Sgouralis, I., & Layton, A. T. (2016). Conduction of feedback-mediated signal in a computational model of coupled nephrons Mathematical Medicine and Biology: A Journal of the IMA, 33, 87\textendash106.
Reference author: Anita Layton
First name
Anita
Middle name
T
Last name
Layton
Layton, A. T., Vallon, V., & Edwards, A. elie. (2016). A computational model for simulating solute transport and oxygen consumption along the nephrons American Journal of Physiology-Renal Physiology, 311, F1378\textendashF1390.
Sgouralis, I., Kett, M. M., Ow, C. P., Abdelkader, A., Layton, A. T., Gardiner, B. S., … Evans, R. G. (2016). Bladder urine oxygen tension for assessing renal medullary oxygenation in rabbits: experimental and modeling studies American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, 311, R532\textendashR544.
Layton, A. T., & Miller, L. A. (2017). Women in mathematical biology: research collaboration workshop, Nimbios, Knoxville, June 2015 Springer.
Layton, A. T., Laghmani, K., Vallon, V., & Edwards, A. elie. (2016). Solute transport and oxygen consumption along the nephrons: effects of Na+ transport inhibitors American Journal of Physiology-Renal Physiology, 311, F1217\textendashF1229.
Layton, A. T. (2015). Recent advances in renal hemodynamics: insights from bench experiments and computer simulations American Journal of Physiology-Renal Physiology, 308, F951\textendashF955.
Layton, A. T., & Edwards, A. elie. (2015). Predicted effects of nitric oxide and superoxide on the vasoactivity of the afferent arteriole American Journal of Physiology-Renal Physiology, 309, F708\textendashF719.
Layton, A. T., Vallon, V., & Edwards, A. elie. (2015). Modeling oxygen consumption in the proximal tubule: effects of NHE and SGLT2 inhibition American Journal of Physiology-Renal Physiology, 308, F1343\textendashF1357.
Arciero, J., Ellwein, L., Versypt, A. N. F., Makrides, E., & Layton, A. T. (2015). Modeling blood flow control in the kidney 55\textendash73. Springer New York.
Sgouralis, I., & Layton, A. T. (2015). Mathematical modeling of renal hemodynamics in physiology and pathophysiology Mathematical Biosciences, 264, 8\textendash20.
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