Explores biomedical microrobots for precision medicine and tissue mechanics, focusing on navigating high curvature channels and controlling tissue morphogenesis.
Explores embryonic tissue mechanics, challenges in modeling biological tissues, and solid-fluid transitions in equilibrium, focusing on the dynamics of nuclei and subcellular elements.
Explores biomedical microrobots for precision medicine and tissue mechanics, including innovative navigation techniques and the control of tissue morphogenesis.
Discusses the integration of metabolic pathways, focusing on gluconeogenesis and glycolysis, and their hormonal regulation in maintaining glucose homeostasis.
