Abstract: A method and apparatus for in vivo electroporation therapy. Using electroporation therapy (EPT) as described in the invention, tumors treated by a combination of electroporation using the apparatus of the invention and a chemotherapeutic agent caused regression of tumors in vivo. In one embodiment, the invention provides a method of EPT utilizing low voltage and long pulse length for inducing cell death. One embodiment of the invention includes a system for clinical electroporation that includes a needle array electrode having a “keying” element that determines the set point of the therapy voltage pulse and/or selectable array switching patterns. A number of electrode applicator designs permit access to and treatment of a variety of tissue sites. A disposable needle tip array may be implemented.

Abstract: A method and apparatus for in vivo electroporation therapy. Using electroporation therapy (EPT) as described in the invention, tumors treated by a combination of electroporation using the apparatus of the invention and a chemotherapeutic agent caused regression of tumors in vivo. In one embodiment, the invention provides a method of EPT utilizing low voltage and long pulse length for inducing cell death. One embodiment of the invention includes a system for clinical electroporation that includes a needle array electrode having a “keying” element that determines the set point of the therapy voltage pulse and/or selectable array switching patterns. A number of electrode applicator designs permit access to and treatment of a variety of tissue sites. Another embodiment provides a laparoscopic needle applicator that is preferably combined with an endoscope for minimally invasive EPT.

Abstract: A method and apparatus for in vivo electroporation therapy. Using electroporation therapy (EPT) as described in the invention, tumors treated by a combination of electroporation using the apparatus of the invention and a chemotherapeutic agent caused regression of tumors in vivo. In one embodiment, the invention provides a method of EPT utilizing low voltage and long pulse length for inducing cell death. One embodiment of the invention includes a system for clinical electroporation that includes a needle array electrode having a “keying” element that determines the set point of the therapy voltage pulse and/or selectable array switching patterns. A number of electrode applicator designs permit access to and treatment of a variety of tissue sites. Another embodiment provides a laparoscopic needle applicator that is preferably combined with an endoscope for minimally invasive EPT.

Abstract: An electrode template apparatus, includes a three dimensional support member having opposite surfaces, a plurality of bores extending through the support member and through the opposite surfaces, a plurality of conductors on the member separately connected to the plurality of bores, a plurality of needle electrodes selectively extendable through the plurality of bores and into tissue to be electroporated so that each electrode is comcected to at least one conductor for connecting the electrodes to a power supply.

Abstract: An electrode assembly for an apparatus for and a method of trans-surface molecular delivery, including a non-conductive carrier having a proximal surface, a distal surface, and a plurality of through holes from the proximal surface to the distal surface, a first electrode disposed on at least a portion of the distal surface and extending through at least a portion of the plurality of through holes and onto at least a portion of the proximal surface, a second electrode disposed on at least a portion of the proximal surface and in closely spaced relation with the first electrode for engaging a tissue surface through which to apply an electric field, and an insulating barrier that is disposed on at least a portion of the proximal surface of the carrier between the first electrode and the second electrode.

Abstract: A method and apparatus for in vivo electroporation therapy. Using electroporation therapy (EPT) as described in the invention, tumors treated by a combination of electroporation using the apparatus of the invention and a chemotherapeutic agent caused regression of tumors in vivo. In one embodiment, the invention provides a method of EPT utilizing low voltage and long pulse length for inducing cell death. One embodiment of the invention includes a system for clinical electroporation that includes a needle array electrode having a “keying” element that determines the set point of the therapy voltage pulse and/or selectable array switching patterns. A number of electrode applicator designs permit access to and treatment of a variety of tissue sites. Another embodiment provides a laparoscopic needle applicator that is preferably combined with an endoscope for minimally invasive EPT.

