Biomedical Engineering Reference
In-Depth Information
polyethylenimine-complexed small interfering RNAs
in vivo
exerts antitumoral effects in
glioblastoma xenografts',
Hum Gene Ther
, 17, 751-766.
Heath T D, Lopez N G and Papahadjopoulos D (1985), 'The effects of liposome size and surface
charge on liposome-mediated delivery of methotrexate-gamma-aspartate to cells
in vitro
',
Biochim Biophys Acta
, 820, 74-84.
Helin V, Gottikh M, Mishal Z, Subra F, Malvy C and Lavignon M (1999), 'Cell cycle-dependent
distribution and specific inhibitory effect of vectorized antisense oligonucleotides in cell culture',
Biochem Pharmacol,
58, 95-107.
Heuschkel S, Goebel A and Neubert R H (2008), 'Microemulsions - modern colloidal carrier for
dermal and transdermal drug delivery',
J Pharm Sci
, 97, 603-631.
Hillaireau H and Couvreur P (2009), 'Nanocarriers' entry into the cell: relevance to drug delivery',
Cell Mol Life Sci
, 66, 2873-2896.
Hu-Lieskovan S, Heidel J D, Bartlett D W, Davis M E and Triche T J (2005), 'Sequence-specific
knockdown of EWS-FLI1 by targeted, nonviral delivery of small interfering RNA inhibits
tumor growth in a murine model of metastatic Ewing's sarcoma',
Cancer Res,
65, 8984-8992.
Jain R K (1987), 'Transport of molecules across tumor vasculature',
Cancer Metastasis Rev
, 6,
559-593.
Jallouli Y, Paillard A, Chang J, Sevin E and Betbeder D (2007), 'Influence of surface charge and
inner composition of porous nanoparticles to cross blood-brain barrier
in vitro'
,
Int J Pharm
,
344, 103-109.
Jaulin N, Appel M, Passirani C, Barratt G and Labarre D (2000), 'Reduction of the uptake by a
macrophagic cell line of nanoparticles bearing heparin or dextran covalently bound to
poly(methyl methacrylate)',
J Drug Target
, 8, 165-172.
Jeon S I, Lee J H, Andrade J D and De Gennes P G (1991), 'Protein-surface interactions in the
presence of polyethylene oxide; 1. Simplified theory'
J Colloid Interf Sci
, 142, 149-166.
Jeong J H, Kim S H, Kim S W, Park T G (2006), 'Intracellular delivery of poly(ethylene glycol)
conjugated antisense oligonucleotide using cationic lipids by formation of self-assembled
polyelectrolyte complex micelles',
J Nanosci Nanotechnol
6, 2790-2795.
Jeong Y I, Na H S, Seo D H, Kim D G, Lee H C, Jang M K, Na S K, Roh S H, Kim S I and Nah
J W (2008), 'Ciprofloxacin-encapsulated poly(DL-lactide-co-glycolide) nanoparticles and its
antibacterial activity',
Int J Pharm
, 352, 317-323.
Junghans M, Kreuter J and Zimmer A (2001), 'Phosphodiester and phosphorothioateoligonucle-
otide condensation and preparation of antisense nanoparticles',
Biochim Biophys Acta,
1544,
177-188.
Kakizawa Y and Kataoka K (2002), 'Block copolymer micelles for delivery of gene and related
compounds',
Adv Drug Deliv Rev
, 54, 203-222.
Kakizawa Y, Furukawa S and Kataoka K (2004), 'Block copolymer-coated calcium phosphate
nanoparticles sensing intracellular environment for oligodeoxynucleotide and siRNA delivery',
J Control Rel,
97, 345-356.
Kakizawa Y, Furukawa S, Ishii A and Kataoka K (2006), 'Organic-inorganic hybrid-nanocarrier
of siRNA constructing through the self-assembly of calcium phosphate and PEG-based block
aniomer',
J Control Rel,
111, 368-370.
Kang H, DeLong R, Fisher M H and Juliano R L (2005), 'Tat-conjugated PAMAM dendrimers as
delivery agents for antisense and siRNA oligonucleotides',
Pharm Res,
22, 2099-2106.
Kang C, Yuan X, Li F, Pu P, Yu S, Shen C, Zhang Z and Zhang Y (2010), 'Evaluation of folate-
PAMAM for the delivery of antisense oligonucleotides to rat C6 glioma cells
in vitro
and
in vivo
', J Biomed Mater Res A, 93, 585-594.
Katas H and Alpar H O (2006), 'Development and characterisation of chitosan nanoparticles for
siRNA delivery',
J Control Rel,
115, 216-225.
Katas H, Chen S, Osamuyimen A A, Cevher E and Oya Alpar H (2008), 'Effect of preparative
variables on small interfering RNA loaded Poly(D,L-lactide-co-glycolide)-chitosan submi-
cron particles prepared by emulsification diffusion method',
J Microencapsul
, 25,
541-548.
Search WWH ::
Custom Search