AI Article Synopsis

  • Scientists made special tiny particles called nanoparticles that can find and treat rectal cancer better than older methods.
  • These nanoparticles can change their charge when a specific laser light hits them, helping them go deeper into the tumors.
  • When tested, they successfully destroyed tumors while also showing great images of them, which helps doctors see how well the treatment is working.

Article Abstract

Although charge-converting nanoparticles (NPs) potentially penetrate tumours deeply, conventional charge conversion strategies possess limitations, including low selectivity and slow, inconsistent conversion rate within the tumour microenvironment. In this study, we synthesized a zwitterionic near-infrared cyclodextrin derivative of heptamethine cyanine and complexed it with pheophorbide-conjugated ferrocene to produce multifunctional theranostic nanotherapeutics. Our NPs demonstrated enhanced tumour-targeting ability, enabling the highly specific imaging of rectal tumours, with tumour-to-rectum signal ratios reaching up to 7.8. The zwitterionic surface charge of the NPs was rapidly converted to a cationic charge within the tumours on 880 nm near-infrared laser irradiation, promoting the tumoural penetration of NPs via transcytosis. After penetration, photodynamic/chemodynamic therapy was initiated using a 660 nm laser. Our NPs eradicated clinically relevant-sized heterotopic tumours (~250 mm) and orthotopic rectal tumours, displaying their potential as theranostic nanoplatforms for targeting rectal cancer.

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Source
http://dx.doi.org/10.1038/s41565-024-01757-4DOI Listing

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