Abstract: An electroporation method and apparatus generating and applying an electric field according to a user-specified pulsing and temperature profile scheme. The apparatus includes a cuvette holder with a Peltier device forming part of the electrode structures that form part of the holder. Advantageously, one such pulse includes a low voltage pulse of a first duration, immediately followed by a high voltage of a second duration, immediately followed by a low voltage of a third duration. The low voltage electroporation field accumulates molecules at the surface of a cell, the appropriately high voltage field creates an opening in the cell, and the final low voltage field moves the molecule into the cell. The molecules may be DNA, portions of DNA, chemical agents, the receiving cells may be eggs, platelets, human cells, red blood cells, mammalian cells, plant protoplasts, plant pollen, liposomes, bacteria, fungi, yeast, sperm, or other suitable cells.

Abstract: A method and apparatus are provided for introducing molecules such as genes and pharmaceutical compounds into living blood cells of a patient for therapeutic purposes. A device is placed into contact with the body of the patient for generating an electric field at a preselected location within a selected blood vessel. Preselected molecules are infused into the selected blood vessel. Simultaneously an electric signal is applied to the applied device to repeatedly subject a quantity of blood flowing within the selected blood vessel past the preselected location to electric fields of a predetermined amplitude and duration. The parameters of the electric fields are precisely controlled in order to make the walls of preselected cells in the blood transiently permeable to permit the molecules to enter said preselected cells without killing said cells.

Abstract: A method is provided for the introduction of an agent to a neoplastic cell for electroporating the cell, including contacting the cell with an electrode template apparatus. The electrode template apparatus is utilized to apply an electric field to the cell in order to introduce the agent into the cell. A method is also provided for the introduction of an agent to a tissue for electroporating a cell in the tissue, including contacting the tissue with an electrode template apparatus. The tissue is contacted with the agent and a pulse of high amplitude electric signals is applied to the cell utilizing the apparatus, for electroporation of the cell with the agent.

Abstract: An electroporation method and apparatus generating and applying an electric field according to a user-specified pulsing scheme. Advantageously, one such pulse includes a low voltage pulse of a first duration, immediately followed by a high voltage of a second duration, immediately followed by a low voltage of a third duration. The low voltage electroporation field accumulates molecules at the surface of a cell, the appropriately high voltage field creates an opening in the cell, and the final low voltage field moves the molecule into the cell. The molecules may be DNA, portions of DNA, chemical agents, the receiving cells may be eggs, platelets, human cells, red blood cells, mammalian cells, plant protoplasts, plant pollen, liposomes, bacteria, fungi, yeast, sperm, or other suitable cells. The molecules are placed in close proximity to the cells, either in the interstitial space in tissue surrounding the cells or in a fluid medium containing the cells.

Abstract: A method and apparatus for in vivo electroporation therapy. Using electroporation therapy (EPT) as described, tumors treated by a combination of electroporation using the apparatus and a chemotherapeutic agent caused regression of tumors in vivo. In one embodiment, a method of EPT utilizes low voltage and long pulse length for inducing cell death. One embodiment includes a system for clinical electroporation that includes a needle array electrode having a "keying" element that determines the set point of the therapy voltage pulse and/or selectable array switching patterns. A number of electrode applicator designs permit access to and treatment of a variety of tissue sites. Another embodiment provides a laparoscopic needle applicator that is preferably combined with an endoscope for minimally invasive EPT.

Abstract: A method and apparatus for in vivo electroporation therapy. Using electroporation therapy (EPT) as described in the invention, tumors treated by a combination of electroporation using the apparatus of the invention and a chemotherapeutic agent caused regression of tumors in vivo. In one embodiment, the invention provides a method of EPT utilizing low voltage and long pulse length for inducing cell death. One embodiment of the invention includes a system for clinical electroporation that includes a needle array electrode having a "keying" element that determines the set point of the therapy voltage pulse and/or selectable array switching patterns. A number of electrode applicator designs permit access to and treatment of a variety of tissue sites. Another embodiment provides a laparoscopic needle applicator that is preferably combined with an endoscope for minimally invasive EPT.

