Synergic Thermo- and pH-Sensitive Hybrid Microgels Loaded with Fluorescent Dyes and Ultrasmall Gold Nanoparticles for Photoacoustic Imaging and Photothermal Therapy.
Yu XiaoKartikey PandeyAlba Nicolás-BoludaDelphine OnidasPhilippe NizardFlorent CarnThéotim LucasJérôme GateauAlberto Martin-MolinaManuel Quesada-PérezMaria Del Mar Ramos-TejadaFlorence GazeauYun LuoClaire MangeneyPublished in: ACS applied materials & interfaces (2022)
Smart microgels (μGels) made of polymeric particles doped with inorganic nanoparticles have emerged recently as promising multifunctional materials for nanomedicine applications. However, the synthesis of these hybrid materials is still a challenging task with the necessity to control several features, such as particle sizes and doping levels, in order to tailor their final properties in relation to the targeted application. We report herein an innovative modular strategy to achieve the rational design of well-defined and densely filled hybrid particles. It is based on the assembly of the different building blocks, i.e., μGels, dyes, and small gold nanoparticles (<4 nm), and the tuning of nanoparticle loading within the polymer matrix through successive incubation steps. The characterization of the final hybrid networks using UV-vis absorption, fluorescence, transmission electron microscopy, dynamic light scattering, and small-angle X-ray scattering revealed that they uniquely combine the properties of hydrogel particles, including high loading capacity and stimuli-responsive behavior, the photoluminescent properties of dyes (rhodamine 6G, methylene blue and cyanine 7.5), and the features of gold nanoparticle assembly. Interestingly, in response to pH and temperature stimuli, the smart hybrid μGels can shrink, leading to the aggregation of the gold nanoparticles trapped inside the polymer matrix. This stimuli-responsive behavior results in plasmon band broadening and red shift toward the near-infrared region (NIR), opening promising prospects in biomedical science. Particularly, the potential of these smart hybrid nanoplatforms for photoactivated hyperthermia, photoacoustic imaging, cellular internalization, intracellular imaging, and photothermal therapy was assessed, demonstrating well controlled multimodal opportunities for theranostics.
Keyphrases
- gold nanoparticles
- cancer therapy
- high resolution
- drug delivery
- fluorescence imaging
- electron microscopy
- quantum dots
- reduced graphene oxide
- magnetic resonance imaging
- magnetic resonance
- drug release
- computed tomography
- reactive oxygen species
- pain management
- climate change
- single molecule
- aqueous solution
- mass spectrometry
- current status
- highly efficient
- label free
- water soluble