@article{d6d8d1ef1827477da8b81edea44a5e0c,
title = "Controlled Co-delivery of pPDGF-B and pBMP-2 from intraoperatively bioprinted bone constructs improves the repair of calvarial defects in rats",
abstract = "Intraoperative bioprinting (IOB), which refers to the bioprinting process performed on a live subject in a surgical setting, has made it feasible to directly deliver gene-activated matrices into craniomaxillofacial (CMF) defect sites. In this study, we demonstrated a novel approach to overcome the current limitations of traditionally fabricated non-viral gene delivery systems through direct IOB of bone constructs into defect sites. We used a controlled co-delivery release of growth factors from a gene-activated matrix (an osteogenic bioink loaded with plasmid-DNAs (pDNA)) to promote bone repair. The controlled co-delivery approach was achieved from the combination of platelet-derived growth factor-B encoded plasmid-DNA (pPDGF-B) and chitosan-nanoparticle encapsulating pDNA encoded with bone morphogenetic protein-2 (CS-NPs(pBMP2)), which facilitated a burst release of pPDGF-B in 10 days, and a sustained release of pBMP-2 for 5 weeks in vitro. The controlled co-delivery approach was tested for its potential to repair critical-sized rat calvarial defects. The controlled-released pDNAs from the intraoperatively bioprinted bone constructs resulted in ∼40% bone tissue formation and ∼90% bone coverage area at 6 weeks compared to ∼10% new bone tissue and ∼25% total bone coverage area in empty defects. The delivery of growth factors incorporated within the intraoperatively bioprinted constructs could pose as an effective way to enhance bone regeneration in patients with cranial injuries in the future.",
author = "Moncal, {Kazim K.} and {Tigli Aydın}, {R. Seda} and Godzik, {Kevin P.} and Acri, {Timothy M.} and Heo, {Dong N.} and Elias Rizk and Hwabok Wee and Lewis, {Gregory S.} and Salem, {Aliasger K.} and Ozbolat, {Ibrahim T.}",
note = "Funding Information: This work was supported by the International Team for Implantology Award # 1275_2017 (I.T.O.), National Institute of Dental and Craniofacial Research Award # R01DE028614 (I.T.O.), National Science Foundation Award # 1600118 (I.T.O.), and Osteology Foundation Award # 15–042 (I.T.O.). The authors are also thankful to Dr. Dishary Banerjee and Dr. Miji Yeo for their technical support in FACS analysis, PSU institutions, including Materials Research Institute and The Huck Institute of The Life Sciences, for the generous facility support. Dr. R. Seda Tigli Aydın acknowledges the support from the International Postdoctoral Research Scholarship Program ( BIDEP 2219 ) of the Scientific and Technological Research Council of Turkey (TUBITAK). Funding Information: This work was supported by the International Team for Implantology Award #1275_2017 (I.T.O.), National Institute of Dental and Craniofacial Research Award #R01DE028614 (I.T.O.), National Science Foundation Award #1600118 (I.T.O.), and Osteology Foundation Award #15?042 (I.T.O.). The authors are also thankful to Dr. Dishary Banerjee and Dr. Miji Yeo for their technical support in FACS analysis, PSU institutions, including Materials Research Institute and The Huck Institute of The Life Sciences, for the generous facility support. Dr. R. Seda Tigli Ayd?n acknowledges the support from the International Postdoctoral Research Scholarship Program (BIDEP 2219) of the Scientific and Technological Research Council of Turkey (TUBITAK). Publisher Copyright: {\textcopyright} 2021 Elsevier Ltd",
year = "2022",
month = feb,
doi = "10.1016/j.biomaterials.2021.121333",
language = "English (US)",
volume = "281",
journal = "Biomaterials",
issn = "0142-9612",
publisher = "Elsevier BV",
}