%0 Journal Article %T Vascularized Tissue-Engineered Model for Studying Drug Resistance in Neuroblastoma %A A. Villasante %A G. Vunjak-Novakovic %A H. Parsa %A J. Kim %A K. Sakaguchi %A M. Nakayama %A N.K. Cheung %A T. Okano %A T. Shimizu %J Theranostics %D 2017 %I Ivyspring International Publisher %R 10.7150/thno.20730 %X Neuroblastoma is a vascularized pediatric tumor derived from neural crest stem cells that displays vasculogenic mimicry and can express a number of stemness markers, such as SOX2 and NANOG. Tumor relapse is the major cause of succumbing to this disease, and properties attributed to cancer stem-like cells (CSLC), such as drug-resistance and cell plasticity, seem to be the key mechanisms. However, the lack of controllable models that recapitulate the features of human neuroblastoma limits our understanding of the process and impedes the development of new therapies. In response to these limitations, we engineered a perfusable, vascularized in vitro model of three-dimensional human neuroblastoma to study the effects of retinoid therapy on tumor vasculature and drug-resistance. %K Neuroblastoma %K Bioengineering %K perfusion bioreactor %K vasculogenic mimicry %K SOX2 %K cell plasticity. %U http://www.thno.org/v07p4099.htm