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Full-course NIR-II imaging-navigated fractionated photodynamic therapy of bladder tumours with X-ray-activated nanotransducers

Liangrui He, Liyang Wang, Xujiang Yu, Yizhang Tang, Zhao Jiang, Guoliang Yang, Zhuang Liu, Wanwan Li

2024Nature Communications39 citationsDOIOpen Access PDF

Abstract

The poor 5-year survival rate for bladder cancers is associated with the lack of efficient diagnostic and treatment techniques. Despite cystoscopy-assisted photomedicine and external radiation being promising modalities to supplement or replace surgery, they remain invasive or fail to provide real-time navigation. Here, we report non-invasive fractionated photodynamic therapy of bladder cancer with full-course real-time near-infrared-II imaging based on engineered X-ray-activated nanotransducers that contain lanthanide-doped nanoscintillators with concurrent emissions in visible and the second near-infrared regions and conjugated photosensitizers. Following intravesical instillation in mice with carcinogen-induced autochthonous bladder tumours, tumour-homing peptide-labelled nanotransducers realize enhanced tumour regression, robust recurrence inhibition, improved survival rates, and restored immune homeostasis under X-ray irradiation with accompanied near-infrared-II imaging. On-demand fractionated photodynamic therapy with customized doses is further achieved based on quantifiable near-infrared-II imaging signal-to-background ratios. Our study presents a promising non-invasive strategy to confront the current bladder cancer dilemma from diagnosis to treatment and prognosis. The poor survival rate for bladder cancers is associated with the lack of effective non-invasive theranostic techniques. Here this group reports a lanthanide-doped nanotransducer activated for real-time NIR-II imaging thereby navigates the photodynamic treatment of bladder cancer.

Topics & Concepts

Photodynamic therapyMedicineMedical physicsRadiologyNuclear medicineChemistryOrganic chemistryNanoplatforms for cancer theranosticsPhotodynamic Therapy Research StudiesBladder and Urothelial Cancer Treatments