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Anita T Layton

Showing results (1-10 of 153) with videos related to

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Mathematical Biosciences|January 3, 2026
Modulation of blood pressure by estrogen: A modeling analysisAnita T Layton
Mathematical Biosciences|October 12, 2010
Feedback-mediated dynamics in a model of a compliant thick ascending limbAnita T Layton
American Journal of Physiology. Renal Physiology|November 12, 2010
A mathematical model of the urine concentrating mechanism in the rat renal medulla. II. Functional implications of three-dimensional architectureAnita T Layton
Kidney International|September 9, 2025
Sexual dimorphism of age and nephron segment specific gene expression in mouse kidneys: insights from multi-omic and spatial analysisAnita T Layton
Mathematical Biosciences|October 31, 2024
We are all different: Modeling key individual differences in physiological systemsAnita T Layton
ISRN Biomathematics|August 6, 2013
Modeling Transport and Flow Regulatory Mechanisms of the KidneyAnita T Layton
Hypertension (Dallas, Tex. : 1979)|February 21, 2024
AI, Machine Learning, and ChatGPT in HypertensionAnita T Layton
American Journal of Physiology. Renal Physiology|August 17, 2023
"Hi, how can i help you?": embracing artificial intelligence in kidney researchAnita T Layton
American Journal of Physiology. Renal Physiology|November 12, 2010
A mathematical model of the urine concentrating mechanism in the rat renal medulla. I. Formulation and base-case resultsAnita T Layton
American Journal of Physiology. Renal Physiology|January 20, 2017
A new microscope for the kidney: mathematicsAnita T Layton
Pageof 16

Showing results (1-10 of 153) with videos related to

Sort By:
Pageof 16
Mathematical Biosciences|January 3, 2026
Modulation of blood pressure by estrogen: A modeling analysisAnita T Layton
Mathematical Biosciences|October 12, 2010
Feedback-mediated dynamics in a model of a compliant thick ascending limbAnita T Layton
American Journal of Physiology. Renal Physiology|November 12, 2010
A mathematical model of the urine concentrating mechanism in the rat renal medulla. II. Functional implications of three-dimensional architectureAnita T Layton
Kidney International|September 9, 2025
Sexual dimorphism of age and nephron segment specific gene expression in mouse kidneys: insights from multi-omic and spatial analysisAnita T Layton
Mathematical Biosciences|October 31, 2024
We are all different: Modeling key individual differences in physiological systemsAnita T Layton
ISRN Biomathematics|August 6, 2013
Modeling Transport and Flow Regulatory Mechanisms of the KidneyAnita T Layton
Hypertension (Dallas, Tex. : 1979)|February 21, 2024
AI, Machine Learning, and ChatGPT in HypertensionAnita T Layton
American Journal of Physiology. Renal Physiology|August 17, 2023
"Hi, how can i help you?": embracing artificial intelligence in kidney researchAnita T Layton
American Journal of Physiology. Renal Physiology|November 12, 2010
A mathematical model of the urine concentrating mechanism in the rat renal medulla. I. Formulation and base-case resultsAnita T Layton
American Journal of Physiology. Renal Physiology|January 20, 2017
A new microscope for the kidney: mathematicsAnita T Layton
Pageof 16