Sgouralis, I., & Layton, A. (2013). Nephrovascular interactions in a mathematical model of rat renal autoregulation The Federation of American Societies for Experimental Biology.
Reference author: Ioannis Sgouralis
First name
Ioannis
Last name
Sgouralis
Sgouralis, I., & Layton, A. T. (2017). Modeling blood flow and oxygenation in a diabetic rat kidney 101\textendash113. Springer International Publishing.
Sgouralis, I., Evans, R. G., & Layton, A. T. (2017). Renal medullary and urinary oxygen tension during cardiopulmonary bypass in the rat Mathematical Medicine and Biology: A Journal of the IMA, 34, 313\textendash333.
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.
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.
Sgouralis, I., & Layton, A. (2016). Internephron Coupling Increases the Efficiency of Dynamic Autoregulation The FASEB Journal, 30, 739\textendash6.
Sgouralis, I., Maroulas, V., & Layton, A. T. (2016). Transfer function analysis of dynamic blood flow control in the rat kidney Bulletin of Mathematical Biology, 78, 923\textendash960.
Sgouralis, I., & Layton, A. T. (2015). Mathematical modeling of renal hemodynamics in physiology and pathophysiology Mathematical Biosciences, 264, 8\textendash20.
Sgouralis, I., Evans, R. G., Gardiner, B. S., Smith, J. A., Fry, B. C., & Layton, A. T. (2015). Renal hemodynamics, function, and oxygenation during cardiac surgery performed on cardiopulmonary bypass: a modeling study Physiological Reports, 3, e12260.
Ciocanel, M.-V., Stepien, T. L., Sgouralis, I., & Layton, A. T. (2018). A multicellular vascular model of the renal myogenic response Processes, 6, 89.
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