GRADUATE STUDENTS

Years with Schmidt Research Group: 2004 - present

Education:

BS, Bioengineering, Rice University (2004)

Research:

Natural-Based Biomaterials -- The goal of my research is to fabricate spatially and temporally defined, submicron scale, photocrosslinked structures of hyaluronic acid (HA).  HA is a naturally occurring polysaccharide in the extracellular  matrix (ECM) of most tissues and is upregulated during wound healing, cell migration, and angiogenesis.  When modified with methacrylate groups, HA can be photocrosslinked into hydrogel networks.  We have developed a system using mulitphoton excitation (MPE) to ‘direct-write’ these networks on submicron size scales.  MPE, the probability of which scales quadratically with light intensity, allows photosensitive molecules to be excited in an area confined to the focal area of a near-infrared tuned laser, and thus affords a method by which to create patterned substrates in the presence of pre-positioned cells.  Spatially and temporally defined surface immobilization of HA in the presence of live cells at physiological conditions may be used to investigate and control cell-ECM interactions in processes such as nerve regeneration, angiogenesis, and wound healing or even to serve as guidance cues on the inner surface of nerve guides.