11 People Results for the Tag: Hydrogels
Yingwei Mao
Associate Professor of Biology
Regulation of neurogenesis using cellular and mouse models; analysis of abnormal neural progenitor cell (NPC) proliferation and its relationship to mental illnesses; identification of drugs that can reverse mouse models of psychiatric disorders.
Scott Showalter
Professor of Chemistry; Professor of Biochemistry and Molecular Biology
Biophysical Chemistry applied to solution NMR spectroscopy of partially disordered proteins. NMR studies of protein dynamics coupled with computational and theoretical studies of the coupling between nuclear spin relaxation and molecular motion.
Peter Butler
Professor of Bioengineering
Fundamental molecular mechanisms by which vascular endothelial cells sense the forces from flowing blood and transduce this mechanical information into adjustments of cell and tissue biology.
Reuben Kraft
Shuman Assistant Professor of Mechanical Engineering
Computational methods and high performance computing to examine brain neurotrauma biomechanics; human structural connectome analysis using physics-based predictions of biomechanical brain injury.
Yong Wang
Professor of Biomedical Engineering
Applying nature and biology as design guidelines to the creation of biomimetic and bioinspired materials at both the nanoscale and macroscale level for drug delivery, clinical diagnosis, and regenerative medicine.
Center for Infectious Disease Dynamics
Daniel Hayes
Dorothy Foehr Huck and J. Lloyd Huck Chair in Nanotherapeutics and Regenerative Medicine, Associate Professor of Biomedical Engineering
Biomaterials engineering for applications ranging from regenerative medicine to lab-on-a-chip technologies. An emphasis on nanomaterials, macromolecules and composite structures. Ongoing efforts include development of optically and magnetically modulated drug delivery systems, quasi 3D cell sheet culture systems, cell encapsulation and delivery materials and hybrid in situ polymerizing grafts/augments.
Scott Medina
Assistant Professor of Biomedical Engineering
Design of bio-inspired functional materials that serve as new tools in precision medicine. Understanding how peptides and proteins assemble at natural and non-natural interfaces to form organized structures with unique biochemical functions. The design of nano- and micro-scale biomaterials to develop new biosensing and therapeutic strategies to treat infectious disease, inflammation and cancer.
Ibrahim Ozbolat
Hartz Family Associate Professor of Engineering Science and Mechanics
