NIR fluorescence-guided tumor surgery: new strategies for the use of indocyanine green.
Fiche publication
Date publication
janvier 2019
Journal
International journal of nanomedicine
Auteurs
Membres identifiés du Cancéropôle Est :
Dr BEZDETNAYA-BOLOTINE Lina, Pr DOLIVET Gilles, Dr LASSALLE Henri-Pierre
Tous les auteurs :
Egloff-Juras C, Bezdetnaya L, Dolivet G, Lassalle HP
Lien Pubmed
Résumé
Surgery is the frontline treatment for a large number of cancers. The objective of these excisional surgeries is the complete removal of the primary tumor with sufficient safety margins. Removal of the entire tumor is essential to improve the chances of a full recovery. To help surgeons achieve this objective, near-infrared fluorescence-guided surgical techniques are of great interest. The concomitant use of fluorescence and indocyanine green (ICG) has proved effective in the identification and characterization of tumors. Moreover, ICG is authorized by the Food and Drug Administration and the European Medicines Agency and is therefore the subject of a large number of studies. ICG is one of the most commonly used fluorophores in near-infrared fluorescence-guided techniques. However, it also has some disadvantages, such as limited photostability, a moderate fluorescence quantum yield, a high plasma protein binding rate, and undesired aggregation in aqueous solution. In addition, ICG does not specifically target tumor cells. One way to exploit the capabilities of ICG while offsetting these drawbacks is to develop high-performance near-infrared nanocomplexes formulated with ICG (with high selectivity for tumors, high tumor-to-background ratios, and minimal toxicity). In this review article, we focus on recent developments in ICG complexation strategies to improve near-infrared fluorescence-guided tumor surgery. We describe targeted and nontargeted ICG nanoparticle models and ICG complexation with targeting agents.
Mots clés
ICG complexation, indocyanine green, nanoparticle, near-infrared fluorescence-guided surgery, targeted nanoparticle
Référence
Int J Nanomedicine. 2019 ;14:7823-7838