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Imatinib (IM) efficacy as a cancer drug is limited by pharmacokinetic drug resistance developed during systemic circulation before reaching the target site.Hydrogels have attracted attention because of their characteristic physiochemical and biochemical properties, flexibility, and the ability to release drugs directly at target sites causing cancer mitigation. The current study aims at developing Aloe Vera (AV) hydrogels for the efficient and targeted delivery of IM into cancer cells and studying its synergistic effect. Incorporating Aloe Vera into the previously studied Sodium Alginate (SA)/PolyVinyl Alcohol (PVA) hydrogels and loading with IM is expected to reach a pH-responsive release efficiency, enhanced biochemical properties and increased cancer cell cytotoxicity. The hydrogels, SA/PVA and SA/PVA/AV were characterized (FT-IR, SEM) and investigated for their physiochemical properties. The presence of AV and IM were confirmed by the increase in the intensity of band from 3000 to 3500 cm-1, while an increase in the pore size was observed upon the loading of IM. The final formulation, SA/PVA/AV hydrogels displayed increased pore size which leveraged their swelling, degradation, encapsulation, and release properties by 400%, 100%, 56%, and 94%, respectively. The in vitro analysis on breast cancer cells showed that the SA/PVA/AV hydrogels loaded with IM worked synergistically to significantly reduce the cancer cell viability to 40%, surpassing the efficacy of the SA/PVA/AV hydrogel and IM treatments alone. This study highlights the promising potential for the use of AV in the development of a drug delivery system (DDS) for targeting and improving therapeutic outcomes in cancer treatment.