Katie Leonard
Interests
I am interested in the mathematical modelling and numerical simulation of biological systems. My current research is focused on engineered bone tissue, grown within a Hydrodynamic Bioreactor. This work is done in collaboration with leading experimentalists at Keele University.
Selected Publications
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Evaluation of the Growth Environment of a Hydrostatic Force Bioreactor for Preconditioning of Tissue−Engineered Constructs
Yvonne Reinwald‚ Katherine H. L. Leonard‚ James R. Henstock‚ Jonathan P. Whiteley‚ James M. Osborne‚ Sarah L. Waters‚ Philippe Levesque and Alicia J. El Haj
In Tissue Engineering Part C: Methods. June, 2014.
Details about Evaluation of the Growth Environment of a Hydrostatic Force Bioreactor for Preconditioning of Tissue−Engineered Constructs | BibTeX data for Evaluation of the Growth Environment of a Hydrostatic Force Bioreactor for Preconditioning of Tissue−Engineered Constructs | DOI (10.1089/ten.tec.2013.0476) | Link to Evaluation of the Growth Environment of a Hydrostatic Force Bioreactor for Preconditioning of Tissue−Engineered Constructs
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Homogenization via formal multiscale asymptotics and volume averaging: How do the two techniques compare?
Yohan Davit‚ Christopher G. Bell‚ Helen M. Byrne‚ Lloyd A. C. Chapman‚ Laura S. Kimpton‚ Georgina E. Lang‚ Katherine H. L. Leonard‚ James M. Oliver‚ Natalie C. Pearson‚ Rebecca J. Shipley‚ Sarah L. Waters‚ Jonathan P. Whiteley‚ Brian D. Wood and Michel Quintard
In Advances in Water Resources. Vol. 62. Pages 178–206. December, 2013.
Details about Homogenization via formal multiscale asymptotics and volume averaging: How do the two techniques compare? | BibTeX data for Homogenization via formal multiscale asymptotics and volume averaging: How do the two techniques compare? | DOI (10.1016/j.advwatres.2013.09.006) | Link to Homogenization via formal multiscale asymptotics and volume averaging: How do the two techniques compare?