Grants Funded

Abstract
Tissue injury resulting from radiation therapy is a significant problem. We have previously shown that radiation causes dysfunction of tissue stem cells by preventing their self-renewal and differentiation into adult cell types. This response is dependent on p21, a cell cycle regulator. In the proposed studies we aim to evaluate the potential of inhibiting p21 on preventing radiation induced stem cell injury. Furthermore, we aim to optimize timing and methods of stem cell delivery as a means of treating established radiation injury of local tissue stem cells. Optimization of stem cell incorporation has significant clinical implications as these techniques may increase the effectiveness of adult stem cell delivery, such as those derived from fat, for tissue regeneration. In addition, the identification of the mechanisms responsible for stem cell homing has broad implications on other clinically relevant topics for plastic surgeons including tissue engineering and wound healing. The expected outcome of this study is that we will identify and prevent the effects of radiation therapy on resident tissue stem cells. In addition, we expect to optimize engraftment of stem cells in order to treat radiation damaged tissues.

Biography
Dr. Mehrara is a graduate of Columbia University College of Physicians and Surgeons. He completed his Plastic Surgery Residency at New York University Medical Center followed by microsurgical fellowship at UCLA Medical Center. Dr. Mehrara’s laboratory research is focused on the etiology of lymphedema and deleterious effects of radiation therapy. These fields are intimately related since radiation therapy is a significant risk factor for lymphedema. His recent research has demonstrated that the pathological findings associated with radiation therapy are related in large part to the depletion and dysfunction of resident tissue stem cells and that targeted protection of these cells can decrease tissue injury.