Tissue Engineering Cornea Replacements
Tufts University Medford, Medford MA
Investigators
Linked publications, trials & patents
Abstract
DESCRIPTION (provided by applicant): The need for human cornea equivalent tissues continues to grow with an estimated 10 million people worldwide suffering from corneal vision loss. There remain few clinical options today to meet these growing needs. In this renewal proposal we will build upon our progress in generating functional human cornea replacements. The hypothesis is that tissue engineered cornea systems based on mechanically robust, patterned, porous, thin optically clear silk protein films, in combination with appropriate cell types, can generate functional cornea tissue equivalents to meet these clinical needs. Our current data support the approaches planned and also allow for broader impact for these new cornea tissues systems for both in vivo clinical goals as well as for in vitro tissue equivalents fr drug screening. We plan to expand on our progress to date and generate multifunctional corneal tissue systems with tuned rates of tissue remodeling, innervation guidance, circumvention of suturing upon implantation and modulation of local infections and inflammation. Further, we plan to establish these corneal tissue systems to meet clinical needs as well as for in vitro substitute for drug screening. The aims will address optimizing the structure and function of the lamellar biomaterial structures that form the basis of our cornea designs (focusing on remodeling rates, control of infections and inflammation, ad hoc cell substrate, and optimized co-culture methods to develop partial thickness equivalent tissues based on corneal stem cells, epithelial, and neuronal cells), in vitro studies for sustained tissue function to screen ocular drugs, as well as n vivo studies to asses clinical relevance in order to progress to full integration of the tissue equivalents, are planned. An interdisciplinary team of investigators that has been involved in the present proposal will pursue the new project goals in this renewal, including David Kaplan (silk biomaterials, tissue engineered cornea), James Funderburgh (corneal tissue biology, corneal stem cells), and Mark Rosenblatt (clinical, animal models).
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