Publications

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Author [ Title(Desc)] Type Year
R
Layton, A. T. . (2005). Role of structural organization in the urine concentrating mechanism of an avian kidney. Mathematical biosciences, 197, 211–230. Elsevier.
Lei, T. , Zhou, L. , Layton, A. T. , Zhou, H. , Zhao, X. , Bankir, L. , & Yang, B. . (2011). Role of thin descending limb urea transport in renal urea handling and the urine concentrating mechanism. American Journal of Physiology-Renal Physiology, 301, F1251–F1259. American Physiological Society Bethesda, MD.
Pannabecker, T. L. , Dantzler, W. H. , Layton, H. E. , & Layton, A. T. . (2008). Role of three-dimensional architecture in the urine concentrating mechanism of the rat renal inner medulla. American Journal of Physiology-Renal Physiology, 295, F1271–F1285. American Physiological Society.
Layton, A. T. . (2011). Role of UTB Urea Transporters in the Urine Concentrating Mechanism of the Rat Kidney. Federation of American Societies for Experimental Biology.
Layton, A. T. . (2007). Role of UTB urea transporters in the urine concentrating mechanism of the rat kidney. Bulletin of mathematical biology, 69, 887–929. Springer-Verlag.
S
Layton, A. T. . (2003). A semi-Lagrangian collocation method for the shallow water equations on the sphere. SIAM Journal on Scientific Computing, 24, 1433–1449. SIAM.
Layton, A. T. , & Spotz, W. F. . (2003). A semi-Lagrangian double Fourier method for the shallow water equations on the sphere. Journal of Computational Physics, 189, 180–196. Elsevier.
Layton, A. T. , & Layton, H. E. . (2002). A semi-Lagrangian semi-implicit numerical method for models of the urine concentrating mechanism. SIAM Journal on Scientific Computing, 23, 1526–1548. SIAM.
Stadt, M. Maria, & Layton, A. T. . (2022). Sex and species differences in epithelial transport in rat and mouse kidneys: Modeling and analysis. Frontiers in physiology, 13, 991705. Frontiers.
Layton, A. , & Dutta, P. . (2023). Sex and time-of-day differences in kidney oxygen consumption. bioRxiv, 2023–04. Cold Spring Harbor Laboratory.
Layton, A. T. , & Gumz, M. L. . (2022). Sex differences in circadian regulation of kidney function of the mouse. American Journal of Physiology-Renal Physiology, 323, F675–F685. American Physiological Society Rockville, MD.
Chen, Y. , Edwards, A. , Sullivan, J. , & Layton, A. . (2016). Sex Differences in Hypertension: A Modeling Study. The FASEB Journal, 30, 959–1. The Federation of American Societies for Experimental Biology.
McDonough, A. A. , Layton, , & T., A. . (2023). Sex differences in renal electrolyte transport. Current Opinion in Nephrology and Hypertension, 10, 1097.
McDonough, A. A. , Harris, A. N. , Xiong, L. , & Layton, A. T. . (2023). Sex differences in renal transporters: assessment and functional consequences. Nature Reviews Nephrology, 1–16. Nature Publishing Group UK London.
Hu, R. , McDonough, A. A. , & Layton, A. T. . (2021). Sex differences in solute and water handling in the human kidney: Modeling and functional implications. IScience, 24. Elsevier.
Hu, R. , McDonough, A. A. , & Layton, A. T. . (2020). Sex differences in solute transport along the nephrons: effects of Na+ transport inhibition. American Journal of Physiology-Renal Physiology, 319, F487–F505. American Physiological Society Bethesda, MD.
Ahmed, S. , & Layton, A. T. . (2020). Sex-specific computational models for blood pressure regulation in the rat. American Journal of Physiology-Renal Physiology, 318, F888–F900. American Physiological Society Bethesda, MD.
Ahmed, S. , Leete, J. , Hernandez, F. Lopez, & Layton, A. . (2019). Sex-specific Computational Models for Blood Pressure Regulation in the Rat. The FASEB Journal, 33, 758–6. The Federation of American Societies for Experimental Biology.
Swapnasrita, S. , Carlier, A. , & Layton, A. T. . (2022). Sex-specific computational models of kidney function in patients with diabetes. Frontiers in physiology, 13, 14. Frontiers.
Chen, Y. , Sullivan, J. C. , Edwards, A. , & 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–F183. American Physiological Society Bethesda, MD.

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