This is a K08 award application submitted by David Myung, MD, PhD, who is being hired as an Assistant Professor of Ophthalmology at the Byers Eye Institute at Stanford. Dr. Myung is establishing himself as an investigator in translational bioengineering research focused on corneal wound healing. The K08 award will provide Dr. Myung with the support necessary to further develop specific expertise in corneal wound healing and regenerative medicine, and to acquire the skills necessary to become an independent investigator. To help him achieve these goals, Dr. Myung has assembled an interdisciplinary mentorship team comprised of the following leading investigators in their fields: Dr. Ali Djalilian is an expert in corneal wound healing, and in particular ocular surface disease and stem cell transplantation; Dr. Sarah Heilshorn is an expert in biomaterials; Dr. Jeffrey Goldberg is an expert in nerve regeneration. In addition, he will consult with Dr. Edward Manche from Stanford, a clinical cornea specialist with expertise in corneal crosslinking chemistry, Dr. Christopher Murphy from UC Davis, an expert in testing growth factors in animal models of corneal wound healing, as well as Dr. Jeffrey Tok, who directs the soft and hybrid materials testing facility at Stanford's School of Engineering. In the treatment of traumatic injuries, ulcers, and burns of the eye, inadequate tissue healing remains a major challenge. The cornea is particularly vulnerable to the blinding consequences of delayed healing such as scarring, melts, and perforations. There is, therefore, a major clinical need for new ways to enhance wound healing in the eye. This research investigates the benefits of using highly cell-friendly bioconjugation chemistries to deliver therapeutic factors directly to wounded corneal tissue in three ways: (1) through an injectable gel that covers wounds and releases growth factors, (2) by chemically binding growth factors directly to the wound bed, and (3) by encapsulating human mesenchymal stem cells (hMSCs) within a gel at the ocular surface.
The first aim i s to characterize and control corneal re- epithelialization through growth-factor eluting collagen gels formed on wounds in situ.
The second aim i s to evaluate and optimize the epithelial and nerve regeneration effects of growth factors coupled directly to a nerve-ablated cornea.
The third aim i s to elucidate and maximize the bioactivity of hMSCs encapsulated within collagen gels on a chemically-injured ocular surface. This research may lead to new corneal wound healing therapies that overcome the limitations of topically delivered growth factors and stem cells, and will form the basis of an R01 application before the end of the K award.

Public Health Relevance

In the treatment of traumatic injuries, burns, and ulcers of the eye, inadequate tissue healing remains a major challenge. A therapeutic strategy that can enhance corneal wound healing could help prevent the potentially blinding consequences of a damaged epithelium. This research investigates the benefits of using highly cell-friendly bioconjugation chemistries to deliver therapeutic growth factors and stem cells directly to wounded corneal tissue. In doing so, it has the potential to lead to more effective ocular wound healing therapies.

National Institute of Health (NIH)
National Eye Institute (NEI)
Clinical Investigator Award (CIA) (K08)
Project #
Application #
Study Section
Special Emphasis Panel (ZEY1)
Program Officer
Agarwal, Neeraj
Project Start
Project End
Budget Start
Budget End
Support Year
Fiscal Year
Total Cost
Indirect Cost
Stanford University
Schools of Medicine
United States
Zip Code