Biomedical Engineering Reference
In-Depth Information
[17]
Santos T, R Ferreira, J Maia, F Agasse, S Xapelli, L Cortes, J Bragança, JO Malva, L Ferreira
and L Bernardino (2012). Polymeric nanoparticles to control the differentiation of neural stem
cells in the subventricular zone of the brain. ACS Nano 6: 10463-10474.
[18]
Santos JL, E Oramas, AP Pêgo, PL Granja and H Tomás (2009). Osteogenic differentiation of
mesenchymal stem cells using PAMAM dendrimers as gene delivery vectors. Journal of
Controlled Release 134: 141-148.
[19]
Shah S, A Solanki, PK Sasmal and K-B Lee (2013). Single vehicular delivery of sirna and small
molecules to control stem cell differentiation. Journal of the American Chemical Society 135:
15682-15685.
[20]
Santos JL, D Pandita, Jo Rodrigues, AP Pêgo, PL Granja, G Balian and H Tomás (2010).
Receptor-mediated gene delivery using PAMAM dendrimers conjugated with peptides recognized
by mesenchymal stem cells. Molecular Pharmaceutics 7: 763-774.
[21]
Santos JL, H Oliveira, D Pandita, J Rodrigues, AP Pêgo, PL Granja and H Tomás (2010).
Functionalization of poly(amidoamine) dendrimers with hydrophobic chains for improved gene
delivery in mesenchymal stem cells. Journal of Controlled Release 144: 55-64.
[22]
Pandita D, JL Santos, Jo Rodrigues, AP Pêgo, PL Granja and H Tomás (2011). Gene delivery
into mesenchymal stem cells: a biomimetic approach using RGD nanoclusters based on
poly(amidoamine) dendrimers. Biomacromolecules 12: 472-481.
[23]
Holladay C, M Keeney, U Greiser, M Murphy, T O'Brien and A Pandit (2009). A matrix reservoir
for improved control of non-viral gene delivery. Journal of Controlled Release 136: 220-225.
[24]
Higuchi Y, C Wu, K-L Chang, K Irie, S Kawakami, F Yamashita and M Hashida (2011).
Polyamidoamine dendrimer-conjugated quantum dots for efficient labeling of primary cultured
mesenchymal stem cells. Biomaterials 32: 6676-6682.
[25]
Lynn DM and R Langer (2000). Degradable poly(β-amino esters): synthesis, characterization,
and self-assembly with plasmid DNA. Journal of the American Chemical Society 122:
10761-10768.
[26]
Green JJ, R Langer and DG Anderson (2008). A combinatorial polymer library approach yields
insight into nonviral gene delivery. Accounts of Chemical Research 41: 749-759.
[27]
Yang F, J Green, T Dinio, L Keung, S-W Cho, H Park, R Langer and D Anderson (2009). Gene
delivery to human adult and embryonic cell-derived stem cells using biodegradable nanoparticu-
late polymeric vectors. Gene Theraphy 16: 533-546.
[28]
Yanga F, S-W Choa, SM Sona, SR Bogatyreva, D Singha, JJ Greena, Y Meia, S Parkd, SH
Bhange, B-S Kime,
et al
. (2009). Genetic engineering of human stem cells for enhanced angio-
genesis using biodegradable polymeric nanoparticles. Proceedings of the National Academy of
Sciences 107: 3317-3322.
[29]
Green JJ, BY Zhou, MM Mitalipova, C Beard, R Langer, R Jaenisch and DG Anderson (2008).
Nanoparticles for gene transfer to human embryonic stem cell colonies. Nano Letters 8:
3126-3130.
[30]
Tzeng SY, BP Hung, WL Grayson and JJ Green (2012). Cystamine-terminated poly(beta-amino
ester)s for siRNA delivery to human mesenchymal stem cells and enhancement of osteogenic
differentiation. Biomaterials 33: 8142-8151.
[31]
Tzeng SY, H Guerrero-Cázares, EE Martinez, JC Sunshine, A Quiñones-Hinojosa and JJ Green
(2011). Non-viral gene delivery nanoparticles based on poly(β-amino esters) for treatment of
glioblastoma. Biomaterials 32: 5402-5410.
[32]
Ashjari M, S Khoee and AR Mahdavian (2012). A multiple emulsion method for loading
5-fluorouracil into a magnetite-loaded nanocapsule: a physicochemical investigation. Polymer
International 61: 850-859.
[33]
Cartiera MS, KM Johnson, V Rajendran, MJ Caplan and WM Saltzman (2009). The uptake
and intracellular fate of PLGA nanoparticles in epithelial cells. Biomaterials 30: 2790-2798.
[34]
J P, ZW Z, P S, SS K and L V (2002). Rapid endolysosomal escape of poly(dl-lactide-co-glycolide)
nanoparticles: implications for drug and gene delivery. FASEB Journal 16: 1217-1226.
[35]
Ferreira L, T Squier, H Park, H Choe, DS Kohane and R Langer (2008). Human embryoid
bodies containing nano- and microparticulate delivery vehicles. Advanced Materials 20:
2285-2291.
