A method for creating a consolidated compound for delivering an immunomodulatory and imiquimod to a patient, comprising diluting immunomodulator extract to a desired dilution by transferring a desired quantity of the concentrated immunomodulator to an associated sterile container, the associated sterile container having a defined volume of diluted immunomodulator after dilution thereof, providing a viscous encapsulation material, selecting a prescribed amount of concentrated immunomodulator, the prescribed amount defined as that amount of the diluted immunomodulator extract required to provide a number of doses equal to the number of dispensable increments from the container containing the viscous encapsulation material, introducing the selected amount of each of the diluted immunomodulator extract into the viscous encapsulation material, introducing an amount of imiquimod into the viscous encapsulation material, and mixing the introduced amount of each of the diluted immunomodulator extracts and the introduced amount of imiquimod with the viscous encapsulating material.

This invention relates to a wound dressing, particularly to a stimuli responsive wound dressing comprising a lyophilized hyaluronic acid (HA) hydrogel, and a plurality of devices embedded within said lyophilized hyaluronic acid hydrogel. Each of the plurality of devices including chitosan and hypromellose and may be formed as biofilms and/or electrospun fiber mats.

The present invention relates to a transdermal patch comprising oxymorphone. The present invention also relates to processes for the preparation of the transdermal patches defined herein, as well as to the use of these patches for the treatment of pain.

A microcup delivery panel that can be used for pharmaceutical applications, for example, as a transdermal delivery device. Such a delivery device may be used for local or systemic drug delivery. The pharmaceutical composition filled in the microcups may comprise an active ingredient which may be a medicinal or a cosmetic agent. The medicinal agent may include substances intended for use in the diagnosis, cure, mitigation, treatment or prevention of diseases, or to affect the structure or function of the body.

In general, the invention provides kits, devices, and methods for determining the ineffectiveness of an anesthetic, (e.g., lidocaine), using a topical approach that avoids injection. The methods typically employ the placement of aliquots of two different formulations, at least one including an anesthetic, in different locations on a subject. Further embodiments may employ a single formulation including the anesthetic.

A transdermal delivery system for systemic delivery of donepezil is described, where the system comprises an adhesive matrix drug reservoir layer comprised of a copolymer of acrylic acid/vinyl acetate, triethyl citrate, and donepezil base generated in situ by reaction of donepezil HCl and an alkaline salt. The system is provided for treatment of Alzheimer's disease, and achieves transdermal delivery of the therapeutic agent at steady state that is bioequivalent to administration of the therapeutic agent orally.

A transdermal drug-containing dosage unit comprises: a backing layer substantially impervious to the drug to be delivered transdermally; a first polymeric adhesive matrix, in contact with the backing layer, having dispersed therein the drug and having a first delivery profile of the drug; a second polymeric adhesive matrix, in contact with said first polymeric adhesive matrix, having dispersed therein the drug and having a second delivery profile of the drug, wherein said second delivery profile is different from said first delivery profile; and a release liner in contact with the second polymeric adhesive matrix.

The first polymeric adhesive matrix can release the drug more quickly or more slowly than the second polymeric adhesive matrix. Through the selection of the two matrices, the delivery profile of the drug through the skin can be selectively modified and controlled.

In one aspect, the present invention is directed to a pad (10) comprising: a spongy layer (26), providing an activity; and a gluey and perforated layer (24), glued to the spongy layer (26), thereby allowing the spongy layer (26) to be in contact with a user's skin through the perforations of the gluey-perforated layer (24); wherein the area of said perforations in said gluey and perforated layer (24) is greater than the non-perforated area thereof; thereby providing a skin-attachable pad that provides the activity.

A transdermal drug delivery patch includes a flexible base layer, and a plurality of microneedles disposed at one surface of the base layer and including a biodegradable polymer and a drug. Each of a plurality of microneedles is formed as a star-shaped pyramid including a plurality of protrusions extending in a radial direction, and a concave shape is formed between two protrusions adjacent along a circumferential direction among a plurality of protrusions.

The invention relates to a method of treating pain in a patient by applying a transdermal therapeutic system for the transdermal administration of buprenorphine for 7 days on the skin of a patient, said transdermal therapeutic system comprising a buprenorphine-containing self-adhesive layer structure comprising A) a buprenorphine-impermeable backing layer, and B) a buprenorphine-containing matrix layer on said buprenorphine-impermeable backing layer, the matrix layer comprising a) a polymer base, b) buprenorphine, and c) a carboxylic acid selected from the group consisting of oleic acid, linoleic acid, linolenic acid, levulinic acid and mixtures thereof, in an amount sufficient so that said buprenorphine is solubilized therein to form a mixture, and the carboxylic acid buprenorphine mixture forms dispersed deposits in the polymer base, and C) a skin contact layer on said buprenorphine-containing matrix layer comprising a polymer-based pressure-sensitive adhesive, and optionally wherein the buprenorphine-containing self-adhesive layer structure contains said buprenorphine in an amount of less than 0.8 mg/cm2 buprenorphine base or an equimolar amount of a pharmaceutically acceptable salt thereof.