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ICG-DOTA Succinimidyl Ester
Product key features
- Multimodal Imaging: Combines NIR fluorescence in vivo imaging and nuclear imaging (PET/SPECT) for comprehensive molecular visualization.
- Deep-Tissue Optical Imaging: ICG fluorescence (Ex/Em = ~789/813 nm) enables high-contrast in vivo imaging with minimal autofluorescence.
- High-Affinity Radiometal Chelation: DOTA moiety forms stable complexes with isotopes used in PET (⁶⁴Cu), SPECT (¹¹¹In), and radiotherapy (¹⁷⁷Lu, ⁹⁰Y).
- Efficient Bioconjugation: Succinimidyl ester (SE) enables stable amide bond formation with primary amines, preserving biomolecular function.
- Theranostic Versatility: Supports dual-modal imaging, precision diagnostics, and targeted radiotherapeutics in biomedical applications.
- High Stability: Maintains radiochemical and photostability for reliable performance in molecular imaging and drug delivery.
Product description
ICG-DOTA Succinimidyl Ester is a dual-functional imaging probe that combines near-infrared (NIR) in vivo imaging with high-affinity radiometal chelation, enabling both optical and nuclear imaging for multimodal applications. This conjugate leverages the deep-tissue imaging capabilities of indocyanine green (ICG) and the versatile chelation properties of DOTA (1,4,7,10-
The succinimidyl ester (SE) functional group facilitates efficient and selective conjugation to primary amines on biomolecules, forming stable amide linkages under physiological conditions while preserving biomolecular activity. The NIR fluorescence of ICG (excitation ~780 nm, emission ~810 nm) enables deep-tissue penetration with minimal background autofluorescence, making it highly suitable for in vivo fluorescence imaging. Simultaneously, the DOTA moiety chelates a wide range of radiometals, forming thermodynamically stable and kinetically inert complexes with isotopes commonly used in molecular imaging and targeted radiotherapy. These include positron-emitting isotopes (e.g., ⁶⁴Cu for PET), gamma-emitting isotopes (e.g., ¹¹¹In for SPECT), and therapeutic radionuclides (e.g., ¹⁷⁷Lu, ⁹⁰Y) for targeted radiotherapy.
By integrating high-resolution fluorescence imaging with radiolabeling capabilities, ICG-DOTA Succinimidyl Ester provides a versatile platform for developing precision imaging agents, theranostic probes, and multimodal tracers. Its optimized bioconjugation chemistry, strong radiochemical stability, and NIR fluorescence properties make it a powerful tool for biomedical research and translational applications in oncology, molecular diagnostics, and targeted drug delivery.
Spectrum
References
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Journal: Molecular pharmaceutics (2024): 245-254
Authors: Cao, Rui and Li, Renda and Lai, Chaoquan and Shi, Hui and Liu, Hongguang and Cheng, Zhen
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Authors: Shi, Xiaojing and Xu, Pengfei and Cao, Caiguang and Cheng, Zhen and Tian, Jie and Hu, Zhenhua
Journal: European journal of nuclear medicine and molecular imaging (2022): 4325-4337
Authors: Wu, Bo and Wan, Bing and Lu, Shu-Ting and Deng, Kai and Li, Xiao-Qi and Wu, Bao-Lin and Li, Yu-Shuang and Liao, Ru-Fang and Huang, Shi-Wen and Xu, Hai-Bo
Journal: International journal of nanomedicine (2017): 4467-4478
Authors: Kang, Choong Mo and An, Gwang Il and Choe, Yearn Seong
Journal: Nuclear medicine communications (2015): 1026-34
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