bioRxiv
A tissue-engineered human trabecular meshwork hydrogel for advanced glaucoma disease modeling
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Li, H; Bagué, T; Kirschner, A; Weisenthal, R; Patteson, A; Annabi, N; Stamer, D; Ganapathy, P; Herberg, S
2020
Duke Scholars
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Li, H., Bagué, T., Kirschner, A., Weisenthal, R., Patteson, A., Annabi, N., … Herberg, S. (2020). A tissue-engineered human trabecular meshwork hydrogel for advanced glaucoma disease modeling. bioRxiv. https://doi.org/10.1101/2020.07.31.229229
Li, Haiyan, Tyler Bagué, Alexander Kirschner, Robert Weisenthal, Alison Patteson, Nasim Annabi, Daniel Stamer, Preethi Ganapathy, and Samuel Herberg. “A tissue-engineered human trabecular meshwork hydrogel for advanced glaucoma disease modeling.” BioRxiv, 2020. https://doi.org/10.1101/2020.07.31.229229.
Li H, Bagué T, Kirschner A, Weisenthal R, Patteson A, Annabi N, et al. A tissue-engineered human trabecular meshwork hydrogel for advanced glaucoma disease modeling. bioRxiv. 2020.
Li, Haiyan, et al. “A tissue-engineered human trabecular meshwork hydrogel for advanced glaucoma disease modeling.” BioRxiv, 2020. Epmc, doi:10.1101/2020.07.31.229229.
Li H, Bagué T, Kirschner A, Weisenthal R, Patteson A, Annabi N, Stamer D, Ganapathy P, Herberg S. A tissue-engineered human trabecular meshwork hydrogel for advanced glaucoma disease modeling. bioRxiv. 2020.