A multifunctional microstructure patch is provided. The multifunctional microstructure patch, according to one embodiment of the present invention, comprises: a base layer having an opening part formed in the center thereof; a plurality of microstructures formed on one surface of the base layer and comprising a first drug; and a cover layer detachably bonded on the other surface of the base layer along the periphery of the opening part, and formed so as to cover the opening part.

Transdermal patch having at least one pharmaceutically active ingredient and a tamper-evidencing element, as well as methods of making and using the same.

The invention provides a skin adhesive patch that inhibits skin irritation by releasing an anti-inflammatory agent such as a corticosteroid topically on the skin surface. Embodiments of the invention can be adapted for use with a wide variety of adhesive patches that are used to couple medical components to the skin of patients such as the devices that diabetic patients use including insulin infusion sets, patch pumps, and all-in-one patch sets.

A method of selecting a skin barrier system suitable for infants and young children is disclosed.

The present invention relates to a method for producing a drug delivery system. The method comprises the steps of screen-printing a base paste, and curing the base paste. Furthermore, the method comprises the steps of screen-printing a first paste separate to the base paste, and curing the first paste.

The present invention relates to a method for producing a drug delivery system. The method comprises the steps of screen-printing a base paste, and curing the base paste. Furthermore, the method comprises the steps of screen-printing a first paste separate to the base paste, and curing the first paste.

The present invention relates to large scale manufacture of nanoscale microsheets for use in applications such as wound healing or modification of a biological or medical surface. In some embodiments, the present invention provides devices for application to a wound comprising: a first polymer layer comprising a first bioactive agent; a second polymer layer comprising a second bioactive agent; and a third polymer layer positioned in between the first and second polymer layer so that the three polymer layers are stacked in a sandwich-type structure.

The present invention relates to a method for producing a drug delivery system. The method comprises the steps of screen-printing a base paste, and curing the base paste. Furthermore, the method comprises the steps of screen-printing a first paste separate to the base paste, and curing the first paste.

The present invention relates to a method for producing a drug delivery system. The method comprises the steps of screen-printing a base paste, and curing the base paste. Furthermore, the method comprises the steps of screen-printing a first paste separate to the base paste, and curing the first paste.

The present invention relates to a drug delivery system, in particular for a controlled administration of one or more active pharmaceutical ingredients to a body, and further in particular for oral administration of one or more active pharmaceutical ingredients to a body. The system thereby comprises a base component soluble in body fluids and a separate first component soluble in body fluids. The first component thereby comprises a therapeutically effective amount of a first active pharmaceutical ingredient.