Based on in vivo fluorescence imaging technology, to extablish a fluorescence modification method for amphipathic block polymers

Rhodamine B (RhB) was used to decorate an amphipathic block polymers (β-CD-P(AA-co-MMA)-b-PVP₄) in this study. First, after activated by 1-(3-dimethylaminopropyl)-3-ethylcarbodiimide hydrochloride, rhodamine B was marked with hydroxyethyl methacrylate (HEMA) through ester exchange reaction. Second, the labeled amphipathic block polymers (β-CD-P(AA-(HEMA-RhB)-MMA)-b-PVP₄) were synthesized after polymerization reaction of double bones between RhB-HEMA and other reactants. Finally, the structure of product was measured by FT-IR spectra and fluorospectro photometer (FLUORO). The critical micelle concentration of RhB-labeled and unlabeled amphipathic block polymers were 4.96×10^-3, 5.09×10^-3 mg·L^-1, respectively, indicating no change of their micellization behavior. In vivo tissue distribution and whole-body fluorescent imaging were studied by vinpocetine (VP)-loaded polymeric micelles which were prepared through a solvent evaporation method. Compared to the result of in vivo tissue distribution and whole-body fluorescence imaging, a similar bio-distribution behavior of VP-loaded polymeric micelles was found. Those proved the successful fluorescence modification with a labeling yield of 4.13%. With in vivo fluorescence imaging technology, we established a fluorescence method for modification of amphipathic block polymers.