Anita T. Layton

Affiliations: 
Mathematics Duke University, Durham, NC 
Area:
Mathematics
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"Anita Layton"
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Sgouralis I, Kett MM, Ow CP, et al. (2016) Bladder urine oxygen tension for assessing renal medullary oxygenation in rabbits: Experimental and modelling studies. American Journal of Physiology. Regulatory, Integrative and Comparative Physiology. ajpregu.00195.2016
Chen Y, Fry BC, Layton AT. (2016) Modeling Glucose Metabolism in the Kidney. Bulletin of Mathematical Biology
Nganguia H, Young YN, Layton AT, et al. (2016) Electrohydrodynamics of a viscous drop with inertia. Physical Review. E. 93: 053114
Sgouralis I, Maroulas V, Layton AT. (2016) Transfer Function Analysis of Dynamic Blood Flow Control in the Rat Kidney. Bulletin of Mathematical Biology
Layton AT. (2016) Recent Advances in Renal Hypoxia: Insights from Bench Experiments and Computer Simulations. American Journal of Physiology. Renal Physiology. ajprenal.00228.2016
Liu R, Layton AT. (2016) Modeling the effects of positive and negative feedback in kidney blood flow control. Mathematical Biosciences
Fry BC, Edwards A, Layton AT. (2016) Impact of nitric-oxide-mediated vasodilation and oxidative stress on renal medullary oxygenation: a modeling study. American Journal of Physiology. Renal Physiology. 310: F237-47
Layton AT, Vallon V, Edwards A. (2016) Predicted Consequences of Diabetes and SGLT Inhibition on Transport and Oxygen Consumption along a Rat Nephron. American Journal of Physiology. Renal Physiology. ajprenal.00543.2015
Sgouralis I, Layton AT. (2016) Conduction of feedback-mediated signal in a computational model of coupled nephrons. Mathematical Medicine and Biology : a Journal of the Ima. 33: 87-106
Herschlag G, Liu JG, Layton AT. (2016) Fluid extraction across pumping and permeable walls in the viscous limit Physics of Fluids. 28
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