FRET Imaging Approaches for in Vitro and in Vivo Characterization of Synthetic Lipid Nanoparticles

Abstract: DiI and DiD, two fluorophores able to interact by FRET (Förster resonance energy transfer), were coencapsulated in the core of lipid nanocapsules (LNCs) and nanoemulsions (LNEs), lipophilic reservoirs for the delivery of drugs. The ability of FRET imaging to provide information on the kinetics of dissociation of the nanoparticles in the presence of bovine serum albumin (BSA) or whole serum, or after incubation with cancer cells, and after systemic administration in tumor-bearing mice, was studied. Both microsc… Show more

“…The DLS data suggested partial destabilization of LNPs when released from the gels with possible formation of micelles and aggregates. We previously determined that such lipid nanoparticles were stable in solutions for concentrations above 2–5 mg mL −1 of lipids but destabilized in the long term (24 h and more) in more diluted conditions …”

Time‐Controllable Lipophilic‐Drug Release System Designed by Loading Lipid Nanoparticles into Polysaccharide Hydrogels

“…The DLS data suggested partial destabilization of LNPs when released from the gels with possible formation of micelles and aggregates. We previously determined that such lipid nanoparticles were stable in solutions for concentrations above 2–5 mg mL −1 of lipids but destabilized in the long term (24 h and more) in more diluted conditions …”

Time‐Controllable Lipophilic‐Drug Release System Designed by Loading Lipid Nanoparticles into Polysaccharide Hydrogels

“…FRET pair 35 encapsulated nanomicelles, as a promising fluorescent contrast nanoprobe, are expected to overcome those above pivotal drawbacks, making them higher qualified contrast agents for bioimaging. 18 22 In our previous work, RuBpy and methylene blue FRET pair encapsulated fluorescent silica nanoparticles was developed as large Stokes shifting nanoprobe for in vivo NIR 45 small animal imaging. 16 It is well known that semiconductor quantum dots (QDs) have unique photophysical properties of continuous absorption spectra, narrow and tunable emission, and high photostability, and have attracted widespread attentions in the fields of bioimaging, and especially, QDs can afford as an 50 efficient donor in the developing of FRET nanoprobes.…”

Quantum dot/methylene blue FRET mediated NIR fluorescent nanomicelles with large Stokes shift for bioimaging

“…Fluorescence correlation spectroscopy (FCS), an ultrasensitive and noninvasive single‐molecule detection technique, is widely applied in biological and biophysical research, particularly in cell membrane and inside the cells . Compared with the previous methods for quantifying drug release, FCS is more suitable for quantified study the non‐invasive drug release in situ or in highly hydrophobic drugs that are poorly soluble in water . Based on the fluorescence fluctuation of the nanodelivery system generated by diffusion and chemical reaction in the laser focus volume, FCS can easily disclose the brightness, concentration and diffusion behavior of nanodelivery system during the laser irradiation .…”

Visualization photofragmentation‐induced rhodamine B release from gold nanorod delivery system by combination two‐photon luminescence imaging with correlation spectroscopy