Biomedical Engineering Reference
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[60] Dean DA, Machado A, Blair P, Yeldandi AV, Young J�. Electroporation as a method for
high-level non-viral gene transfer to the lung. Gene Ther 2003;10:1608-15.
[61] Yukio U, Tsutomu M, Yukihiro M, Koyo S, Hisashi I, Hisato T, et al. Skeletal muscle
targeting
in vivo
electroporation-mediated HGF gene therapy of bleomycin-induced pul-
monary fibrosis in mice. �ab Invest 2004;84:836-44.
[62] Terada Y, Tanaka H, Okado T, Inoshita S, Kuwahara M, Akiba T, et al. Efficient and
ligand-dependent regulated erythropoietin production by naked DNA injection and
in vivo
electroporation
Am J Kidney Dis
International Congress on Uremia Research,
Nara, Japan, 2001;38: S50-S53.
[63] Glomeruli MT, Yoshitaka I, Hiroyuki N, Enyu I, Masatsugu H. Electroporation-mediated
gene transfer that targets glomeruli. J Am Soc Nephrol 2001;12:949-54.
[64] Harrison Rachel �, Barry JB, �eslie T. Electroporation-mediated gene transfer in cardiac
tissue. FEBS �ett 1998;435:1-5.
[65] �ong YC, Jaichandran S, Ho �P, Tien S�, Tan SY, Kon O�. FVIII gene delivery by mus-
cle electroporation corrects murine hemophilia A. J Gene Med 2005;7:494-505.
[66] Viggo FI, Van T, Peter P, Filip �, Griet N, Marc �, et al. Highly efficient gene delivery by
mRNA electroporation in human hematopoietic cells: superiority to lipofection and pas-
sive pulsing of mRNA and to electroporation of plasmid cDNA for tumor antigen loading
of dendritic cells. Blood 2001;98:49-56.
[67] Gao X, Kim KS, �iu D. Non-viral gene delivery: what we know and what is next. AAPS J
2007;9:E92-E104.
[68] �iu F, Song Y, �iu D. Hydrodynamics-based transfection in animals by systemic admin-
istration of plasmid DNA. Gene Ther 1999;6:1258-66.
[69] Zhang G, Budker V, Wolff JA. High levels of foreign gene expression in hepatocytes after
tail vein injections of naked plasmid DNA. Hum Gene Ther 1999;10:1735-7.
[70] Takeshi S, Dexi �. Hydrodynamic gene delivery: its principles and applications. Mol
Ther 2007;15:2063-9.
[71] Maruyama H, Higuchi N, Nishikawa Y, Hirahara H, Iino N, Kameda S, et al. Kidney
targeted naked DNA transfer by retrograde renal vein injection in rats. Hum Gene Ther
2002;13:455-68.
[72] Zhang G, Budker V, Williams P, Subbotin V, Wolff J. Efficient expression of naked
DNA delivered intraarterialy to limb muscles of nonhuman primates. Hum Gene Ther
2001;12:427-38.
[73] �iu DX, Knapp JE. Hydrodynamics-based gene delivery. Curr Opin Mol Ther
2001;3:192-7.
[74] Zhang G, Gao X, Song YK, Vollmer R, Stolz DB, Gasiorowski JZ, et al. Hydroporation
as the mechanism of hydrodynamic delivery. Gene Ther 2004;11:675-82.
[75] Andrianaivo F, �ecocq M, Wattiaux-De Coninck S, Wattiaux R, Jadot M.
Hydrodynamics-based transfection of the liver: entrance into hepatocytes of DNA that
causes expression takes place very early after injection. J Gene Med 2004;6:877-83.
[76] Kobayashi N, Nishikawa M, Hirata K, Takakura Y. Hydrodynamics-based procedure
involves transient hyper permeability in the hepatic cellular membrane: implication of a
nonspecific process in efficient intracellular gene delivery. J Gene Med 2004;6:584-92.
[77] Chen CY, �iu HS, �in XZ. Hydrodynamics-based gene delivery to the liver by bile duct
injection of plasmid DNAthe impact of lasting biliary obstruction and injection vol-
ume. Hepatogastroenterology 2005;52:25-8.
[78] Danialou G, Comtois AS, Matecki S, Nalbantoglu J, Karpati G, Gilbert R, et al.
Optimization of regional intraarterial naked DNA-mediated transgene delivery to skeletal
muscles in a large animal model. Mol Ther 2005;11:257-66.
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