An iontophoresis drug delivery system and method for denervation of the renal sympathetic nerve and iontophoresis drug delivery. The system includes an iontophoresis catheter fitted with a drug coated balloon. The iontophoresis catheter includes a balloon near its distal tip or end that contacts the vessel wall circumferentially when inflated. One or more electrodes are associated with a surface of the balloon, and may be disposed on an outer surface of the balloon. The electrodes are operably coupled to an energy source configured to produce a bipolar or monopolar electric field between two balloon electrodes and/or between one balloon electrode and another electrode placed in contact with a part of the patient's body. During use, the disclosed drug-delivery catheter produces an electric potential gradient within adjacent tissue, that, in turn, facilitates iontophoresis delivery of a drug. The disclosed catheter can also include a store of one or more drugs to be delivered to the targeted tissue.

Embodiments of the invention provide an architecture, system and methods for optimizing power utilization for transdermal iontophoretic drug delivery which maintain a iontophoretic driving voltage at a reduced or even minimum value to support an iontophoretic delivery current. The reduced voltage reduces the power requirements for a transdermal iontophoretic delivery system during a period of drug delivery. Embodiments of an architecture for implementing this approach can utilize a controller which compares the desired current to the actual current and adjusts the voltage to reduce the amount of power used for iontophoretic drug delivery. The controller can comprise a state machine or microprocessor. Embodiments of the invention are particularly useful for extending the battery life of transdermal iontophoretic drug delivery systems.

A cosmetic instrument capable of reading a memory card includes a first housing; a second housing, assembled with the first housing to cooperatively form a shell having a chamber; a massage head mounted on a first end of the shell, the massage head extending into the chamber; a control panel comprising a display panel, the control panel being mounted on the shell beside the massage head; a micro controller unit and a drive unit positioned in the chamber and electrically connected with each other, the micro controller unit being electrically connected to the control panel and the display panel. The first housing and the seconding housing define a card insertion hole. The micro controller unit is configured to read information of a memory card inserted into the card insertion hole and generates a result. The display panel displays the result to remind the user to operate the cosmetic instrument.

A method and a device for treating at least a part of an individual's skin having a natural first polarization state. The method comprises the steps of applying at least two electrodes on the individual's skin at a distance from each other, and supplying a direct current to said electrodes to form an electrical potential difference between said electrodes on said part of the skin in order to bringing said part of the skin into a second polarization state, which is different from the first. The part of the skin is then suitable subjected to further treatment for example using cosmetics or pharmaceuticals. The invention can be utilized in the field of cosmetics and for therapy, and it can be used e.g. for accelerating skin care processes.

A system is provided for healing a wound. The system includes a flexible body, a therapeutic agent delivery mechanism, a suction mechanism, and a power source. The flexible body includes a cover film having oppositely disposed first and second surfaces that define a compartment. The compartment includes a first porous material, a second porous material, and at least one electrode disposed therein. The second porous material is disposed between the first porous material and the at least one electrode. The therapeutic agent delivery mechanism and the suction mechanism are fluidly connected to the compartment. The power source is in electrical communication with the at least one electrode.

An active transdermal medicament patch includes a planar substrate with a therapeutic face releasably retainable against the skin of a patient. A return electrode and a medicament matrix susceptible to permeation by medicament are secured at separated locations on the therapeutic face and electrically conductively engage the skin. A detector monitors iontophoretic medicament migration into the skin. An integrator operating on the output of the detector produces a running cumulative total of the amount of medicament delivered during a plurality of temporally non-contiguous therapy subsessions. A circuit breaker terminates medicament migration, when the output of the integrator equals a predetermined medicament quantity. A timer active during medicament migration stimulates a driver to operate a light-emitting diode in a distinct delivery confirmation mode during each a sequence of non-overlapping predetermined therapy subsessions, respectively. A circuit board on the substrate in a compact, folded state bears interconnected electrical circuit components.

Contact lenses are provided for ocular iontophoretic therapy. Implementations include a reservoir adapted to contain a charged therapeutic compound, a current source providing iontophoretic current to the charged therapeutic composition to affect delivery of the charged therapeutic composition into an eyeball, and a sensing circuit controlling the current source to maintain a selected pH range of the charged therapeutic composition. Alternate embodiments include active, sacrificial electrodes for generating ions sufficient to provide electromotive repulsive force to the charged compound to effect transport into ocular tissue.

A hand held electrostimulation device has a handle having a first side member and a second side member. At least one first electrode is provided on the first side member and at least one second electrode is provided on the second side member. The first side member is longer than the second side member, which is connected with the first side member at a position intermediate the ends of the second side member. The handle is configured so that a user can cause relative movement of the first and second side members from a rest position and is resiliently biased to return to the rest position to cause relative movement of the first and second electrodes to massage skin engaged by the electrodes while applying electricity to the skin via the electrodes.

An iontophoresis drug delivery system and method for denervation of the renal sympathetic nerve and iontophoresis drug delivery. The system includes an iontophoresis catheter fitted with a drug coated balloon. The iontophoresis catheter includes a balloon near its distal tip or end that contacts the vessel wall circumferentially when inflated. One or more electrodes are associated with a surface of the balloon, and may be disposed on an outer surface of the balloon. The electrodes are operably coupled to an energy source configured to produce a bipolar or monopolar electric field between two balloon electrodes and/or between one balloon electrode and another electrode placed in contact with a part of the patient's body. During use, the disclosed drug-delivery catheter produces an electric potential gradient within adjacent tissue, that, in turn, facilitates iontophoresis delivery of a drug. The disclosed catheter can also include a store of one or more drugs to be delivered to the targeted tissue.

Various embodiments provide methods and systems for the biphasic iontophoretic transdermal delivery of therapeutic agents. An embodiment of a method for such delivery comprises positioning at least one electrode assembly in electrical communication with a patient's skin. The assembly includes a solution comprising a therapeutic agent which passively diffuses into the skin. A dose of agent is delivered from the assembly into the skin during a first period using a first current having a characteristic e.g., polarity and magnitude, to repel the agent out of the assembly. During a second period, a second current having a characteristic to attract the agent is used to retain the agent in the assembly such that delivery of agent into skin is minimized. A dose of agent may be delivered on demand by an input from the patient. Embodiments may be used for delivery of agents which cause adverse effects from unwanted passive diffusion.