Jinnan Chi scite author profile

Phototheranostics, which combines deep tissue imaging and phototherapy [photodynamic therapy (PDT) and/or photothermal therapy (PTT)] via light irradiation, is a promising strategy to treat tumors. Near-infrared (NIR) cyanine dyes are researched as potential phototheranostics reagents for their excellent photophysical properties. However, the low singlet oxygen generation efficiency of cyanine dyes often leads to inadequate therapeutic efficacy for tumors. Herein, we modified an indocyanine green derivative Cy7 with heavy atom iodine to form a novel NIR dye CyI to improve the reactive oxygen species (ROS) production and heat generation while, at the same time, maintain their fluorescence characteristics for in vivo noninvasive imaging. More importantly, in vitro and in vivo therapeutic results illustrated that CyI could quickly and simultaneously generate enhanced ROS and heat to induce more cancer cell apoptosis and higher inhibition rates in deep HepG2 tumors than other noniodinated NIR dyes upon NIR irradiation. Besides, low toxicity of the resulted iodinated NIR dyes was confirmed by in vivo biodistribution and acute toxicity. Results indicate that this low toxic NIR dye could be an ideal phototheranostics agent for deep tumor treatments. Our study presents a novel approach to achieve the fastsynergistic PDT/PTT treatment in deep tissues.

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Recent progress in synergistic chemotherapy and phototherapy by targeted drug delivery systems for cancer treatment

Cao

Chen

Chi

et al. 2018

Artificial Cells, Nanomedicine, and Biotechnology

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Although it's pharmacological effect for cancer therapy, conventional chemotherapy has been compromised by a series of shortcomings such as limited stability, nonspecific tumour targeting ability and severe toxic side effects. To overcome these limitations, multifunctional targeted drug delivery systems for combinatorial therapeutics have been widely explored as novel cancer therapy strategies, showing encouraging results in many pre-clinical animal experiments. Among them, synergistic phototherapy and chemotherapy have demonstrated their abilities to enhance therapeutic efficacies and reduce unwanted side effects via a variety of mechanisms. In this review, we will summarize the latest progress in the development of targeted drug delivery systems with combinations of phototherapy and chemotherapy and discuss the important roles of phototherapy agents involved in those non-conventional therapeutic strategies.

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Targeted nanocarriers based on iodinated-cyanine dyes as immunomodulators for synergistic phototherapy

Chi

Shen

et al. 2020

Nanoscale

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<p>NIR-guided dendritic nanoplatform for improving antitumor efficacy by combining chemo-phototherapy</p>

Ge¹,

Cao²,

Chi³

et al. 2019

IJN

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Background Phototherapy, including photothermal therapy (PTT) and photodynamic therapy (PDT), is a promising noninvasive strategy in the treatment of cancers due to its highly localized specificity to tumors and minimal side effects to normal tissues. However, single phototherapy often causes tumor recurrence which hinders its clinical applications. Therefore, developing a NIR-guided dendritic nanoplatform for improving the phototherapy effect and reducing the recurrence of tumors by synergistic chemotherapy and phototherapy is essential. Methods A fluorescent targeting ligand, insisting of ICG derivative cypate and a tumor penetration peptide iRGD (CRGDKGPDC), was covalently combined with PAMAM dendrimer to prepare a single agent-based dendritic theranostic nanoplatform iRGD-cypate-PAMAM-DTX (RCPD). Results Compared with free cypate, the resulted RCPD could generate enhanced singlet oxygen species while maintaining its fluorescence intensity and heat generation ability when subjected to NIR irradiation. Furthermore, our in vitro and in vivo therapeutic studies demonstrated that compared with phototherapy or chemotherapy alone, the combinatorial chemo-photo treatment of RCPD with the local exposure of NIR light can significantly improve anti-tumor efficiency and reduce the risk of recurrence of tumors. Conclusion The multifunctional theranostic platform (RCPD) could be used as a promising method for NIR fluorescence image-guided combinatorial treatment of tumor cancers.

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Smart sensing of Cu²⁺ in living cells by water-soluble and nontoxic Tb³⁺/Eu³⁺-induced aggregates of polysaccharides through fluorescence imaging

et al. 2020

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Jinnan Chi

Iodinated Cyanine Dyes for Fast Near-Infrared-Guided Deep Tissue Synergistic Phototherapy

Recent progress in synergistic chemotherapy and phototherapy by targeted drug delivery systems for cancer treatment

Targeted nanocarriers based on iodinated-cyanine dyes as immunomodulators for synergistic phototherapy

<p>NIR-guided dendritic nanoplatform for improving antitumor efficacy by combining chemo-phototherapy</p>

Smart sensing of Cu²⁺ in living cells by water-soluble and nontoxic Tb³⁺/Eu³⁺-induced aggregates of polysaccharides through fluorescence imaging

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Jinnan Chi

Iodinated Cyanine Dyes for Fast Near-Infrared-Guided Deep Tissue Synergistic Phototherapy

Recent progress in synergistic chemotherapy and phototherapy by targeted drug delivery systems for cancer treatment

Targeted nanocarriers based on iodinated-cyanine dyes as immunomodulators for synergistic phototherapy

<p>NIR-guided dendritic nanoplatform for improving antitumor efficacy by combining chemo-phototherapy</p>

Smart sensing of Cu2+ in living cells by water-soluble and nontoxic Tb3+/Eu3+-induced aggregates of polysaccharides through fluorescence imaging

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Smart sensing of Cu²⁺ in living cells by water-soluble and nontoxic Tb³⁺/Eu³⁺-induced aggregates of polysaccharides through fluorescence imaging