Engineering of stealth (maghemite/PLGA)/chitosan (core/shell)/shell nanocomposites with potential applications for combined MRI and hyperthermia against cancer
(Maghemite/poly( d , l -lactide- co -glycolide))/chitosan (core/shell)/shell nanoparticles have been prepared reproducibly by nanoprecipitation solvent evaporation plus coacervation (production performance 45%, average size 325 nm). Transmission electron microscopy, energy dispersive X-ray spectrosc...
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Veröffentlicht in: | Journal of materials chemistry. B, Materials for biology and medicine Materials for biology and medicine, 2021-06, Vol.9 (24), p.4963-498 |
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Sprache: | eng |
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Zusammenfassung: | (Maghemite/poly(
d
,
l
-lactide-
co
-glycolide))/chitosan (core/shell)/shell nanoparticles have been prepared reproducibly by nanoprecipitation solvent evaporation plus coacervation (production performance 45%, average size 325 nm). Transmission electron microscopy, energy dispersive X-ray spectroscopy, electrophoretic determinations, and X-ray diffraction patterns demonstrated the satisfactory embedment of iron oxide nanocores within the solid polymer matrix and the formation of an external shell of chitosan in the nanostructure. The adequate magnetic responsiveness of the nanocomposites was characterized
in vitro
by hysteresis cycle determinations and by visualization of the nanosystem under the influence of a 0.4 T permanent magnet. Safety and biocompatibility of the (core/shell)/shell particles were based on
in vitro
haemocompatibility studies and cytotoxicity tests against HFF-1 human foreskin fibroblasts and on
ex vivo
toxicity assessments on tissue samples from Balb/c mice. Transversal relaxivities, determined
in vitro
at a low magnetic field of 1.44 T, demonstrated their capability as
T
2
contrast agents for magnetic resonance imaging, being comparable to that of some iron oxide-based contrast agents. Heating properties were evaluated in a high frequency alternating electromagnetic gradient: a constant maximum temperature of 46 °C was generated within 50 min, while antitumour hyperthermia tests on T-84 colonic adenocarcinoma cells proved the relevant decrease in cell viability (to 39%) when treated with the nanosystem under the influence of that electromagnetic field. Finally,
in vivo
magnetic resonance imaging studies and
ex vivo
histology determinations of iron deposits postulated the efficacy of chitosan to provide long-circulating capabilities to the nanocomposites, retarding nanoparticle recognition by the mononuclear phagocyte system. To our knowledge, this is the first study describing such a type of biocompatible and long-circulating nanoplatform with promising theranostic applications (biomedical imaging and hyperthermia) against cancer.
Biocompatible and long-circulating (maghemite/poly(
d
,
l
-lactide-
co
-glycolide))/chitosan (core/shell)/shell nanoparticles with promising theranostic applications (biomedical imaging and hyperthermia) against cancer. |
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ISSN: | 2050-750X 2050-7518 2050-7518 |
DOI: | 10.1039/d1tb00354b |