Grants Funded

Abstract
Lymphedema is a common complication of cancer treatment resulting in significant morbidity and impaired quality of life. Recent studies have reported encouraging results from autologous lymph node transplantation to restore lymphatic circulation in this patient population. In these procedures, lymph nodes are harvested from an unaffected area such as the contralateral arm or groin and transferred microsurgically to the affected limb. Yet, widespread adoption of this technique has been hampered by concerns regarding donor site complications and lymphedema. This concern is valid since many patients who have developed lymphedema in their affected limb represent an at-risk population (i.e. are obese or have baseline impaired lymphatic transport) and since recent large scale oncologic studies have shown that even minor lymphatic injury resulting from sentinel lymph node biopsy can lead to lymphedema in 5-7% of patients. Therefore, development of alternative means to produce viable lymphatic constructs would represent a significant advance and avoid these potential complications. In this proposal we aim to test the hypothesis that decellularized allogeneic lymph nodes can be repopulated with autogenous lymphocytes and that these engineered constructs can be implanted in vivo to restore lymphatic circulation and immune function. The objective of this pilot grant application is to optimize decellularization of lymph node allografts and to test the efficacy of these constructs to restore lymphatic circulation and immune function in a mouse model. Our long-term goals are to use these techniques in larger animal models to optimize microvascular transfer and clinically translate our approach. Our experience with lymphedema models in mice and previous work elucidating the mechanisms of fibrosis in lymphedema will serve as a relevant background and make us uniquely positioned to achieve our objectives.

Biography
Dr. Daniel Cuzzone was raised in Norwalk, CT and completed his undergraduate studies in Neuroscience at Trinity College in Hartford, CT. He subsequently went on to obtain his medical degree from the University of Connecticut. Dr. Cuzzone has completed three years of general surgery residency at New York University Medical Center, which has been followed by a prestigious research fellowship at Memorial-Sloan Kettering Cancer Center under the guidance of Dr. Babak J. Mehrara, MD, FACS. Dr. Cuzzone has focused his research efforts on better elucidating the cellular and molecular mechanisms that are responsible for the pathogenesis of lymphedema. Under the supervision of Dr. Mehrara, Dr. Cuzzone will concentrate his efforts on lymphatic tissue engineering in an attempt to define better treatment modalities for the management of lymphedema.