Over the past several years, biomaterials loaded with mesenchymal stem cells (MSCs) have increasingly been used to reduce the myocardial fate of postinfarction collagen deposition and scar tissue formation. Despite successful gains, therapeutic efficacy has remained limited because of restricted transport of cell-secreting factors at the site of implantation. We hypothesized that an MSC-laden hydrogel patch with multiple microchannels would retain transplanted cells on target tissue and support transport of cell-secreting factors into tissue.
View Article and Find Full Text PDFWe introduce photonic crystal enhanced microscopy (PCEM) as a label-free biosensor imaging technique capable of measuring cell surface attachment and attachment modulation. The approach uses a photonic crystal optical resonator surface incorporated into conventional microplate wells and a microscope-based detection instrument that measures shifts in the resonant coupling conditions caused by localized changes in dielectric permittivity at the cell-sensor interface. Four model systems are demonstrated for studying cancer cells, primary cardiac muscle cells, and stem cells.
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