Abstract: A method and apparatus for introducing a preselected molecule into a living cell by contacting the cell with the preselected molecule and applying a multiple series of electrical pulses to the cell. The method can be utilized ex vivo. The multiple electrical pulses generate rotating electric fields which introduce transient pores in the living cell without killing the cell. The rotating electric fields are provided in a flow through chamber apparatus having more than two electrodes. A three-step pulse process, e.g. collection, electroporation, electrophoresis, is used to introduce the preselected molecule into the cell. A mechanical means of repositioning cells between successive pulses is also provided. The apparatus can also provide a means to pulse cells at different temperatures and then after pulsing, let the cells recover for a specified residence time at another temperature.

Abstract: A method and apparatus for in vivo electroporation therapy. Using electroporation therapy (EPT) as described in the invention, tumors treated by a combination of electroporation using the apparatus of the invention and a chemotherapeutic agent caused regression of tumors in vivo. In one embodiment, the invention provides a method of EPT utilizing low voltage and long pulse length for inducing cell death. One embodiment of the invention includes a system for clinical electroporation that includes a needle array electrode having a "keying" element that determines the set point of the therapy voltage pulse and/or selectable array switching patterns. A number of electrode applicator designs permit access to and treatment of a variety of tissue sites. Another embodiment provides a laparoscopic needle applicator that is preferably combined with an endoscope for minimally invasive EPT.

Abstract: An electrode template apparatus, comprises a three dimensional support member having opposite surfaces, a plurality of bores extending through the support member and through the opposite surfaces, a plurality of conductors on the member separately connected to the plurality of bores, a plurality of electrodes selectively insertable in the plurality of bores so that each electrode is connected to at least one conductor for connecting the electrodes to a power supply.

Abstract: An apparatus for transdermal molecular delivery, comprises a first electrode assembly having an anode and a cathode in closely spaced relation for engaging the stratum corneum through which to apply an electric field, first power supply including a first circuit connected to the first electrode assembly for applying a pulsed electric field of sufficient amplitude to induce pores in the stratum corneum, a second electrode assembly spaced from the first electrode assembly and comprising at least one of an anode and a cathode, second power supply including a second circuit connected to the first electrode assembly and the second electrode assembly for applying a low voltage continuous electric field of a preselected polarity and sufficient amplitude to induce migration of molecules through pores in the stratum corneum.

Abstract: A method for in vivo electrotherapy, or electroporation-mediated therapy, using a needle array apparatus is provided. Treatment of tumors with a combination of electroporation using the apparatus of the invention, and a chemotherapeutic agent, caused regression of tumors in vivo.

Abstract: An apparatus and method for transdermal molecular delivery, comprises a first electrode assembly having an anode and a cathode in closely spaced relation for engaging the stratum corneum through which to apply an electric field, a second electrode assembly spaced from the first electrode assembly through which to apply an electric field and comprising at least one of an anode and a cathode, a first power supply including a first circuit preferably connected to the first electrode assembly for applying a pulsed electric field of sufficient amplitude to induce pores in the stratum corneum, second power supply including a second circuit connected to the first electrode assembly and the second electrode assembly for applying a low voltage continuous electric field of a preselected polarity and sufficient amplitude to induce migration of molecules through pores in the stratum corneum. The iontophoresis current density to the electrode assembly is around 0.5 mA per cm.sup.

Abstract: A method for sustained intravascular delivery via electroporation is provided. The method is useful for delivery of therapeutic compositions such as antithrombotic and anticoagulant agents. The invention also provides a catheter apparatus for introducing a composition into at least one cell in a vessel in a subject.

Abstract: An electroporation method and apparatus generating and applying an electric field according to a user-specified pulsing scheme. Advantageously, one such pulse includes a low voltage pulse of a first duration, immediately followed by a high voltage of a second duration, immediately followed by a low voltage of a third duration. The low voltage electroporation field accumulates molecules at the surface of a cell, the appropriately high voltage field creates an opening in the cell, and the final low voltage field moves the molecule into the cell. The molecules may be DNA, portions of DNA, chemical agents, the receiving cells may be eggs, platelets, human cells, red blood cells, mammalian cells, plant protoplasts, plant pollen, liposomes, bacteria, fungi, yeast, sperm, or other suitable cells. The molecules are placed in close proximity to the cells, either in the interstitial space in tissue surrounding the cells or in a fluid medium containing the cells.