Frontiers in Pharmacology (Apr 2020)

Controlled Synthesis and Characterization of Micrometric Single Crystalline Magnetite With Superparamagnetic Behavior and Cytocompatibility/Cytotoxicity Assessments

  • Claudia Geanina Farcas,
  • Claudia Geanina Farcas,
  • Ioana Macasoi,
  • Iulia Pinzaru,
  • Marius Chirita,
  • Marius Constantin Chirita Mihaila,
  • Marius Constantin Chirita Mihaila,
  • Marius Constantin Chirita Mihaila,
  • Cristina Dehelean,
  • Stefana Avram,
  • Felicia Loghin,
  • Liviu Mocanu,
  • Virgil Rotaru,
  • Adrian Ieta,
  • Aurel Ercuta,
  • Dorina Coricovac

DOI
https://doi.org/10.3389/fphar.2020.00410
Journal volume & issue
Vol. 11

Abstract

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A new class of magnetite (Fe3O4) particles, coined as “Single Crystalline Micrometric Iron Oxide Particles” (SCMIOPs), were obtained by hydrothermal synthesis. Both the single Fe3O4 phase content and the particle sizes range, from 1 µm to 30 µm, can be controlled by synthesis. The notable finding states that these particles exhibit vanishing remanent magnetization (σr=0.28 emu/g) and coercive force (Hc=1.5 Oe), which indicate a superparamagnetic-like behavior (unexpected at micrometric particles size), and remarkably high saturation magnetization (σs=95.5 emu/g), what ensures strong magnetic response, and the lack of agglomeration after the magnetic field removal. These qualities make such particles candidates for biomedical applications, to be used instead of magnetic nanoparticles which inevitably involve some drawbacks like aglommeration and insufficient magnetic response. In this sense, cytocompatibility/cytotoxicity tests were performed on human cells, and the results have clearly indicated that SCMIOPs are cytocompatible for healthy cell lines HaCaT (human keratinocytes) and HEMa (primary epidermal melanocytes) and cytotoxic for neoplastic cell lines A375 (human melanoma) and B164A5 (murine melanoma) in a dose-dependent manner.

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