Naomi C. Chesler
Affiliations: | Biomedical Engineering | University of Wisconsin, Madison, Madison, WI |
Area:
Biomedical Engineering, General Engineering, Higher Education, Physiology BiologyGoogle:
"Naomi Chesler"Children
Sign in to add trainee| Alejandro Roldan-Alzate | grad student | 2008 | UW Madison |
| Diana M. Tabima Martinez | grad student | 2010 | UW Madison |
| Rebecca R. Vanderpool | grad student | 2010 | UW Madison |
| Regina K. Nelson | grad student | 2013 | UW Madison |
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Publications
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| Altieri Correa S, Kachabi A, Colebank M, et al. (2025) Revisiting Murray's Law in Pulmonary Arteries: Exploring Branching Patterns and Principles. Journal of Biomechanical Engineering. 1-16 |
| Raza F, Gregorich ZR, Freeman J, et al. (2025) Multimodal Characterization of High-risk PH-HFpEF phenogroup with Right Ventricular Dysfunction: Vascular Mechanics and Myocardial Transcriptomics. Medrxiv : the Preprint Server For Health Sciences |
| Lechuga CG, Raza F, Colebank MJ, et al. (2025) Characteristic Pulmonary Impedance With Exercise Detects Abnormal Pulmonary Vascular Response and Uncoupling in Pulmonary Hypertension Resulting From Heart Failure With Preserved Ejection Fraction. Chest |
| Kozitza CJ, Colebank MJ, Gonzalez-Pereira JP, et al. (2024) Estimating pulmonary arterial remodeling via an animal-specific computational model of pulmonary artery stenosis. Biomechanics and Modeling in Mechanobiology |
| El Shaer A, Garcia-Arango M, Korcarz C, et al. (2024) Right ventricular outflow tract diameter change with exercise: a prospective exercise echocardiography and invasive CPET study. European Heart Journal. Imaging Methods and Practice. 2: qyae039 |
| Haider MA, Pearce KJ, Chesler NC, et al. (2024) Application and reduction of a nonlinear hyperelastic wall model capturing ex vivo relationships between fluid pressure, area, and wall thickness in normal and hypertensive murine left pulmonary arteries. International Journal For Numerical Methods in Biomedical Engineering. e3798 |
| Kachabi A, Colebank MJ, Chesler NC. (2023) Subject-specific one-dimensional fluid dynamics model of chronic thromboembolic pulmonary hypertension. Biomechanics and Modeling in Mechanobiology |
| Kachabi A, Colebank MJ, Chesler N. (2023) Subject-specific one-dimensional fluid dynamics model of chronic thromboembolic pulmonary hypertension. Research Square |
| Allen BJ, Frye H, Ramanathan R, et al. (2023) Biomechanical and Mechanobiological Drivers of the Transition From PostCapillary Pulmonary Hypertension to Combined Pre-/PostCapillary Pulmonary Hypertension. Journal of the American Heart Association. 12: e028121 |
| Raza F, Kozitza C, Lechuga C, et al. (2022) Multimodality Deep Phenotyping Methods to Assess Mechanisms of Poor Right Ventricular-Pulmonary Artery Coupling. Function (Oxford, England). 3: zqac022 |