An oral treatment device (10) for stimulating deposition of calcium phosphate from an amorphous calcium phosphate formulation in contact with a tooth (1) in an oral cavity is disclosed. The device comprises a first electrode (12) and a second electrode (14) spatially separated from the first electrode, wherein both the first electrode and the second electrode are arranged to contact the amorphous calcium phosphate formulation when the first electrode is arranged proximal to the tooth during use of the device; and the second electrode comprises a sacrificial material at least on its surface. Also disclosed is a kit of parts comprising the oral treatment device (10) and an ACP formulation and a method (100) for remineralizing a tooth using an amorphous calcium phosphate formulation.

An oral appliance for the treatment of sleep disorders, such as obstructive sleep apnea, in a user is presented. The oral appliance may include a mouthpiece configured to receive a user's dentition. The mouthpiece may include an oxygen sensor, a pressure sensor, an airflow sensor, an actigraphy sensor, a noise detector, and at least one stimulator for providing stimulation to a user's tongue in the event of decreased oxygen saturation levels, increased pressure applied to occlusal surfaces of the user's dentition, decreased actual airflow levels and/or increased noise levels. The mouthpiece or a separate portion of the mouthpiece may be provided with an EEG sensor to determine sleep state based on EEG rhythms. The mouthpiece may be provided with pharmaceutical compound reservoirs that deliver pharmaceutical compounds to the oral mucosa of the user, which compounds treat symptoms of sleep apnea. The mouthpiece may further include a microprocessor that receives data from the oxygen sensor, pressure sensor, airflow sensor, actigraphy sensor and noise detector, and activates the at least one stimulator and/or pharmaceutical compound reservoirs.

An electrical discharge irrigation device and method is described. An electrical discharge irrigation device includes a power source, a circuit coupled to the power source, and an output tip coupled to the circuit. The output tip includes a first end and a second end and a longitudinal axis extending between them, an electrode located in an interior space of the output tip configured to receive an electrical charge from the circuit and to release an electric discharge, and a ground return including an inner surface of the output tip, wherein a space between the electrode and the ground return comprises a conductive medium, the conductive medium being in contact with the electrode and the ground return to produce the electric discharge.

The concentration of an administered compound, such as a drug (D), in an organ or a bodily fluid, such as blood, is determined directly through detecting the drug (D) or its metabolites (DM) in sweat. The concentration may be determined indirectly by administering the drug (D) together with one or more tracer compounds (T, T2) or metabolites thereof (TM, T2M) or by detecting concentrations and trends of other analytes present in the body that react to the presence of the drug (D). By determining tracer concentration in sweat, the concentration of the drug (D) in blood or an organ can be determined. The tracer (T, T2) is a compound selected for ease of detection in sweat, known metabolic and solubility profiles that correspond to those of the drug (D), and safety of use. A smart transdermal delivery patch (300) is used to administer a dosage of drug to a wearer in coordination with at least one sweat sensor (324) reading conveying information about the wearer.

An electrical discharge irrigation includes a power source to produce a first voltage, a circuit coupled to the power source to convert the first voltage to a second voltage, a discharge capacitor to receive the second voltage from the circuit, a transistor and/or a controlled rectifier coupled to the discharge capacitor to receive the second voltage, and an output tip. This tip is coupled to a transistor and/or a controlled rectifier and includes a first end, a second end, a longitudinal axis extending between them, an electrode located in an interior space of the tip to receive an electrical charge from the a transistor and/or a controlled rectifier and to release an electric discharge, and a ground return. The ground return is an outside surface of the tip. A space between the electrode and the ground return holds a conductive medium in contact with the electrode and the ground return.

A device for treating human keratin materials that delivers a cosmetic or dermatological composition onto the latter together with the application of an electric current, in particular an electrophoresis device, the composition applied being contained in a cartridge carried by the device, the cartridge having a body that forms a reservoir and a piston through which a drive screw passes and which can move in the body under the effect of the relative rotation of the screw and the piston, the device comprising an electric drive motor for bringing about this relative rotation of the screw and of the piston, and an electronic circuit for controlling the electric motor.

An iontophoretic patch for transdermal delivery of biologically active agents includes at least two electrodes in contact with at least two hydrogel reservoirs. At least one of the hydrogel reservoirs carries at least one active agent and, in use of the iontophoretic patch, is disposed on a user's skin and delivers at least one active agent into the skin. The patch includes a control unit to generate a stimulation pattern having stimulation parameters delivered to stimuli locations on the skin. A stimulation unit generates a time sequence of pulses from the stimulation parameters generated by the control unit. The patch further includes a demultiplexing unit configured to perform independent spatio-temporal distribution of the electrical pulses in the time sequence of pulses to at least one electrode; at least one optical sensing system, for continuously measuring an amount of the active agent in the hydrogel reservoir; and a feedback unit.

A device for treating human keratin materials, in particular with the aid of an electric current. The device includes a reservoir containing an in particular cosmetic or dermatological composition to be applied to the keratin materials, a unit for dispensing the composition contained in the reservoir, in particular a pump, and an end fitting for applying the composition contained in the reservoir, comprising at least one applying member and in particular a plurality of applying members. The applying member is supplied with the composition from the reservoir by the dispensing unit, the composition passing through an intermediate chamber for storing the composition located in the end fitting, the intermediate chamber being at least partially defined by an elastically deformable wall.

The present disclosure provides for systems and methods including pre-moistened dressings with a treatment composition, wherein the dressings can include a water proof occlusive material on one side and an absorbing material for the treatment composition, thereby enabling direct contact transfer of the treatment composition to the skin surface. The treatment composition can include 2-70% wt/vol of a magnesium complex in water. The dressings can be replaced every one to three days for a total treatment time of one to 36 days or more. The treatment systems can be used to treat psoriasis and chronic inflammation, among others.

An assembly for use in a TTField-generating system is disclosed that includes at least one electrode in combination with a polymerized conductive hydrogel and a liquid conductive hydrogel disposed on at least a portion of the polymerized hydrogel. Also disclosed are transducer arrays including the assemblies, as well as kits and methods of producing and using the assemblies, arrays, and systems.