From the Right Heart to the Pulmonary Arteries: a Multi-Scale Approach to Understanding Pulmonary Hypertension (PH)

Daniela Valdez-Jasso

Assistant Professor of Bioengineering

University of California, San Diego


Seminar Information

Seminar Date
October 20, 2017 - 2:00 PM

Location
The FUNG Auditorium


Abstract

PH is a rapidly progressive vasculopathy that commonly results in intractable right-heart failure and premature death. Transplantation of the lung remains the only cure, suggesting our limited understanding of the pathophysiology. Here I present recent results using a rat model to understand the impact of PH on the right heart. A multi-scale approach is used to elucidate the organ- (hemodynamic), tissue- (structural and mechanical), and cellular-level (biochemical) response of the pressure-overloaded right ventricle, and my vision of how to extend this work to understand the dynamic vascular remodeling process in PH at the biological level to determine its effects at the system level. 

Speaker Bio

Dr. Valdez-Jasso received her Undergraduate and Masters degrees in Applied Mathematics, and her doctoral degree in Biomathematics, all from the Department of Mathematics at North Carolina State University. Her graduate thesis, which was recognized for its excellence with a Lucas Research Award, focused on modeling approaches to understanding the dynamic pressure-area relationship of systemic arteries. One line of her doctoral work focused on modeling the biomechanical behavior of arteries, while a second foray developed parameter estimation techniques to identify vascular properties from measured data. During her postdoctoral training at the University of Pittsburgh School of Medicine, where she was an American Heart Association postdoctoral fellow, a member of the Vascular Medicine Institute, and the McGowan Institute for Regenerative Medicine, she investigated the tissue structure and biomechanics of the normal and pressure-overloaded right ventricle. Using a murine animal model, Dr. Valdez-Jasso demonstrated that the right ventricle stiffens significantly in response to pulmonary hypertension, and that the tissue-level stress-strain relation becomes more anisotropic. As an Assistant Professor of Bioengineering at the University of Illinois at Chicago (UIC), Dr. Valdez-Jasso established her research laboratory in soft-tissue biomechanics and in multi-scale mathematical modeling of tissue function, particularly as they pertain to understanding the vascular and right-ventricular adaptations to pulmonary hypertension. An American Heart Association Scientist Development Grant currently supports her work. She has been an active Faculty mentor of the Minority Engineering Recruitment and Retention Program in the College of Engineering at UIC and is the vice-chair of the Diversity and Inclusion Committee of the American Society of Mechanical Engineering Bioengineering Division. As a faculty member of UCSD, she will be working closely with the Medical Center to characterize the organ- and tissue-level mechanisms by which the active remodeling process in pulmonary hypertension occurs in patients with this disease.