Development of a Silicone-Based Polymer Matrix as a Suitable Transdermal Therapeutic System for Diallyl Disulfide

Abstract: There is an unmet need for novel therapeutic tools relieving chronic pain. Hydrogen sulfide (H2S) is highly involved in pain processes; however, the development of ideal matrices for sulfide donor compounds remains a great pharmaceutical challenge. We aimed to establish a suitable transdermal therapeutic system (TTS) using the H2S donor diallyl disulfide (DADS) as a model compound. After the preparation of DADS, its solubility was investigated in different liquid excipients (propylene glycol, polyethylene glyc… Show more

“…The studies described until now focus relatively little on the assessment of the effect of liquid additives on patch adhesive properties. However, it is important to understand that, in addition to biopharmaceutical properties (drug release and absorption) [8,9], mechanical properties of the patch, including adhesion, are equally important. Appropriate manipulation of both the type of liquid additive and its concentration is therefore a priority in order to find formulations with optimal properties.…”

The Impact of Liquid Components on Alteration of the Adhesion of Polyacrylate and Silicone Patches

“…The studies described until now focus relatively little on the assessment of the effect of liquid additives on patch adhesive properties. However, it is important to understand that, in addition to biopharmaceutical properties (drug release and absorption) [8,9], mechanical properties of the patch, including adhesion, are equally important. Appropriate manipulation of both the type of liquid additive and its concentration is therefore a priority in order to find formulations with optimal properties.…”

The Impact of Liquid Components on Alteration of the Adhesion of Polyacrylate and Silicone Patches