Toxicol Res.  2012 Dec;28(4):209-216.

Biocompatible Dispersion Methods for Carbon Black

Affiliations
  • 1College of Pharmacy, Dongguk University, Goyang, Korea. mlee@dongguk.edu
  • 2College of Pharmacy, Dongduk Women's University, Seoul, Korea.

Abstract

The biological activity of particles is largely dependent on their size in biological systems. Dispersion in the aqueous phase has been both a critical impediment to and a prerequisite for particle studies. Carbon black has been used as a surrogate to investigate the biological effects of carbonaceous particles. Here, biocompatible methods were established to disperse carbon black into ultrafine and fine particles which are generally distinguished by the small size of 100 nm. Carbon black with a distinct particle size, N330 and N990 were suspended in blood plasma, cell culture media, Krebs-Ringer's solution (KR), or physiological salt solution (PSS). Large clumps were observed in all dispersion preparations; however, sonication improved dispersion - averaged particle sizes for N330 and N990 were 85.0 +/- 42.9 and 112.4 +/- 67.9 nm, respectively, in plasma; the corresponding sizes in culture media were 84.8 +/- 38.4 and 164.1 +/- 77.8 nm. However, sonication was not enough to disperse N330 less than 100 nm in either KR or PSS. Application of Tween 80 along with sonication reduced the size of N330 to less than 100 nm, and dispersed N990 larger than 100 nm (73.6 +/- 28.8 and 80.1 +/- 30.0 nm for N330 and 349.5 +/- 161.8 and 399.8 +/- 181.1 nm for N990 in KR and PSS, respectively). In contrast, 1,2-dipalmitoyl-sn-glycero-3-phosphocholine (DPPC) exhibited little effect. Electron microscopy confirmed the typical aciniform structure of the carbon arrays; however, zeta potential measurement failed to explain the dispersibility of carbon black. The methods established in this study could disperse carbon black into ultrafine and fine particles, and may serve as a useful model for the study of particle toxicity, particularly size-related effects.

Keyword

Carbon black; Carbonaceous core; Particle dispersion; Biocompatible media; Ultrafine particles; Fine particles

MeSH Terms

1,2-Dipalmitoylphosphatidylcholine
Carbon
Cell Culture Techniques
Culture Media
Microscopy, Electron
Particle Size
Plasma
Polysorbates
Silicones
Sonication
Soot
1,2-Dipalmitoylphosphatidylcholine
Carbon
Culture Media
Polysorbates
Silicones
Soot
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