In vivo monitoring of tumor distribution of hyaluronan polymeric micelles labeled or loaded with near-infrared fluorescence dye

In vivo monitoring of tumor distribution of hyaluronan polymeric micelles labeled or loaded with near-infrared fluorescence dye

•Synthesis of NIR labeled and hydrophobized hyaluronan.•Cypate labeled or loaded hyaluronan polymeric micelles.•Non-invasive in vivo monitoring of tumor distribution. Development of delivery systems which allow real-time visual inspection of tumors is critical for effective therapy. Near-infrared (N...

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Bibliographic Details
Published in:Carbohydrate polymers Vol. 198; pp. 339 - 347
Main Authors: Achbergerová, Eva, Šmejkalová, Daniela, Huerta-Angeles, Gloria, Souček, Karel, Hermannová, Martina, Vágnerová, Hana, Vícha, Robert, Velebný, Vladimír
Format: Journal Article
Language:English
Published: England Elsevier Ltd 15-10-2018
Subjects:
Hyaluronan
NIR fluorescence imaging
Polymeric micelles
Tumor detection
FDA
CDI
MTT
Tumor detection
DS
CT
DMEM
DOSY
NIH-3T3
TEA
Hyaluronan
DDS
i-PrOH
MWCO
FBS
HA-C18:1
NIR
DMAP
HA
PM
NIR fluorescence imaging
PET
Polymeric micelles
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Summary:•Synthesis of NIR labeled and hydrophobized hyaluronan.•Cypate labeled or loaded hyaluronan polymeric micelles.•Non-invasive in vivo monitoring of tumor distribution. Development of delivery systems which allow real-time visual inspection of tumors is critical for effective therapy. Near-infrared (NIR) fluorophores have a great potential for such an application. To overcome NIR dyes short blood circulation time and increase tumor accumulation, a NIR dye, cypate, was associated with oleyl hyaluronan, which can self-assemble into polymeric aggregates. The cypate association with oleyl hyaluronan was performed either by a covalent linkage, or physical entrapment. The two systems were compared for tumor targeting and contrast enhancement using BALB/c mice bearing 4T1 breast cancer tumors. Independently on the way of cypate association, it took more than 24 h from intravenous administration to detect NIR signal in tumors and the tumors were clearly visualized for 2 following weeks without substrate reinjection. Covalently linked cypate generated 2–3 fold stronger fluorescence signal than physically loaded cypate. This study demonstrates the potential of HA matrix to be used as carrier of contrast agents for non-invasive long-term tumor visualization.
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ISSN:0144-8617
1879-1344
DOI:10.1016/j.carbpol.2018.06.082