Micromachines (Dec 2023)

Microfluidically Assisted Synthesis of Calcium Carbonate Submicron Particles with Improved Loading Properties

  • Alexey V. Ermakov,
  • Sergei V. Chapek,
  • Ekaterina V. Lengert,
  • Petr V. Konarev,
  • Vladimir V. Volkov,
  • Vladimir V. Artemov,
  • Mikhail A. Soldatov,
  • Daria B. Trushina

DOI
https://doi.org/10.3390/mi15010016
Journal volume & issue
Vol. 15, no. 1
p. 16

Abstract

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The development of advanced methods for the synthesis of nano- and microparticles in the field of biomedicine is of high interest due to a range of reasons. The current synthesis methods may have limitations in terms of efficiency, scalability, and uniformity of the particles. Here, we investigate the synthesis of submicron calcium carbonate using a microfluidic chip with a T-shaped oil supply for droplet-based synthesis to facilitate control over the formation of submicron calcium carbonate particles. The design of the chip allowed for the precise manipulation of reaction parameters, resulting in improved porosity while maintaining an efficient synthesis rate. The pore size distribution within calcium carbonate particles was estimated via small-angle X-ray scattering. This study showed that the high porosity and reduced size of the particles facilitated the higher loading of a model peptide: 16 vs. 9 mass.% for the particles synthesized in a microfluidic device and in bulk, correspondingly. The biosafety of the developed particles in the concentration range of 0.08–0.8 mg per plate was established by the results of the cytotoxicity study using mouse fibroblasts. This innovative approach of microfluidically assisted synthesis provides a promising avenue for future research in the field of particle synthesis and drug delivery systems.

Keywords