Know your limitations: assumptions in the single beat method for estimating right ventricular pulmonary vascular coupling
/in Clinical, Hemodynamics, Pre-Clinical, RV FunctionMulti-scale Structure-Function Relationships in Right Ventricular Failure Due to Pressure Overload
/in Fibrosis, Hemodynamics, Pre-Clinical, RV Function, StressImpaired myofilament contraction drives right ventricular failure secondary to pressure overload: model simulations, experimental validation, and treatment predictions
/in Arterial Mechanics, Fibrosis, Hemodynamics, In Silico, Pre-Clinical, RV Function, StressCardiovascular function and structure are preserved despite induced ablation of BMP1-related proteinases
/in Arterial Mechanics, Fibrosis, Hemodynamics, In Vitro, Pre-Clinical, RV FunctionMultiscale Computational Analysis of RV Mechanoenergetics
/in Arterial Mechanics, Fibrosis, Hemodynamics, In Silico, In Vitro, Pre-Clinical, RV FunctionOrgan-level right ventricular dysfunction with preserved Frank-Starling mechanism in a mouse model of pulmonary arterial hypertension
/in Arterial Mechanics, Hemodynamics, In Vitro, Pre-Clinical, RV FunctionPBX transcription factors drive pulmonary vascular adaptation to birth
/in Arterial Mechanics, Genetics, Hemodynamics, In Vitro, Pre-Clinical, RV FunctionEstrogen maintains mitochondrial content and function in the right ventricle of rats with pulmonary hypertension.
/in Hemodynamics, Metabolism, Pre-Clinical, RV Function, Sex & MaturationPulmonary arterial strain- and remodeling-induced stiffening are differentiated in a chronic model of pulmonary hypertension.
/in Arterial Mechanics, Fibrosis, Pre-ClinicalChesler Lab
Professor Naomi C. Chesler
University of California, Irvine
2420 Engineering Hall
(949) 824-3941
nchesler@uci.edu