Localized Cancer Treatment Using Thiol–Ene Hydrogels for Dual Drug Delivery
Lakshmi Sathi Devi, Maria Rosa Gigliobianco, Serena Gabrielli, Dimitrios Agas, Maria Giovanna Sabbieti, Maria Beatrice Morelli, Consuelo Amantini, Cristina Casadidio, Piera Di Martino, Roberta Censi
Abstract
Combinatorial cancer therapy benefits from injectable hydrogels for localized, controlled drug delivery. This study presents a thiol-ene conjugated hydrogel formed by cross-linking thiol-modified hyaluronic acid (HASH) with vinyl sulfone-modified β-cyclodextrin (CDVS). Four formulations (23Gel-16, 23Gel-33, 99Gel-16, 99Gel-33) were synthesized by varying HASH molecular weight (23 or 99 kDa) and CDVS modification (16% or 33%). Rheological analysis confirmed enhanced viscoelasticity with increasing molecular weight and modification (99Gel-33 > 99Gel-16 > 23Gel-33 > 23Gel-16). The system enabled combinatorial delivery of doxorubicin (DOX) and carvacrol (CRV), exhibiting tumor-responsive degradation and tunable release. DOX release accelerated under tumor-mimicking conditions (100% in 46 h vs 58.7% in PBS), while CRV showed an initial burst followed by sustained release. The hydrogel promoted mesenchymal stem cell proliferation and effectively inhibited triple-negative breast cancer cells. This injectable, tumor-responsive hydrogel system offers a promising platform for minimally invasive, personalized cancer therapy.