinion in Biotechnology. 73: 374-379 |
Estes BT, Enomoto M, Moutos FT, et al. (2021) Biological resurfacing in a canine model of hip osteoarthritis. Science Advances. 7: eabi5918 |
Choi YR, Collins KH, Springer LE, et al. (2021) A genome-engineered bioartificial implant for autoregulated anticytokine drug delivery. Science Advances. 7: eabj1414 |
Willard VP, Leddy HA, Palmer D, et al. (2021) Transient receptor potential vanilloid 4 as a regulator of induced pluripotent stem cell chondrogenesis. Stem Cells (Dayton, Ohio) |
Collins KH, Schwartz DJ, Lenz KL, et al. (2021) Taxonomic changes in the gut microbiota are associated with cartilage damage independent of adiposity, high fat diet, and joint injury. Scientific Reports. 11: 14560 |
Rodríguez Ruiz A, Dicks A, Tuerlings M, et al. (2021) Cartilage from human-induced pluripotent stem cells: comparison with neo-cartilage from chondrocytes and bone marrow mesenchymal stromal cells. Cell and Tissue Research |
Klimak M, Nims RJ, Pferdehirt L, et al. (2021) Immunoengineering the next generation of arthritis therapies. Acta Biomaterialia |