A Unique Approach to Development of Near-Infrared Fluorescent Sensors for in Vivo Imaging

Yuan, Lin; Lin, Weiying; Zhao, Sheng; Gao, Wensha; Chen, Bin; He, Longwei; Zhu, Sasa

doi:10.1021/ja305802v

Cited by 589 publications

(437 citation statements)

References 105 publications

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“…139 Novel sensors could respond to endogenous thiols or H 2 O 2 via a turn-on effect, showing the capability of selective NIRF imaging. 140 Huang et al reported a new …”

Section: Target-activatable Nirf Npsmentioning

confidence: 99%

Near-infrared fluorescent probes in cancer imaging and therapy: an emerging field

Yi¹,

Wang²,

Qin³

et al. 2014

IJN

211

149

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Near-infrared fluorescence (NIRF) imaging is an attractive modality for early cancer detection with high sensitivity and multi-detection capability. Due to convenient modification by conjugating with moieties of interests, NIRF probes are ideal candidates for cancer targeted imaging. Additionally, the combinatory application of NIRF imaging and other imaging modalities that can delineate anatomical structures extends fluorometric determination of biomedical information. Moreover, nanoparticles loaded with NIRF dyes and anticancer agents contribute to the synergistic management of cancer, which integrates the advantage of imaging and therapeutic functions to achieve the ultimate goal of simultaneous diagnosis and treatment. Appropriate probe design with targeting moieties can retain the original properties of NIRF and pharmacokinetics. In recent years, great efforts have been made to develop new NIRF probes with better photostability and strong fluorescence emission, leading to the discovery of numerous novel NIRF probes with fine photophysical properties. Some of these probes exhibit tumoricidal activities upon light radiation, which holds great promise in photothermal therapy, photodynamic therapy, and photoimmunotherapy. This review aims to provide a timely and concise update on emerging NIRF dyes and multifunctional agents. Their potential uses as agents for cancer specific imaging, lymph node mapping, and therapeutics are included. Recent advances of NIRF dyes in clinical use are also summarized.

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“…139 Novel sensors could respond to endogenous thiols or H 2 O 2 via a turn-on effect, showing the capability of selective NIRF imaging. 140 Huang et al reported a new …”

Section: Target-activatable Nirf Npsmentioning

confidence: 99%

Near-infrared fluorescent probes in cancer imaging and therapy: an emerging field

Yi¹,

Wang²,

Qin³

et al. 2014

IJN

211

149

View full text Add to dashboard Cite

show abstract

“…To summarize, new chemotherapeutic prodrugs that can report on the localization and activation of the drug upon internalization into select cells are being widely investigated for cancer treatment [172]. Thus, a new molecular design for a theranostic prodrug based on a self-immolative linker attached to a pair of FRET dyes that produces a fluorescent signal upon disassembly are still very interesting.…”

Section: Non-fluorescent Prodrugs/converted Into Fluorescent Active Dmentioning

confidence: 99%

Fluorescent Dyes Used in Polymer Carriers as Imaging Agents in Anticancer Therapy

Miksa¹

2016

Med chem (Los Angeles)

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This review highlights the role of fluorescent dyes as active "molecular photoswiches" focusing on the application in bioimaging and anticancer therapies in the field of therapeutic delivery. The author describes the development of prodrugs targeted to specific cell types and polymeric nanocarriers (capsules, micelles and silica nanoparticles) used as fluorescent probes which offer advantages in the integration of "smart" features of fluorescent dyes into synthetic materials. The incorporation of biologically responsive components that cleave upon changes in pH or light irradiation is fundamental to the successful design of such carriers with capabilities to load and release therapeutics specifically at a target site.

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“…They were inspired to combine cyanine and rhodamine (352 -357), and the resulting cyanine dyes show intense NIR fluorescence, while having the characteristics of rhodamine dyes. 153 The idea has been extended to coumarin (358 -365), 154 with the fluorophores applied for turn-on fluorogenic probes for in vivo imaging.…”

Section: ·2 Cyaninementioning

confidence: 99%

New Trends in Near-Infrared Fluorophores for Bioimaging

2014

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A Unique Approach to Development of Near-Infrared Fluorescent Sensors for in Vivo Imaging

Cited by 589 publications

References 105 publications

Near-infrared fluorescent probes in cancer imaging and therapy: an emerging field

Near-infrared fluorescent probes in cancer imaging and therapy: an emerging field

Fluorescent Dyes Used in Polymer Carriers as Imaging Agents in Anticancer Therapy

New Trends in Near-Infrared Fluorophores for Bioimaging

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