Controlled release of low-molecular weight, polymer-free corticosteroid coatings suppresses fibrotic encapsulation of implanted medical devices.

Inflammation-driven foreign body reactions, and the frequently associated encapsulation by fibrogenic fibroblasts, reduce the functionality and longevity of implanted medical devices and materials. Anti-inflammatory drugs, such as dexamethasone, can suppress the foreign body reaction for a few days post-surgery, but lasting drug delivery strategies for long-term implanted materials remain an unmet need. We here establish a thin-coating strategy with novel low molecular weight corticosteroid dimers to suppress foreign body reactions and fibrotic encapsulation of subcutaneous silicone implants.

Polymer-free corticosteroid dimer implants for controlled and sustained drug delivery.

Polymeric drug carriers are widely used for providing temporal and/or spatial control of drug delivery, with corticosteroids being one class of drugs that have benefitted from their use for the treatment of inflammatory-mediated conditions. However, these polymer-based systems often have limited drug-loading capacity, suboptimal release kinetics, and/or promote adverse inflammatory responses. This manuscript investigates and describes a strategy for achieving controlled delivery of corticosteroids, based on a discovery that low molecular weight corticosteroid dimers can be processed into drug delivery implant materials using a broad range of established fabrication methods, without the use of polymers or excipients.