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Stimuli‐Responsive Supramolecular Biomaterials for Cancer Theranostics

Wenting Hu, Binglin Ye, Guocan Yu, Feihe Huang, Zhengwei Mao

2026Advanced Science6 citationsDOIOpen Access PDF

Abstract

The ultimate goal of cancer theranostics is to deliver imaging agents and therapeutic cargo to tumor sites when and where they are required. "Smart" systems─including targeted and tailored releases with excellent spatial, temporal, and dosage control─should be developed. Supramolecular interactions with dynamic, reversible, and directional features enable the design of biomaterials with ordered architectures, tailored morphologies, multiple types of cargo, and controllable functions. Such supramolecular biomaterials are good candidates for oncology applications, as they optimize therapeutic efficacy while minimizing systemic adverse effects. This review summarizes recent advances in intelligent supramolecular biomaterials, with a specific focus on their spatiotemporal control in cancer theranostics. These biomaterials exploit endogenous and exogenous stimuli to trigger their morphological transformation. In particular, their construction approach and working mechanism, which are crucial in guiding tumor theranostics, are elaborated. Furthermore, the significant challenges in clinical translation and future perspectives for such biomaterials are discussed.

Topics & Concepts

NanotechnologySupramolecular chemistryCancerCancer treatmentCancer imagingCancer therapyMedicineDesign elements and principlesComputer scienceMaterials scienceTranslation (biology)Cancer researchExploitNanoplatforms for cancer theranosticsSupramolecular Self-Assembly in MaterialsSupramolecular Chemistry and Complexes
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