Please do not adjust margins
RSC Advances
Page 8 of 9
DOI: 10.1039/C6RA00423G
ARTICLE
RSC Advances
18.
V. Arul, J. G. Masilamoni, E. P. Jesudason, P. J. Jaji, M.
Inayathullah, D. G. D. John, S. Vignesh and R. Jayakumar,
Journal of Biomaterials Applications, 2012, 26, 917-938.
C. Fathke, L. Wilson, J. Hutter, V. Kapoor, A. Smith, A.
Hocking and F. Isik, Stem Cells, 2004, 22, 812-822.
S. Froget, E. Barthelemy, F. Guillot, C. Soler, M. C.
Coudert, M. Benbunan and C. Dosquet, European
Cytokine Network, 2003, 14, 60-64.
I. Grant, C. Green and R. Martin, Burns, 2001, 27, 699-707.
M. Held, T. Knoeller, L. Wilkomm, L. Just, H. E. Schaller
and A. Rahmanian-Schwarz, Tissue Engineering Part A,
2011, 17, 577-577.
K. Nam, Y. Sakai, Y. Hashimoto, T. Kimura and A. Kishida,
Soft Matter, 2012, 8, 472-480.
H. M. Kagan and P. C. Trackman, Am J Respir Cell Mol Biol,
1991, 5, 206-210.
J. Ward, J. Kelly, W. X. Wang, D. I. Zeugolis and A. Pandit,
Biomacromolecules, 2010, 11, 3093-3101.
with acetal di-acrylates, the branching units of which can be
cleaved at low pH. Hydrolysis studies demonstrated that the
half-life of the polymeric crosslinker is closely dependent on
pH and this dependency also affects the crosslinked
polymeric hydrogels. In vitro studies showed that both the
crosslinker and the collagen hydrogels were non-toxic and
that the as prepared crosslinker demonstrated reduced
toxicity when compared to the robust used 4-StarPEG
crosslinker. The controlled degradation profiles that depend
on the pH-sensitive units of the crosslinker render it a
promising applicant for the fabrication of pH-sensitive drug
19.
20.
21.
22.
23.
24.
25.
26.
delivery systems and tissue engineered structures for
42-44
protein-protein interactions
.
Acknowledgements
We gratefully acknowledge the financial support of
Shanghai Pujiang Program (13PJ1401700) and the
European Commission under the DISC REGENERATION
project (NMP3-LA-2008-213904).
D. Enea, F. Henson, S. Kew, J. Wardale, A. Getgood, R.
Brooks and N. Rushton, Journal of Materials Science-
Materials in Medicine, 2011, 22, 1569-1578.
G. P. Huang, S. Shanmugasundaram, P. Masih, D. Pandya,
S. Amara, G. Collins and T. L. Arinzeh, Journal of
Biomedical Materials Research Part A, 2015, 103, 762-
771.
27.
References
28.
29.
30.
31.
D. I. Zeugolis, G. R. Paul and G. Attenburrow, Journal of
Biomedical Materials Research Part A, 2009, 89A, 895-
908.
J. M. Orban, L. B. Wilson, J. A. Kofroth, M. S. El-Kurdi, T.
M. Maul and D. A. Vorp, J Biomed Mater Res A, 2004, 68,
756-762.
H. Saito, S. Murabayashi, Y. Mitamura and T. Taguchi,
Journal of Materials Science-Materials in Medicine, 2008,
19, 1297-1305.
E. C. Collin, S. Grad, D. I. Zeugolis, C. S. Vinatier, J. R.
Clouet, J. J. Guicheux, P. Weiss, M. Alini and A. S. Pandit,
Biomaterials, 2011, 32, 2862-2870.
T. Taguchi, L. Xu, H. Kobayashi, A. Taniguchi, K. Kataoka
and J. Tanaka, Biomaterials, 2005, 26, 1247-1252.
J. S. Chen, E. M. Noah, N. Pallua and G. C. M. Steffens,
Journal of Materials Science: Materials in Medicine, 2002,
13, 1029-1035.
