“THe effects of a Single High Voltage Electrical STimulation with an ANticancer Drug in in vivo growing Malignant Tumors”Japanese Journal of Surgery, vol. 20 No. 2 pp 197-204, 1990.* |
Abe, et al., “Induction of humoral and cellular anti-idiotypic immunity by intradermal injection of naked DNA encoding a humna variable region gene sequence of an immunoglobulin heavy chain in a B cell malignancy,” Gene Therapy, 3:988-993 (1996). |
Katsumi, et al., “Humoral and Cellular Immunity to an Encoded Protein Induced by Direct DNA Injection,” Human Gene Therapy, 5:1335-1339 (1994). |
Lim, et al., “Potentiation of antigen-specific, Th1 immune responses by multiple DNA vaccination with an ovalbumin/interferon-γ hybrid construct,” Immunology, 94:135-141 (1998). |
Neuberger, M.S., “Expression and Regulation of immunoglobulin heavy chain gene transfected into lymphoid cells,” The EMBO Journal, 2(8):1373-1378 (1983). |
Norderhaug, et al., “Versatile vectors for transient and stable expression of recombinant antibody molecules in mammalian cells,” Journal of Immunological Methods, 204:77-87 (1997). |
Pelegrin, et al., “Genetically Engineered Antibodies in Gene Transfer and Gene Therapy,” Human Gene Therapy, 9:2165-2175 (1998). |
Syrengelas, et al., “DNA immunization induces protective immunity against B-cell lymphoma,” Nature Medicine, 9(2):1038-41 (1996). |
Bhatt, et al., “Rhabdomyolysis Due to Pulsed Electric Fields, ” Plastic and Reconstructive Surgery, 86(1):1-11 (1990). |
Block, et al., “Nonthermally Mediated Muscle Injury and Necrosis in Electrical Trauma,” Journal of Burn Care and Rehabilitation, 16(6):571-588 (1995). |
Collas, et al., “The Nuclear Localization Sequence of the SV40 T Antigen Promotes Transgene Uptake and Expression in Zebrafish Embryo Nuclei,” Transgenic Research, 5:451-458 (1996). |
Davis, et al., “Direct Gene Transfer into Skeletal Muscle In Vivo: Factors Affecting Efficiency of Transfer and Stability of Expression,” Human Gene Therapy, 4:151-159 (1993). |
Heller, et al., “In Vivo Gene Electroinjection and Expression in Rat Liver,” FEBS Letter, 389:225-225 (1996). |
Hofmann, G.A., “Cells in Electric Fields,” Electroporation and Electrofusion in Cell Biology, (ed. Neuman, E., Sowers, A.E. & Jordan, C.A.) pp. 389-407 Plenum Publishing Corp. (1989). |
Lee, et al., “Transient and stable ionic permeabilization of isolated skeletal muscle cells after electrical shock,” J Burn Care Rehabil., 14(5):528-40 (1993). |
Lee, et al., “Surfactant-Induced Sealing of Electropermeabillized Skeletal Muscle Membranes In Vivo,” Proc. Natl. Acad. Sci., 89:4524-4528 (1992). |
Manthorpe, et al., “Gene Therapy by Intramuscular Injection of Plasmid DNA: Studies on Firefly Luciferase Gene Expression in Mice,” Human Gene Therapy, 4(419-431) 1993. |
Miklavcic, et al., “The Importance of Electric Field Distribution for Effective In Vivo Electroporation of Tissues,” Biophysical Journal, 74(2152-2158) (1998). |
Nishi, et al., “High-Efficiency In Vivo Gene Transfer Using Intraarterail Plasmid DNA Injection Following In Vivo Electroporation,” Cancer Research, 56:1050-1055 (1996). |
Potter, H., “Electroporation in Biology: Methods, Applications, and Instrumentation,” Analytical Biochemistry, 174:361-373 (1998). |
Prausnitz, et al., “Electroporation of Mammalian Skin: A Mechanism to Enhance Transsdermal Drug Delivery,” Proc. Natl. Acad. Sci., 90:10504-10508 (1993). |
Rols, et al., “Electropermeabilization of Mammalian Cells: Quantitative Analysis of the Phenomenon,” Biophysical Journal, 58:1089-1098 (1990). |
Rols, et al., “In Vivo Electrically Mediated Protein and Gene Transfer in Murine Melanoma,” Nature Biotechnology, 16:168-171 (1998). |
Tekle, et al., “Electroporation by using Bipolar Oscillating Electric Field: An Improved Method for DNA Transfection of NIH 3T3 Cells,” Proc. Natl. Acad. Sci. USA, 88:4230-4234 (1991). |
Wolf, et al., “Control by Pulse Parameters of Electric Field-Mediated Gene Transfer in Mammalian Cells,” Biophysical Journal, 66:524-531 (1994). |
Wolff, et al., “Long-Term Persistence of Plasmid DNA and Foreign Gene Expression in Mouse Muscle,” Human Molecular Genetics, 1(6):363-369 (1992). |
Wolff, et al., “Conditions Affecting Direct Gene Transfer into Rodent Muscle in Vivo,” Biotechniques, 11:474-485 (1991). |