Edwards, A. elie, & Layton, A. T. (2014). Calcium dynamics underlying the myogenic response of the renal afferent arteriole American Journal of Physiology-Renal Physiology, 306, F34\textendashF48.
Reference author: Aur\ Edwards
First name
Aur\
Middle name
elie
Last name
Edwards
Layton, A. T., Edwards, A. elie, Layton, A. T., & Edwards, A. elie. (2014). Tubuloglomerular Feedback Mathematical Modeling in Renal Physiology, 85\textendash106.
Layton, A. T., & Edwards, A. elie. (2017). Introduction to Mathematical Modeling of Blood Flow Control in the Kidney 63\textendash73. Springer International Publishing.
Ciocanel, M.-V., Stepien, T. L., Edwards, A. elie, & Layton, A. T. (2017). Modeling autoregulation of the afferent arteriole of the rat kidney 75\textendash100. Springer International Publishing.
Layton, A., Edwards, A. elie, & Vallon, V. (2017). Modeling the Effects of Functional Adaptation to Reduction in Renal Mass The FASEB Journal, 31, 716\textendash2.
Chen, Y., Sullivan, J. C., Edwards, A. elie, & Layton, A. T. (2017). Sex-specific computational models of the spontaneously hypertensive rat kidneys: factors affecting nitric oxide bioavailability American Journal of Physiology-Renal Physiology, 313, F174\textendashF183.
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.
Layton, A., Vallon, V., & Edwards, A. elie. (2016). Effect of SGLT Inhibition on Medullary Oxygen Consumption: A Multi-Nephron Model of the Rat Kidney The FASEB Journal, 30, 740\textendash2.
Fry, B. C., Edwards, A. elie, & Layton, A. T. (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\textendashF247.
Layton, A. T., Vallon, V., & Edwards, A. elie. (2016). Predicted consequences of diabetes and SGLT inhibition on transport and oxygen consumption along a rat nephron American Journal of Physiology-Renal Physiology, 310, F1269\textendashF1283.
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