Our lab conducts research in cardiovascular and musculoskeletal biomechanics, integrating analytical, experimental, and computational methods. We study how calcified tissue affects fibroatheroma rupture and investigate bone quality through biomechanics, imaging, signal processing, and bioinstrumentation. Our bone research explores bone mineral density, microarchitecture, and tissue quality using tools such as microCT, ultrasound, mechanical testing, and finite element modeling. Current projects include evaluating disuse-related bone loss and anti-resorptive therapies, developing ultrasound-based bone assessment devices, and studying wave propagation, poroelasticity, and osteocyte mechanotransduction through theoretical and animal models.