The loss of organization of the corneal collagen lattice induced by photothermal effects was analyzed by using second-harmonic generation (SHG) imaging. Porcine cornea samples were treated with low-power laser irradiation in order to get localized areas of tissue disorganization. The disorder induced within the irradiated area of corneal stroma was quantified by means of Discrete Fourier Transform, auto-correlation and entropy analyses of the SHG images. Polarization modulated SHG measurements allowed to probe the changes in the structural anisotropy of sub-micron hierarchical levels of the stromal collagen. Our results emphasize the great potential of the SHG imaging to detect subtle modifications in the collagen assembly. The proposed analytical methods may be used to track several genetic, pathologic, accidental or surgical-induced disorder states of biological tissues.
Biocompatible chitosan/gold nanorods films are fabricated and tested as laser‐activatable adhesives. When exposed to near‐infrared laser light the nanoparticles carry out efficient photothermal conversion, which activates the polar groups of chitosan strands and mediates functional adhesion with a biological tissue. This technology may enable a number of key applications in medicine including tissue repair, wound dressing and drug delivery.
Gold nanorods exhibit intense optical
absorption bands in the near-infrared
region of principal interest for applications in biomedical optics,
which originate from sharp plasmon resonances. This high absorbance,
combined with the biochemical inertness and targetability of gold
nanoparticles, makes these materials excellent candidates to provide
contrast in photoacoustic imaging and for other applications such
as the selective hyperthermia of cancer. One issue demoting the potential
of gold nanorods as contrast agents in photoacoustic applications
is their limited photostability, which falls below relevant permissible
exposure limits. In particular, when gold nanorods are resonantly
excited by laser pulses in the nanosecond duration regime, there may
occur phenomena like reshaping into rounder nanoparticles as well
as fragmentation and sublimation, which modify their optical absorption
bands and hinder their efficiency of photoacoustic conversion. Here
we investigate the influence of nanoparticle size on the photostability
and reproducibility of photoacoustic conversion of gold nanorods embedded
in biomimetic phantoms. We compare samples containing gold nanorods
with different sizes but the same shapes and overall optical densities.
We demonstrate clear size effects as the thresholds of optical fluences
for nanoparticle deformation improve from below 2 to above 6 mJ/cm2 with nanoparticle miniaturization from 22 to 5 nm effective
radii. We interpret these results in terms of a better thermal coupling
and faster heat dissipation from smaller nanoparticles to their environment,
originating from their larger specific surface area.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.