Rotational dynamics of gold nanoparticle chains in water solution

In this study, the optical properties of two nano-sized polymer colloids in optical coherence tomography (OCT) were compared in vitro with respect to their potential use as contrast agents. We used two types of particles: compact hydrophobic spherical polystyrene (PS) particles and soft water-swollen nanogel (NG) particles both with grafted hydrophilic shell, both prepared at two different sizes (PS at 300 and 150?nm, NG at 300 and 200?nm). The OCT backscattering signals of the particles in a vessel-mimicking highly scattering agar/TiO₂ phantom were compared on either number of particles or weight percent. Larger particles and higher concentrations produced higher OCT contrast. At each concentration tested, a markedly higher contrast was achieved by PS particles than NG particles. PS particles generated a markedly higher OCT contrast than the phantom at concentrations of at least 1?×?10¹⁰ or 0.1?% for PS 300?nm and at least 3?×?10¹¹ particles/mL or 0.4?% for PS 150?nm. The contrast generated by NG 300?nm was above the phantom contrast at concentrations of at least 3?×?10¹¹ particles/mL or 1?%, whereas NG 200?nm only at 4?%. At any given weight percent, the differences in OCT contrast between differently sized particles were much less evident than in the comparison based on particle number. PS 300?nm generated also a good contrast ex vivo on chicken muscle tissue. These results strongly suggest that PS spheres have strong potential as intravascular OCT contrast agent, while NG particles need further contrast enhancer for being used as OCT contrast agent.