- Bagherifard, Sara;
- Tamayol, Ali;
- Mostafalu, Pooria;
- Akbari, Mohsen;
- Comotto, Mattia;
- Annabi, Nasim;
- Ghaderi, Masoumeh;
- Sonkusale, Sameer;
- Dokmeci, Mehmet R;
- Khademhosseini, Ali
Topical administration of drugs and growth factors in a controlled fashion can improve the healing process during skin disorders and chronic wounds. To achieve this goal, a dermal patch is engineered that utilizes thermoresponsive drug microcarriers encapsulated within a hydrogel layer attached to a flexible heater with integrated electronic heater control circuitry. The engineered patch conformally covers the wound area and enables controlled drug delivery by electronically adjusting the temperature of the hydrogel layer. The drugs are encapsulated inside microparticles in order to control their release rates. These monodisperse thermoresponsive microparticles containing active molecules are fabricated using a microfluidic device. The system is used to release two different active molecules with molecular weights similar to drugs and growth factors and their release profiles are characterized. This platform is a key step towards engineering smart and closed loop systems for topical applications.