Page 317 - Biodegradable Polyesters
P. 317
References 295
32. Yang, D.Z., Li, Y.N., and Nie, J. (2007) carriers and temperature-controlled
Preparation of gelatin/PVA nanofibers release. New J. Chem., 37, 2433–2439.
and their potential application in con- 42. Hou, Z.Y., Yang, P.P., Lian, H.Z., Wang,
trolled release of drugs. Carbohydr. L.L., Zhang, C.M., Li, C.X., Chai, R.T.,
Polym., 69, 538–543. Cheng, Z.Y., and Lin, J. (2009) Multi-
33. Nguyen, T.B.L. and Lee, B.T. (2012) Elec- functional hydroxyapatite nanofibers and
trospinning of polyvinyl alcohol/gelatin microbelts as drug carriers. Chem. Eur.
nanofiber composites and cross-linking J., 15, 6973–6982.
for bone tissue engineering application. 43. Hou, Z.Y., Li, C.X., Ma, P.A., Cheng,
J. Biomater. Appl., 27, 255–266. Z.Y., Li, X.J., Zhang, X., Dai, Y.L., Yang,
34. Lee, J.M., Yoo, J.J., Atala, A., and Lee, D.M., Lian, H.Z., and Lin, J. (2012)
S.J. (2012) The effect of controlled Up-conversion luminescent and porous
3+
3+
release of PDGF-BB from heparin- NaYF :Yb ,Er @SiO nanocomposite
4
2
conjugated electrospun PCL/gelatin fibers for anti-cancer drug delivery and
scaffolds on cellular bioactivity and cell imaging. Adv. Funct. Mater., 22,
infiltration. Biomaterials, 33, 6709–6720. 2713–2722.
35. Xu, J., Zhang, J.H., Gao, W.Q., Liang, 44. Song, B.T., Wu, C.T., and Chang,
H.W., Wang, H.Y., and Li, J.F. (2009) J. (2012) Controllable delivery of
Preparation of chitosan/PLA blend hydrophilic and hydrophobic drugs
micro/nanofibers by electrospinning. from electrospun poly(lactic-co-glycolic
Mater. Lett., 63, 658–660. acid)/mesoporous silica nanoparticles
36. Meng,Z.X., Zheng, W.,Li, L.,and composite mats. J. Biomed. Mater. Res.
Zheng, Y.F. (2011) Fabrication, char- Part B, 100B, 2178–2186.
acterization and in vitro drug release 45. Wang, L.G., Wang, M., Topham, P.D.,
behavior of electrospun PLGA/chitosan and Huang, Y. (2012) Fabrication of
nanofibrous scaffold. Mater. Chem. Phys., magnetic drug-loaded polymeric com-
125, 606–611. posite nanofibers and their drug release
37. Meng, Z.X., Xu, X.X., Zheng, W., Zhou, characteristics. RSC Adv., 2, 2433–2438.
H.M., Li, L., Zheng, Y.F., and Lou, X. 46. Im, J.S., Bai, B.C., and Lee, Y.S. (2010)
(2011) Preparation and characterization The effect of carbon nanotubes on drug
of electrospun PLGA/gelatin nanofibers delivery in an electro-sensitive transder-
as a potential drug delivery system. mal drug delivery system. Biomaterials,
Colloids Surf., B, 84, 97–102. 31, 1414–1419.
38. Park, K.E., Kang, H.K., Lee, S.J., Min, 47. Shao, S.J., Li, L., Yang, G., Li, J.R., Luo,
B.M., and Park, W.H. (2006) Biomimetic C., Gong, T., and Zhou, S.B. (2011) Con-
nanofibrous scaffolds: preparation trolled green tea polyphenols release
and characterization of PGA/chitin from electrospun PCL/MWCNTs com-
blend nanofibers. Biomacromolecules, 7, posite nanofibers. Int. J. Pharm., 421,
635–643. 310–320.
39. Buschle-Diller, G., Cooper, J., Xie, Z.W., 48. Liu, Z., Sun, X., Nakayama-Ratchford,
Wu, Y., Waldrup, J., and Ren, X.H. N., and Dai, H. (2007) Supramolecular
(2007) Release of antibiotics from elec- chemistry on water-soluble carbon nan-
trospun bicomponent fibers. Cellulose, otubes for drug loading and delivery.
14, 553–562. ACS Nano, 1, 50–56.
40. Natu, M.V., de Sousa, H.C., and Gil, 49. Qi, R., Guo, R., Shen, M., Cao, X.,
M.H. (2010) Effects of drug solubility, Zhang, L.,Xu, J.,Yu, J.,and Shi, X.
state and loading on controlled release (2010) Electrospun poly(lactic-co-glycolic
in bicomponent electrospun fibers. Int. J. acid)/halloysite nanotube composite
Pharm., 397, 50–58. nanofibers for drug encapsulation and
41. Lin, X.L., Tang, D.Y., Gu, sustained release. J. Mater. Chem., 20,
S.,Du, H.F.,and Jiang, E.Y. 10622–10629.
(2013) Electrospun poly(N- 50. Leroux, F. and Taviot-Gueho, C. (2005)
isopropylacrylamide)/poly(caprolactone)- Fine tuning between organic and inor-
based polyurethane nanofibers as drug ganic host structure: new trends in
