Outputs (3)

Cosmic-Ray Radiation Effects on Ibuprofen Tablet Formulation Inside and Outside of the International Space Station (2024)
Preprint / Working Paper
Fisk, I., Tran, Q., Spooner, N., Geoghehan, S., Thavarajah, S., Rahman, S., Tran, N., Williams, P., Jarquin, S., Kim, D.-H., Davey, K., Buell, J., Shumbera, M., Gittleman, M., Clements, T., Stoudemire, J., & Hessel, V. (2024). Cosmic-Ray Radiation Effects on Ibuprofen Tablet Formulation Inside and Outside of the International Space Station

In extreme environments people will have different needs for medicine(s). It is important, therefore, to know how medicine efficacy will be impacted by the environment. Ibuprofen is very widely used in tablet formulation in temperate climates on Eart... Read More about Cosmic-Ray Radiation Effects on Ibuprofen Tablet Formulation Inside and Outside of the International Space Station.

Cosmic-Ray Radiation Effects on Ibuprofen Tablet Formulation Inside and Outside of the International Space Station (2024)
Journal Article
Tran, Q. D., Spooner, N., Geoghehan, S., Thavarajah, S. R., Rahman, S., Tran, N. N., Williams, P. M., Jarquin, S. M., Kim, D., Davey, K., Buell, J., Shumbera, M., Gittleman, M., Clements, T., Stoudemire, J., Fisk, I., & Hessel, V. (2025). Cosmic-Ray Radiation Effects on Ibuprofen Tablet Formulation Inside and Outside of the International Space Station. Advanced Healthcare Materials, 14(4), Article 2402361. https://doi.org/10.1002/adhm.202402361

In extreme environments people will have different needs for medicine(s), making it crucial to understand how such environments affect drug efficacy. Ibuprofen, commonly used in tablet formulation on Earth, could fail in space despite standard pharma... Read More about Cosmic-Ray Radiation Effects on Ibuprofen Tablet Formulation Inside and Outside of the International Space Station.

Non-destructive characterisation of mesenchymal stem cell differentiation using LC-MS-based metabolite footprinting (2016)
Journal Article
Surrati, A., Linforth, R. S., Fisk, I. D., Sottile, V., & Kim, D.-H. (in press). Non-destructive characterisation of mesenchymal stem cell differentiation using LC-MS-based metabolite footprinting. Analyst, 12, https://doi.org/10.1039/c6an00170j

Bone regeneration is a complex biological process where major cellular changes take place to support the osteogenic differentiation of mesenchymal bone progenitors. To characterise these biological changes and better understand the pathways regulatin... Read More about Non-destructive characterisation of mesenchymal stem cell differentiation using LC-MS-based metabolite footprinting.