The present invention relates to transdermal therapeutic systems (TTS) for the transdermal administration of fingolimod.

The invention relates to a transdermal therapeutic system (TTS) for the administration of the active ingredient rotigotine comprising a matrix layer containing rotigotine, one or more non-amine-resistant silicone adhesives in an amount of more than 50% by weight, based on the total weight of the pressure sensitive adhesive of the matrix layer, and paraffin, as well as methods for the preparation thereof. The transdermal therapeutic system according to the invention is particularly suitable for the treatment of the Parkinson disease.

The invention provides compositions, methods and kits for the removal of harmful or irritating substances from bodily surfaces. Kits may include a composition containing capsaicin and a capsaicin-cleansing composition, e.g., a composition in which capsaicin is soluble.

Provided herein are ketamine gel formulations, transdermal delivery devices comprising ketamine, methods of preparation and methods of using thereof. The transdermal delivery device can be a drug-in-reservoir (DIR) patch comprising ketamine, which typically includes a backing layer, a reservoir layer comprising a ketamine gel formulation, a rate-controlling membrane, an adhesive layer, and a release liner. The ketamine gel formulation generally includes one or more skin permeation enhancers. The transdermal delivery devices can be configured, for example, by adjusting the ketamine gel formulation and other release control mechanism, to provide certain skin flux characteristics, and can be used for treating a variety of indications such as depression and/or pain.

A transdermal patch is provided, wherein the patch comprises a cross-linked poly(ethylene oxide) hydrogel loaded with naltrexone, or a pharmaceutically acceptable salt or solvate thereof, and an occlusive adhesive tape. The poly(ethylene oxide) hydrogel has a crosslink density of at least 4.5×10.sup.−4 mol cm.sup.−3 and not more than 16×10.sup.−4 mol cm.sup.−3. Also provided are methods for preparing naltrexone-loaded cross-linked poly(ethylene oxide) hydrogels, transdermal patches for use as a medicament, for example in the treatment of a specified condition with LDN therapy.

A portable transdermal administration patch apparatus comprises a communication control device and a pharmaceutical device which is fixed to and arranged at a lower end of the communication control device and electrically connected to the communication control device. The communication control device is formed of a micro-battery, a wireless control device and a micro-controller which are electrically connected. The preparation of the patch apparatus is achieved by: the preparation of medicinal patches and non-medicinal patches, the mounting of electrodes, interfacing with a micro-controller, and the communication control system, and starting administration. The transdermal apparatus is wearable and can be remotely controlled, and is convenient for administration, in particular, for the situations of daily administration for elderly patients with chronic illness and when there are a larger number of admitted inpatients, where a nurse can pre-set the administration time and dose, thus saving time and efforts of medical staff.

A kit for enabling delivery of an active compound to the skin for penetration into the skin, a delivery device for delivering an active compound, and a method of delivery of an active compound are provided. An active compound delivery kit for enabling delivery of an active compound into the skin of a subject includes an arrangement for providing a pathway into a biological barrier of a subject in an application zone, an active compound provided in dry form, and a delivery device for delivery of dissolved active compound to the application zone. Provision of a pathway into the biological barrier, preferably skin, is provided and the active compound applied in optimum form within a short time frame after forming the pathway ensuring treatment of the desired skin cells is optimised.

A patch preparation which can produce the effect for preventing any problems due to the misuse of the patch preparation, includes a support and a plaster wherein the plaster includes a) an aliphatic compound with hydrophilic group which is in solid state at room temperature, b) a non-aqueous adhesive, and c) a solvent with a vapor pressure of 1 kPa or more at 20° C.

The present invention relates to a pad printing method for producing an administration form for a pharmaceutical active agent, wherein the method comprises providing a substrate of the administration form and transferring the active agent by means of a pad from a cliché onto the substrate, wherein the area of the cliché is larger than the active-agent-containing area printed onto the substrate. This method is especially suitable for producing transdermal therapeutic systems with volatile active agents. The present invention also relates to arrangements by means of which a method of this kind can be implemented.

The present disclosure, for example, can include a laminated type patch A, comprising a release layer 1, a drug layer 2, a drug support layer 3 having elasticity, an adhesive layer 4, and an adhesive support layer 5 laminated in this order, wherein the outer edges of the release layer, the adhesive layer, and the adhesive support layer are all outside the outer edges of both the drug layer and the drug support layer; wherein the portion surrounded by the outer edges of the drug layer and the drug support layer, and the inner sides of the release layer and the adhesive layer has a space; and wherein the cross-sectional area of the space is 0.3 mm2 or more, at least when cut along the longitudinal centerline and the transverse centerline on the plane surfaces of the drug layer and the drug support layer.