Abstract
Our initial efforts to prepare tissue-specific near-infrared (NIR) fluorescent compounds generated successful correlation between physicochemical properties and global uptake in major organs after systemic circulation and biodistribution. Herein, we focus on the effects on biodistribution based on modulating electronic influencing moieties from donating to withdrawing moieties at both the heterocyclic site and through meso-substitution of pentamethine cyanine fluorophores. These selected modifications harnessed innate biodistribution pathways through the structure-inherent targeting, resulting in effective imaging of the adrenal glands, pituitary gland, lymph nodes, pancreas, and thyroid and salivary glands. These native-tissue contrast agents will arm surgeons with a powerful and versatile arsenal for intraoperative NIR imaging in real time.
Publication types
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Research Support, Non-U.S. Gov't
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Research Support, N.I.H., Extramural
MeSH terms
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Adrenal Glands / diagnostic imaging
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Adrenal Glands / surgery
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Animals
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Carbocyanines / analysis
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Carbocyanines / chemical synthesis
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Carbocyanines / chemistry
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Carbocyanines / pharmacokinetics*
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Fluorescent Dyes / analysis
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Fluorescent Dyes / chemical synthesis
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Fluorescent Dyes / chemistry
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Fluorescent Dyes / pharmacokinetics*
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Lymph Nodes / diagnostic imaging
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Lymph Nodes / surgery
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Male
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Mice
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Molecular Imaging / methods*
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NIH 3T3 Cells
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Pancreas / diagnostic imaging
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Pancreas / surgery
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Pituitary Gland / diagnostic imaging
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Pituitary Gland / surgery
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Salivary Glands / diagnostic imaging
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Salivary Glands / surgery
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Surgery, Computer-Assisted*
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Thyroid Gland / diagnostic imaging
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Thyroid Gland / surgery
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Tissue Distribution
Substances
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Carbocyanines
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Fluorescent Dyes