Biomedical Engineering Reference
In-Depth Information
29. Wu, Z.J., Joo, H., Lee, T.G., and Lee, K., Controlled release of lidocaine hydrochloride from the surfac-
tant-doped hybrid xerogels,
J. Contr. Release
, 104, 497, 2005.
30. Kulak, A., Hall, S.R., and Mann, S., Single-step fabrication of drug-encapsulated inorganic micro-
spheres with complex form by sonication-induced nanoparticle assembly,
Chem. Comm.
, 576, 2004.
31. Son, S.J., Bai, X., Nan, A., Ghandehari, H., and Lee, S.B., Template synthesis of multifunctional nano-
tubes for controlled release,
J. Contr. Release
, 114, 143, 2006.
32. Sinha, P.M., Valco, G., Sharma, S., Liu, X.W., and Ferrari, M., Nanoengineered device for drug delivery
application,
Nanotechnology
, 15, S585, 2004.
33. Ueno, Y., Futagawa, H., Takagi, Y., Ueno, A., and Mizushima, Y., Drug-incorporating calcium carbon-
ate nanoparticles for a new delivery system,
J. Contr. Release
, 103, 93, 2005.
34. Wang, C.Y., He, C.Y., Tong, Z., Liu, X.X., Ren, B.Y., Zeng, F., Combination of adsorption by porous
CaCO
3
microparticles and encapsulation by polyelectrolyte multilayer fi lms for sustained drug delivery,
Int. J. Pharm
., 308, 160, 2006.
35. Ueno, Y., Futagawa, H., Takagi, Y., Ueno, A., and Mizushim, Y., Drug-incorporating calcium carbonate
nanoparticles for a new delivery system,
J. Contr. Release
, 103, 93, 2005.
36. Barroug, A., Kuhn, L.T., Gerstenfeld, L.C., Glimcher, M.J., Interactions of cisplatin with calcium phos-
phate nanoparticles:
in vitro
controlled adsorption and release,
J. Orthop. Res.
, 22, 703, 2004.
37. Rauschmann, M.A., Wichelhaus, T.A., Stirnal, V., Dingeldein, E., Zichner, L., Schnettler, R., and Alt, V.,
Nanocrystalline hydroxyapatite and calcium sulphate as biodegradable composite carrier material for
local delivery of antibiotics in bone infections,
Biomaterials
, 26, 2677, 2005.
38. El-Ghannam, A., Ahmed, K., and Omran, M., Nanoporous delivery system to treat osteomyelitis and
regenerate bone: gentamicin release kinetics and bactericidal effect,
J. Biomed. Mater. Res. B
, 73B, 277,
2005.
39. Liu, T.Y., Chen, S.Y., Li, J.H., and Liu, D.M., Study on drug release behaviour of CDHA/chitosan
nanocomposites-effect of CDHA nanoparticles,
J. Contr. Release
, 112, 88, 2006.
40. Kim, H.W., Knowles, J.C., and Kim, H.E., Porous scaffolds of gelatin-hydroxyapatite nanocomposites
obtained by biomimetic approach: characterization and antibiotic drug release,
J. Biomed. Mater. Res. B
,
74B, 686, 2005.
41. Yoon, T.J., Kim, J.S., Kim, B.G., Yu, K.N., Cho, M.H., and Lee, J.K., Multifunctional nanoparticles pos-
sessing a “magnetic motor effect” for drug or gene delivery,
Angew. Chem. Int. Ed.
, 44, 1068, 2005.
42. Chattopadhyay, P. and Gupta, R.B., Supercritical CO
2
based production of magnetically responsive
micro- and nanoparticles for drug targeting,
Ind. Eng. Chem. Res.
, 41, 6049, 2002.
43. Obson, D.J., Magnetic nanoparticles for drug delivery,
Drug Dev. Res.
, 67, 55, 2006.
44. Widder, K.J., Senyei, A.E., and Scarpelli, D.G., Magnetic microspheres: a model system for site specifi c
drug delivery
in vivo
,
P. Soc. Exp. Biol. Med.
, 58, 141, 1978.
45. Senyei, A., Widder, K., and Czerlinski, C., Magnetic guidance of drug carrying microspheres,
J. Appl.
Phys.
, 49, 3578, 1978.
46. Mosbach, K. and Schröder, U., Preparation and application of magnetic polymers for targeting of drugs,
FEBS Lett.
, 102, 112, 1979.
47. Alexiou, C., Arnold, W., Klein, R.J., Parak, F.G., Hulin, P., Bergemann, C., Erhardt, W., Wagenpfeil,
S., and Lubbe, A.S., Locoregional cancer treatment with magnetic drug targeting,
Canc. Res.
, 60, 6641,
2000.
48. Alexiou, C., Jurgons, R., Schmid, R., Hilpert, A., Bergemann, C., Parak, F., and Iro, H.,
In vitro
and
in vivo
investigations of targeted chemotherapy with magnetic nanoparticles,
J. Magn. Magn. Mater.
, 293, 389,
2005.
49. Fernández-Pacheco, R., Arruebo, M., Marquina, C., Ibarra, R., Arbiol, J., and Santamaría, J., Highly
magnetic silica-coated iron nanoparticles prepared by the arc-discharge method,
Nanotechnology
, 17,
1188, 2006.
50. Tartaj, P., Morales, M.P., Veintemillas-Verdaguer, S., González-Carreño, T., and Serna, C.J., The prepa-
ration of magnetic nanoparticles for applications in biomedicine,
J. Phys. D: Appl. Phys.
, 36, R182,
2003.
51. Ferrari, M., Cancer nanotechnology: opportunities and challenges,
Nat. Rev. Canc.
,
5, 161, 2005.
52. Zhao, W.R., Gu, J.L., Zhang, L.X., Chen, H.R., and Shi, J.L., Fabrication of uniform magnetic nanocompos-
ite spheres with a magnetic core/mesoporous silica shell structure,
J. Am. Chem. Soc.
, 127, 8916, 2005.
53. Deng, Y.H., Wang, C.C., Shen, X.Z., Yang, W.L., Jin, L., Gao, H., and Fu, S.K., Preparation, charac-
terization, and application of multistimuli-responsive microspheres with fl uorescence-labeled magnetic
cores and thermoresponsive shells,
Chem. Eur. J.
, 11, 6006, 2005.
