Publications

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Author Title Type [ Year(Asc)]
2012
Ryu, H. , Layton, A. T. , Flow, T. Fluid, Tubuloglomerular, D. NaCl Deliv, & others, . (2012). HWAYEON RYU. Biomed Eng, 28, 369–380.
Layton, A. T. . (2012). A velocity decomposition approach for solving the immersed interface problem with Dirichlet boundary conditions. In Natural Locomotion in Fluids and on Surfaces (pp. 263–269). Springer, New York, NY.
Layton, A. T. , & Wei, G. . (2012). Interface methods for biological and biomedical problems. John Wiley & Sons, Ltd Chichester, UK.
Layton, A. T. . (2012). Modeling transport and flow regulatory mechanisms of the kidney. International Scholarly Research Notices, 2012. Hindawi.
Layton, A. T. , & J Beale, T. . (2012). A partially implicit hybrid method for computing interface motion in Stokes flow. Discrete & Continuous Dynamical Systems-B, 17, 1139. American Institute of Mathematical Sciences.
Layton, A. T. . (2012). A Velocity Decomposition Approach for Solving the Immersed Interface Problem with Dirichlet Boundary Conditions. In Natural Locomotion in Fluids and on Surfaces (pp. 263–269). Springer, New York, NY.
Layton, A. T. , Gilbert, R. L. , & Pannabecker, T. L. . (2012). Isolated interstitial nodal spaces may facilitate preferential solute and fluid mixing in the rat renal inner medulla. American Journal of Physiology-Renal Physiology, 302, F830–F839. American Physiological Society Bethesda, MD.
Layton, A. T. , Dantzler, W. H. , & Pannabecker, T. L. . (2012). Urine concentrating mechanism: impact of vascular and tubular architecture and a proposed descending limb urea-Na+ cotransporter. American Journal of Physiology-Renal Physiology, 302, F591–F605. American Physiological Society Bethesda, MD.
Ryu, H. , Layton, A. T. , Tubuloglomerular, D. NaCl Deliv, & others, . (2012). HWAYEON RYU. Biomed Eng, 28, 369–380.
Sgouralis, I. , & Layton, A. T. . (2012). Interactions between Tubuloglomerular Feedback and the Myogenic Mechanism of the Afferent Arteriole. Federation of American Societies for Experimental Biology.
Layton, A. T. , Gilbert, R. L. , & Pannabecker, T. L. . (2012). Mathematical Modeling of Renal Function: Isolated interstitial nodal spaces may facilitate preferential solute and fluid mixing in the rat renal inner medulla. American Journal of Physiology-Renal Physiology, 302, F830. American Physiological Society.
Layton, A. T. . (2012). A velocity decomposition approach for solving the immersed interface problem with dirichlet boundary conditions. In Natural Locomotion in Fluids and on Surfaces (pp. 263–269). Springer, New York, NY.
Witelski, T. P. , Ambrose, D. M. , Bertozzi, A. , Layton, A. T. , Li, Z. , & Minion, M. L. . (2012). PREFACE: SPECIAL ISSUE ON FLUID DYNAMICS, ANALYSIS AND NUMERICS. AMER INST MATHEMATICAL SCIENCES PO BOX 2604, SPRINGFIELD, MO 65801-2604 USA.
Layton, A. , Stockie, J. , Li, Z. , & Huang, H. . (2012). Special Issue on Fluid Motion Driven by Immersed Structures Preface. GLOBAL SCIENCE PRESS ROOM 3208, CENTRAL PLAZA, 18 HARBOUR RD, WANCHAI, HONG ….
Pannabecker, T. L. , Dantzler, W. H. , & Layton, A. T. . (2012). Urine Concentrating Mechanism: Impact of Vascular and Tubular Architecture and a Proposed Descending Limb Urea-Na Cotransporter. Federation of American Societies for Experimental Biology.
Gilbert, R. L. , Pannabecker, T. L. , & Layton, A. T. . (2012). Role of interstitial nodal spaces in the urine concentrating mechanism of the rat kidney. Federation of American Societies for Experimental Biology.
Ryu, H. , & Layton, A. T. . (2012). Tubular Fluid Oscillations Mediated by Tubuloglomerular Feedback in a Short Loop of Henle. Federation of American Societies for Experimental Biology.
Li, Y. , & Layton, A. T. . (2012). Accurate computation of Stokes flow driven by an open immersed interface. Journal of Computational Physics, 231, 5195–5215. Elsevier.
Layton, A. T. , & Wei, G. . (2012). Interface methods for biological and biomedical problems. International journal for numerical methods in biomedical engineering, 28, 289–290. John Wiley & Sons, Ltd Chichester, UK.
Layton, A. T. . (2012). Modeling transport and flow regulatory mechanisms of the kidney. ISRN biomathematics, 2012. Hindawi Publishing Corporation.

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