A pan-cancer dye for solid-tumour screening, resection and wound monitoring via short-wave and near-infrared fluorescence imaging.
Benedict Edward Mc LarneyAli Yasin SonayElana ApfelbaumNermin MostafaSebastien MonetteDana GoerzenNicole AguirreRüdiger Maria ExnerChristine HabjanElizabeth IsaacNgan Bao PhungMagdalena SkubalMijin KimAnuja OgiralaDarren R VeachDaniel A HellerJan GrimmPublished in: Nature biomedical engineering (2024)
The efficacy of fluorescence-guided surgery in facilitating the real-time delineation of tumours depends on the optical contrast of tumour tissue over healthy tissue. Here we show that CJ215-a commercially available, renally cleared carbocyanine dye sensitive to apoptosis, and with an absorption and emission spectra suitable for near-infrared fluorescence imaging (wavelengths of 650-900 nm) and shortwave infrared (SWIR) fluorescence imaging (900-1,700 nm)-can facilitate fluorescence-guided tumour screening, tumour resection and the assessment of wound healing. In tumour models of either murine or human-derived breast, prostate and colon cancers and of fibrosarcoma, and in a model of intraperitoneal carcinomatosis, imaging of CJ215 with ambient light allowed for the delineation of nearly all tumours within 24 h after intravenous injection of the dye, which was minimally taken up by healthy organs. At later timepoints, CJ215 provided tumour-to-muscle contrast ratios up to 100 and tumour-to-liver contrast ratios up to 18. SWIR fluorescence imaging with the dye also allowed for quantifiable non-contact wound monitoring through commercial bandages. CJ215 may be compatible with existing and emerging clinical solutions.
Keyphrases
- fluorescence imaging
- photodynamic therapy
- wound healing
- magnetic resonance
- prostate cancer
- endothelial cells
- minimally invasive
- highly efficient
- oxidative stress
- air pollution
- skeletal muscle
- computed tomography
- high dose
- cell proliferation
- surgical site infection
- endoplasmic reticulum stress
- young adults
- contrast enhanced
- cell cycle arrest
- high speed
- visible light
- induced pluripotent stem cells