X. J. Zhang, S. Malhotra, M. Molina and R. Haag, Chemical
Society Reviews, 2015, 44, 1948-1973.
H. G. Batz, G. Franzmann and H. Ringsdorf, Angew Chem
Int Ed Engl, 1972, 11, 1103-1104.
R. Shunmugam and G. N. Tew, Journal of Polymer Science
Part A: Polymer Chemistry, 2005, 43, 5831-5843.
T. Y. Zhao, H. Zhang, B. Newland, A. Aied, D. Z. Zhou and
W. X. Wang, Angewandte Chemie-International Edition,
2014, 53, 6095-6100.
T. Y. Zhao, Y. Zheng, J. Poly and W. X. Wang, Nature
Communications, 2013, 4, 1873.
N. O. Metreveli, K. K. Jariashvili, L. O. NamicheishviliB, D.
V. Svintradze, E. N. Chikvaidze, A. Sionkowska and J.
Skopinska, Ecotoxicology and Environmental Safety, 2010,
73, 448-455.
A. Sionkowska and A. Kamińska, Journal of
Photochemistry and Photobiology A: Chemistry, 1999,
120, 207-210.
M. T. Sheu, J. C. Huang, G. C. Yeh and H. O. Ho,
Biomaterials, 2001, 22, 1713-1719.
1.
2.
E. R. Gillies, A. P. Goodwin and J. M. Frechet, Bioconjug
Chem, 2004, 15, 1254-1263.
K. H. Min, J. H. Kim, S. M. Bae, H. Shin, M. S. Kim, S. Park,
H. Lee, R. W. Park, I. S. Kim, K. Kim, I. C. Kwon, S. Y. Jeong
and D. S. Lee, J Control Release, 2010, 144, 259-266.
D. Rotin, B. Robinson and I. F. Tannock, Cancer Res, 1986,
46, 2821-2826.
P. A. Schornack and R. J. Gillies, Neoplasia, 2003, 5, 135-
145.
S. C. Yang, M. Bhide, I. N. Crispe, R. H. Pierce and N.
Murthy, Bioconjug Chem, 2008, 19, 1164-1169.
V. Bulmus, Y. Chan, Q. Nguyen and H. L. Tran, Macromol
Biosci, 2007, 7, 446-455.
H. L. Cao, Y. X. Dong, A. Aied, T. Y. Zhao, X. Chen, W. X.
Wang and A. Pandit, Chemical Communications, 2014, 50,
15565-15568.
W. Chen, F. H. Meng, R. Cheng and Z. Y. Zhong, Journal of
Controlled Release, 2010, 142, 40-46.
J. A. Cohen, T. T. Beaudette, J. L. Cohen, K. E. Brooders, E.
M. Bachelder and J. M. J. Frechet, Advanced Materials,
2010, 22, 3593-+.
V. Knorr, M. Ogris and E. Wagner, Pharm Res, 2008, 25,
2937-2945.
W. E. Hennink and C. F. van Nostrum, Advanced Drug
Delivery Reviews, 2012, 64, 223-236.
Y. Li, J. Rodrigues and H. Tomas, Chem Soc Rev, 2012, 41,
2193-2221.
V. K. Thakur and M. K. Thakur, Journal of Cleaner
Production, 2014, 82, 1-15.
V. K. Thakur and M. K. Thakur, Int J Biol Macromol, 2015,
72, 834-847.
W. Friess, Eur J Pharm Biopharm, 1998, 45, 113-136.
F. H. Silver, I. Horvath and D. J. Foran, J Theor Biol, 2002,
216, 243-254.
M. H. Tayebjee, R. J. MacFadyen and G. Y. H. Lip, Journal
of Hypertension, 2003, 21, 2211-2218.
3.
4.
5.
6.
7.
32.
33.
8.
9.
34.
35.
36.
37.
10.
11.
12.
13.
14.
38.
39.
15.
16.
40.
41.
17.
8 | J. Name., 2012, 00, 1-3
This journal is © The Royal Society of Chemistry 20xx
Please do not adjust margins