Multiphoton Microscopy for the Characterization of Cellular Behavior on Naturally Derived Polysaccharide Tissue Constructs With Irregular Surfaces for the Development of Platform Biomaterials.

Over the past decade, the use of polymers as platform materials for biomedical applications including tissue engineering has been of rising interest. Recently, the use of naturally derived polysaccharides as 3-D scaffolds for tissue regeneration has shown promising material characteristics; however, due to complexities in composition, morphology, and optical properties, adequate spatial and temporal characterization of cellular behavior in these materials is lacking. Multiphoton microscopy has emerged as a viable tool for performing such quantification by permitting greater imaging depth while simultaneously minimizing un-favorable scattering and producing high-resolution optical cross sections for non-invasive analysis.

One-step hydrothermal synthesis with in situ milling of biologically relevant hydroxyapatite.

Biologically relevant synthetic hydroxyapatite (HA) has become a much-desired material for use within the medical field with an emphasis on orthopedic applications. However, there are very few sources of sub-micron scale HA powders that are economical. Many current procedures to generate synthetic HA, that is both biological and chemically analogous to naturally occurring HA, tend to involve complicated synthesis procedures that are difficult to simultaneously produce desired stoichiometric ratios and particle diameter.