Innovative methodology for noninvasive spatial mapping of gold nanoparticle distribution in tissues: potential applications in biomedical imaging and therapy

article
Autores

Mendes, A. C. M.

Monte, A. F. G.

Saager, R. B.

Data de Publicação

1 de julho de 2024

Resumo

Gold nanoparticles (AuNPs) have emerged as versatile agents in biomedical applications, particularly for enhancing contrast in tagged biological tissues for tumor imaging and diagnostics due to their strong absorption cross-section. In this study, we present a methodology for quantifying the spatial distribution of AuNPs within superficial tissue volumes. Utilizing silicone tissue phantoms as a background medium and spatial frequency domain imaging (SFDI) to measure the tissues’ optical properties, we constructed a lookup table (LUT) to infer the optical properties of embedded AuNPs with varying spatial concentrations and depths across multiple spatial frequencies. An analytical solution derived from the LUT facilitated the determination of embedded NP concentration in-depth as a function of measured spatial frequency-dependent optical absorption. Notably, SFDI enabled the spatial localization of NPs in three dimensions. These findings lay the foundation for future in vivo studies on mapping NPs and hold significant promise for advancing biomedical imaging techniques.

Citação

BibTeX
@online{a._c._m.2024,
  author = {A. C. M. , Mendes and A. F. G. , Monte and R. B. , Saager},
  title = {Innovative methodology for noninvasive spatial mapping of
    gold nanoparticle distribution in tissues: potential applications in
    biomedical imaging and therapy},
  volume = {41},
  number = {7},
  date = {2024-07-01},
  doi = {10.1364/JOSAA.523717},
  langid = {pt-BR},
  abstract = {Gold nanoparticles (AuNPs) have emerged as versatile
    agents in biomedical applications, particularly for enhancing
    contrast in tagged biological tissues for tumor imaging and
    diagnostics due to their strong absorption cross-section. In this
    study, we present a methodology for quantifying the spatial
    distribution of AuNPs within superficial tissue volumes. Utilizing
    silicone tissue phantoms as a background medium and spatial
    frequency domain imaging (SFDI) to measure the tissues’ optical
    properties, we constructed a lookup table (LUT) to infer the optical
    properties of embedded AuNPs with varying spatial concentrations and
    depths across multiple spatial frequencies. An analytical solution
    derived from the LUT facilitated the determination of embedded NP
    concentration in-depth as a function of measured spatial
    frequency-dependent optical absorption. Notably, SFDI enabled the
    spatial localization of NPs in three dimensions. These findings lay
    the foundation for future in vivo studies on mapping NPs and hold
    significant promise for advancing biomedical imaging techniques.}
}
Por favor, cite este trabalho como:
A. C. M., Mendes, Monte A. F. G., and Saager R. B. 2024. “Innovative methodology for noninvasive spatial mapping of gold nanoparticle distribution in tissues: potential applications in biomedical imaging and therapy.” Journal of the Optical Society of America A. July 1, 2024. https://doi.org/10.1364/JOSAA.523717.