The present invention is directed to transdermal therapeutic systems that are free of fibrous constituents, as well methods for producing such transdermal therapeutic systems. A preparation containing active substance is applied by a printing method onto the pressure-sensitive adhesive layer of the transdermal therapeutic system. Exemplary printing methods include application methods based upon a distributor plate of an application device.

A silicone urethane urea copolymer and methods for preparation and use of the copolymer are disclosed. The copolymer is crosslinkable. The copolymer is useful in various applications, including personal care compositions, such as hair care compositions and skin care compositions and in health care compositions such as skin contact adhesive compositions and transdermal drug delivery systems.

Nanoparticles including tacrolimus, and a method for providing nanoparticles including tacrolimus as well as to nanoparticles including tacrolimus that are obtainable by said method. Also relates to the nanoparticles including tacrolimus for use as a medicament. Further relates to a mucoadhesive buccal film containing the nanoparticles including tacrolimus and the mucoadhesive buccal film for use as a medicament, especially in pediatric patients.

The invention relates to a pharmaceutical patch comprising a Lidocaine constituent and a Diclofenac constituent, wherein the relative weight content ratio of the Lidocaine constituent to the Diclofenac constituent is within the range of from about 7:1 to about 4:1, based on the equivalent weight of the non-salt form of Lidocaine and of Diclofenac, for use in the local treatment or prevention of pain. The pharmaceutical composition is suitable for topical administration and local pharmacological action via delivery of Lidocaine and Diclofenac into the skin and possibly also through and to other deeper tissues such as the synovial fluid without significant systemic exposure.

A method for treating an inflammatory or vascular condition by transdermally regulating inflammation in a target area of the body having an inflammatory or vascular condition by topically applying to the skin of the target area a therapeutically effective amount of at least one anti-VEGF containing compound. A device, which may be comprises a transdermal patch, a bandage, a paint, an atomized spray, for treating an inflammatory or vascular condition is also disclosed. The device is configured to transdermally apply to the skin of the target area a therapeutically effective amount of at least one anti-VEGF containing compound that regulates inflammation in the target area.

A method for producing a patch comprising a support layer and an adhesive agent layer comprises: a mixture preparation step of mixing asenapine or a pharmaceutically acceptable salt thereof with sodium acetate whose particle diameter D.sub.50 at a cumulative volume of 50% in a particle diameter distribution is 40 to 1000 m, in such a manner that the sodium acetate and sodium diacetate generated from the sodium acetate have a particle diameter D.sub.50 of 10 m or smaller, thereby obtaining a mixture containing the sodium diacetate and the asenapine or pharmaceutically acceptable salt; and an adhesive-agent-layer formation step of forming the adhesive agent layer comprising the sodium diacetate, the asenapine or pharmaceutically acceptable salt, and a pressure-sensitive adhesive base agent, by using an adhesive agent layer composition obtained by mixing the mixture with the pressure-sensitive adhesive base agent.

This invention discloses a pharmaceutical formula for arthritis treatment and/or prevention. The formula contains the following raw materials: a selenium-containing inorganic compound and a zinc-containing inorganic compound. The pharmaceutical formula described herein could be manufactured for topic application and provide a faster and safer treatment for various inflammatory joint pains. Pharmacodynamics results show that the invented pharmaceutical formula can significantly reduce the level of inflammatory cytokines in the joint synovial fluid in arthritis rabbit model, and the formulated ointment can achieve better efficacy compared with Voltaren (diclofenac) ointment; therefore the proposed formula has promising clinical application.

An adhesive patch is described that contains an improved release liner for the treatment of various skin conditions.

A method for suppressing a plasma concentration of an asenapine metabolite includes applying to a subject a patch comprising a support layer and an adhesive agent layer, the adhesive agent layer includes asenapine and/or a pharmaceutically acceptable salt thereof, and an adhesive base agent.

Methods and apparatus for a free-standing biodegradable patch suitable for medical applications, especially intravascular, minimally-invasive and intraoperative surgical applications are provided, wherein the patch comprises a free-standing film or device having a mixture of a solid fibrinogen component and a solid thrombin component that, when exposed to an aqueous environment, undergoes polymerization to form fibrin. In alternative embodiments the patch may comprise a solid fibrinogen component, with or without an inorganic calcium salt component. The patch may take a non-adherent form during delivery to a target location within a vessel or tissue, and thereafter may be activated to adhere to vessel wall or tissue, and may include a number of additives, including materials to improve the mechanical properties of the patch, or one or more therapeutic or contrast agents.