Biomedical Engineering Reference
In-Depth Information
15. S.V. Ghugare, P. Mozetic, and G. Paradossi, Temperature-sensitive poly(vinyl
alcohol)/poly(methacrylate-
co
-
N
-isopropyl acrylamide) microgels for doxo-
rubicin delivery,
Biomacromolecules
, Vol. 10, Iss. 6, pp. 1589-1596, 2009.
16. P.D. h ornton, R.J. Mart, and R.V. Ulijn, Enzyme-responsive polymer hydro-
gel particles for controlled release,
Advanced Materials
, Vol. 19, Iss. 9, pp.
1252-1256, 2007.
17.
F. Danhier, O. Feron, and V. Preat, To exploit the tumor microenvironment:
Passive and active tumor targeting of nanocarriers for anti-cancer drug
delivery,
Journal of Controlled Release
, Vol. 148, Iss. 2, pp. 135-146, 2010.
18.
L.Y. Tang, Y.C. Wang, Y. Li, J.Z. Du, and J. Wang, Shell-detachable micelles
based on disuli de-linked block copolymer as potential carrier for intracel-
lular drug delivery,
Bioconjugate Chemistry
, Vol. 20, Iss. 6, pp. 1095-1099,
2009.
19.
P. Bawa, V. Pillay, Y.E. Choonara, and L.C. du Toit, Stimuli-responsive poly-
mers and their applications in drug delivery,
Biomedical Materials
, Vol. 4,
No. 2, 022001, 2009.
20.
E.S. Lee, Z.G. Gao, and Y.H. Bae, Recent progress in tumor pH targeting
nanotechnology,
Journal of Controlled Release
, Vol. 132, Iss. 3, pp. 164-170,
2008.
21.
J.X. Ding, C.S. Xiao, Y.C. Li, Y.L. Cheng, N.N. Wang, C.L. He, X.L. Zhuang,
X.J. Zhu, and X.S. Chen, Ei cacious hepatoma-targeted nanomedicine self-
assembled from galactopeptide and doxorubicin driven by two-stage physi-
cal interactions,
Journal of Controlled Release
, Vol. 169, Iss. 3, pp. 193-203,
2013.
22.
Y. Huang, Z.H. Tang, X.F. Zhang, H.Y. Yu, H. Sun, X. Pang, and X.S. Chen,
pH-triggered charge-reversal polypeptide nanoparticles for cisplatin deliv-
ery: Preparation and
in vitro
evaluation,
Biomacromolecules
, Vol. 14, Iss. 6,
pp. 2023-2032, 2013.
23.
J.X. Ding, C.S. Xiao, L.S. Yan, Z.H. Tang, X.L. Zhuang, X.S. Chen, and X.B.
Jing, pH and dual redox responsive nanogel based on poly(L-glutamic acid)
as potential intracellular drug carrier,
Journal of Controlled Release
, Vol. 152,
Suppl. 1, pp. E11-E13, 2011.
24.
C.L. He, X.L. Zhuang, Z.H. Tang, H.Y. Tian, and X.S. Chen, Stimuli-sensitive
synthetic polypeptide-based materials for drug and gene delivery,
Advanced
Healthcare Materials
, Vol. 1, Iss. 1, pp. 48-78, 2012.
25.
K.M. Galler, L. Aulisa, K.R. Regan, R.N. D'Souza, and J.D. Hartgerink, Self-
assembling multidomain peptide hydrogels: Designed susceptibility to enzy-
matic cleavage allows enhanced cell migration and spreading,
Journal of the
American Chemical Society
, Vol. 132, Iss. 9, pp. 3217-3223, 2010.
26.
R. Weissleder, C.H. Tung, U. Mahmood, and A. Bogdanov,
In vivo
imaging
of tumors with protease-activated near-infrared l uorescent probes,
Nature
Biotechnology
, Vol. 17, Iss. 4, pp. 375-378, 1999.
