Abstract: Methods are provided for stimulating angiogenesis in a human or animal in need thereof. Also provided are compositions comprising an angiogenic factor in a pharmaceutically acceptable carrier. In one embodiment, the method comprises administering to the human or other animal a therapeutically effective amount of an angiogenic factor, such as a pleiotrophin or midkine protein, in a pharmaceutically acceptable carrier. The carrier in one embodiment comprises a controlled release matrix, such as a polymer, that permits controlled release of the angiogenic factor. The polymer may be biodegradable and/or bioerodible and preferably biocompatible. Polymers which may be used for controlled release include, for example, poly(esters), poly(anhydrides), and poly(amino acids). Exemplary polymers include silk elastin poly(amino acid) block copolymers and poly-lactide-co-glycolide. In a further embodiment, the angiogenic factor may be provided in a carrier comprising a liposome, such as a heterovesicular liposome.

Abstract: Methods are provided for stimulating angiogenesis in a human or animal in need thereof. Also provided are compositions comprising an angiogenic factor in a pharmaceutically acceptable carrier. In one embodiment, the method comprises administering to the human or other animal a therapeutically effective amount of an angiogenic factor, such as a pleiotrophin or midkine protein, in a pharmaceutically acceptable carrier. The carrier in one embodiment comprises a controlled release matrix, such as a polymer, that permits controlled release of the angiogenic factor. The polymer may be biodegradable and/or bioerodible and preferably biocompatible. Polymers which may be used for controlled release include, for example, poly(esters), poly(anhydrides), and poly(amino acids). Exemplary polymers include silk elastin poly(amino acid) block copolymers and poly-lactide-co-glycolide. In a further embodiment, the angiogenic factor may be provided in a carrier comprising a liposome, such as a heterovesicular liposome.

Abstract: A transdermal delivery device has a reservoir containing an active compound, which is kept separate from the delivery layers of the device until administration. At the time of administration, the reservoir is laminated to the delivery layers, or is ruptured to place the active compound, vehicle, and/or permeation enhancers in contact with the delivery layers, which results in administration of the active compound to the skin after a delay period.

Abstract: A delayed onset transdermal drug delivery device exhibiting a delay period of at least six hours comprising a laminated composite of (1) a top backing layer; (2) a pressure rupturable layer underlying (1); (3) a reservoir of a solution of drug in a liquid vehicle between (1) and (2); (4) a wick layer underlying (2) for dispersing the drug once (2) is ruptured; (5) a first adhesive layer underlying (4) that is permeable to the drug; (6) a microporous membrane underlying (5) which is itself impermeable to the drug and whose pores are substantially unfilled prior to application of the device to the skin; and (7) a second adhesive layer underlying (6) that is permeable to the drug but is immiscible in the polymer filling the pores of (6).

Abstract: Transdermal administration of dexmedetomidine, the dextrorotatory isomer of medetomidine, is described. The method involves sedating a patient by administering dexmedetomidine to a predetermined area of skin at an administration rate and for a time period effective to achieve the desired level of sedation. A therapeutic system for transdermally administering the drug is also provided. The therapeutic system is in the form of a skin patch which is a laminated composite of a backing layer, an optional anchor adhesive layer, a contact adhesive layer, and one or more additional layers.

Abstract: Transdermal administration of dexmedetomidine, the dextrorotatory isomer of medetomidine, is described. The method involves sedating a patient by administering dexmedetomidine to a predetermined area of skin at an administration rate and for a time period effective to achieve the desired level of sedation. A therapeutic system for transdermally administering the drug is also provided. The therapeutic system is in the form of a skin patch which is a laminated composite of a backing layer, an optional anchor adhesive layer, a contact adhesive layer, and one or more additional layers.