Litcius/Paper detail

Stretch-responsive adhesive microcapsules for strain-regulated antibiotic release from fabric wound dressings

Yun Kee Jo, Su‐Jin Heo, Ana P. Peredo, Robert L. Mauck, George R. Dodge, Daeyeon Lee

2021Biomaterials Science40 citationsDOIOpen Access PDF

Abstract

Bacterial infection of a wound is a major complication that can significantly delay proper healing and even necessitate surgical debridement. Conventional non-woven fabric dressings, including gauzes, bandages and cotton wools, often fail in treating wound infections in a timely manner due to their passive release mechanism of antibiotics. Here, we propose adhesive mechanically-activated microcapsules (MAMCs) capable of strongly adhering to a fibrous matrix to achieve a self-regulated release of antibiotics upon uniaxial stretching of non-woven fabric dressings. To achieve this, a uniform population of polydopamine (PDA)-coated MAMCs (PDA-MAMCs) are prepared using a microfluidics technique and subsequent oxidative dopamine polymerization. The PDA-MAMC allows for robust mechano-activation within the fibrous network through high retention and effective transmission of mechanical force under stretching. By validating the potential of a PDA-MAMCs-laden gauze to release antibiotics in a tensile strain-dependent manner, we demonstrate that PDA-MAMCs can be successfully incorporated into a woven material and create a smart wound dressing for control of bacterial infections. This new mechano-activatable delivery approach will open up a new avenue for a stretch-triggered, on-demand release of therapeutic cargos in skin-mountable or wearable biomedical devices.

Topics & Concepts

AdhesiveChemistryAntibioticsStrain (injury)Wound healingWound dressingMicrobiologyBiophysicsBiomedical engineeringComposite materialMaterials scienceSurgeryBiochemistryAnatomyMedicineBiologyLayer (electronics)Organic chemistryPolymer Surface Interaction StudiesAntimicrobial agents and applicationsElectrospun Nanofibers in Biomedical Applications