A plasma torch having an open end from which a plasma plume is emitted in use is disclosed. The plasma torch includes a central cathode rod, a grounded conductive tube having an open end and being arranged around the cathode and spaced therefrom to form a first cylindrical cavity open at one end; and a high voltage electrode having a dielectric barrier material at a radially inward-facing surface thereof and being arranged around the grounded conductive tube and spaced apart therefrom to form a second annular cylindrical cavity open at one end. A constant direct current (DC) electrical power plus a high voltage pulsed electrical power is provided to the cathode producing an arc discharge in the first cavity between the cathode and grounded tube to generate a central thermal plasma emitted at an open end of the first cylindrical cavity. A high voltage alternating current electrical power or pulsed electrical power is provided to the high voltage electrode producing a dielectric barrier discharge in the second annular cylindrical cavity to generate a non-thermal plasma emitted from an open end of the second cavity as a halo around the central thermal plasma.

A plasma torch having an open end from which a plasma plume is emitted in use is disclosed. The plasma torch includes a central cathode rod, a grounded conductive tube having an open end and being arranged around the cathode and spaced therefrom to form a first cylindrical cavity open at one end; and a high voltage electrode having a dielectric barrier material at a radially inward-facing surface thereof and being arranged around the grounded conductive tube and spaced apart therefrom to form a second annular cylindrical cavity open at one end. A constant direct current (DC) electrical power plus a high voltage pulsed electrical power is provided to the cathode producing an arc discharge in the first cavity between the cathode and grounded tube to generate a central thermal plasma emitted at an open end of the first cylindrical cavity. A high voltage alternating current electrical power or pulsed electrical power is provided to the high voltage electrode producing a dielectric barrier discharge in the second annular cylindrical cavity to generate a non-thermal plasma emitted from an open end of the second cavity as a halo around the central thermal plasma.

Disclosed is a device having an oscillator and high voltage transformer connected to a glass-like tube filled with an inert gas or a mixture of inert gasses. The tube is located at the end of a wand having a handle. The output of the transformer is an RF high voltage signal. The output of the transformer is fed to the tube through a high voltage wire, where the signal excites the gas to produce a plasma-like beam. The tube is then applied to a patient's skin to aid in healing and the relief of additional ailments. The field generated by the tube interacts with the cells in the patient to increase transmembrane potential, stimulate ATP production, and inject negative ions and ozone into the surface of the user's skin to combat infection and disease.

Disclosed is a device having an oscillator and high voltage transformer connected to a glass-like tube filled with an inert gas or a mixture of inert gasses. The tube is located at the end of a wand having a handle. The output of the transformer is an RF high voltage signal. The output of the transformer is fed to the tube through a high voltage wire, where the signal excites the gas to produce a plasma-like beam. The tube is then applied to a patient's skin to aid in healing and the relief of additional ailments. The field generated by the tube interacts with the cells in the patient to increase transmembrane potential, stimulate ATP production, and inject negative ions and ozone into the surface of the user's skin to combat infection and disease.

A system including an internal cold plasma system, including an internal cold plasma applicator configured to couple to a surface surrounding a cavity and to produce a cold plasma between the internal cold plasma applicator and the surface.

A system including an internal cold plasma system, including an internal cold plasma applicator configured to couple to a surface surrounding a cavity and to produce a cold plasma between the internal cold plasma applicator and the surface.

Exemplary systems and methods associated with trans-tissue substance delivery using non-thermal plasma to porate skin or tissues using contoured dielectrics/electrodes and grounding techniques. In some embodiments, a substance delivery system may be incorporated into the plasma generating device for automatically controlled skin treatments. In other embodiments, a skin treatment patch may include the electrode and the treatment substance.

Exemplary systems and methods associated with trans-tissue substance delivery using non-thermal plasma to porate skin or tissues using contoured dielectrics/electrodes and grounding techniques. In some embodiments, a substance delivery system may be incorporated into the plasma generating device for automatically controlled skin treatments. In other embodiments, a skin treatment patch may include the electrode and the treatment substance.

Devices and methods for image-based treatment with an instrument configured to apply variable amounts of treatment medium at different locations. Devices having an image caption device that is configured to capture the area to be treated. The device comprises an evaluation device that is configured to determine a treatment trace of the treatment medium relative to the area to be treated from data of the image capture device and to determine a spatially resolved dosage for the area to be treated based on the treatment trace. Devices having a representation device that is configured to display the treatment trace and/or the spatially resolved dosage optically for a user, relative to the tissue. Methods to optically indicate the locations of the area to be treated of the tissue surface that have already been treated and/or the dosage with which the respective treated locations have been treated.

Devices and methods for image-based treatment with an instrument configured to apply variable amounts of treatment medium at different locations. Devices having an image caption device that is configured to capture the area to be treated. The device comprises an evaluation device that is configured to determine a treatment trace of the treatment medium relative to the area to be treated from data of the image capture device and to determine a spatially resolved dosage for the area to be treated based on the treatment trace. Devices having a representation device that is configured to display the treatment trace and/or the spatially resolved dosage optically for a user, relative to the tissue. Methods to optically indicate the locations of the area to be treated of the tissue surface that have already been treated and/or the dosage with which the respective treated locations have been treated.