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Outputs (3)

Rock Inhibitor Y-27632 Enables Feeder-Free, Unlimited Expansion of Sus scrofa domesticus Swine Airway Stem Cells to Facilitate Respiratory Research (2019)
Journal Article
Dale, T. P., Borg D’anastasi, E., Haris, M., & Forsyth, N. R. (2019). Rock Inhibitor Y-27632 Enables Feeder-Free, Unlimited Expansion of Sus scrofa domesticus Swine Airway Stem Cells to Facilitate Respiratory Research. Stem Cells International, 2019, 1 - 15. https://doi.org/10.1155/2019/3010656

Current limitations in the efficacy of treatments for chronic respiratory disorders position them as prospective regenerative medicine therapeutic targets. A substantial barrier to these ambitions is that research requires large numbers of cells whos... Read More about Rock Inhibitor Y-27632 Enables Feeder-Free, Unlimited Expansion of Sus scrofa domesticus Swine Airway Stem Cells to Facilitate Respiratory Research.

Chorionic and amniotic placental membrane‐derived stem cells, from gestational diabetic women, have distinct insulin secreting cell differentiation capacities (2019)
Journal Article
Chen, L., Forsyth, N. R., & Wu, P. (2020). Chorionic and amniotic placental membrane‐derived stem cells, from gestational diabetic women, have distinct insulin secreting cell differentiation capacities. Journal of Tissue Engineering and Regenerative Medicine, 14(2), 243-256. https://doi.org/10.1002/term.2988

Women with gestational diabetes mellitus (GDM), and their offspring, are at high risk of developing type 2 diabetes. Chorionic (CMSCs) and amniotic mesenchymal stem cells (AMSCs) derived from placental membranes provide a source of autologous stem ce... Read More about Chorionic and amniotic placental membrane‐derived stem cells, from gestational diabetic women, have distinct insulin secreting cell differentiation capacities.

Hypoxia-modified cancer cell metabolism (2019)
Journal Article
Al Tameemi, W., Dale, T. P., Kh Al-Jumaily, R. M., & Forsyth, N. R. (2019). Hypoxia-modified cancer cell metabolism. Frontiers in Cell and Developmental Biology, 7(4), https://doi.org/10.3389/fcell.2019.00004

While oxygen is critical to the continued existence of complex organisms, extreme levels of oxygen within a system, known as hypoxia (low levels of oxygen) and hyperoxia (excessive levels of oxygen), potentially promote stress within a defined biolog... Read More about Hypoxia-modified cancer cell metabolism.