Grants Funded

Abstract
Pediatric craniofacial surgery is complicated by a shortage of autologous bone for grafting in the repair of osseous defects after trauma or congenital anomaly reconstruction. In the pediatric population, because of an under-developed diploic space, local calvarial bone graft sources are non-existent, and distant sources are limited by practical concerns ranging from donor site morbidity to low tissue yield. Infants, however, benefit from highly osteoinductive dura mater, and can spontaneously heal large calvarial defects. It is in this context of a shortage of bone graft material for craniofacial reconstruction that the objective of this project is to create a new source of osteoprogenitor cells by utilizing the osteoinductive potential of infant dura mater. We hypothesize that the co-culture of adipose-derived stem cells (ASCs) with infant dura mater-derived cells will yield enhanced and accelerated osteoblastic differentiation of the ASCs, as infant dura is likely "programmed" to produce the signaling molecules required for the maintenance of an ideal osteoinductive microenvironment. Confirming this hypothesis would allow craniofacial surgeons to use readily available adipose derived stem cells as an alternative to autologous bone grafts for the reconstruction of bone defects in the pediatric craniofacial skeleton.