FUS/HIFU used in combination with Immunotherapy for Immune Activation, Smart Drug Delivery, Liquid Biopsy for Cancer Therapy.
Develop novel Shearwave & Echotexture based techniques for improved diagnosis of maternal/fetal disorders.
Quantify MSK kinematics and dynamics in combination with 3D motion tracking, EMG, and NIRS for understanding MSK disorders.
Computational predictions and simulations are utilized to understand therapeutic response and tumorigenesis based on genomic alterations
Ultrasound as a modality to improve the information obtained from liquid biopsy-based ctDNA and other tumor-related biomarkers
Printing sensors with conductive inks in flexible substrates for application in HIFU experiments to ensure proper contact and temperature sensing
Three-dimensional segmentation of multimodal images to estimate the intra-tumoral heterogeneity of complex and refractory tumors
Simulations of mechanical properties to estimate the impact of HIFU in a biological microenvironment and resultant cumulative effect on tissues