Applied Sciences (Mar 2019)

Study of a Miniaturizable System for Optical Sensing Application to Human Cells

  • Emanuele Luigi Sciuto,
  • Giusy Villaggio,
  • Maria Francesca Santangelo,
  • Samuele Laudani,
  • Concetta Federico,
  • Salvatore Saccone,
  • Fulvia Sinatra,
  • Sebania Libertino

DOI
https://doi.org/10.3390/app9050975
Journal volume & issue
Vol. 9, no. 5
p. 975

Abstract

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Conventional approaches to human intracellular optical sensing, generally, require dedicated laboratories with bulky detection systems. They are performed by cell labeling procedures based on the use of fluorophores that are, mostly, phototoxic, invasive, bleached in case of prolonged light exposures, which require carriers and/or structural modifications for the cellular uptake. These issues, together with the sensitivity of the eukaryotic cell model, could be problematic towards the development of a robust sensing system suitable for biomedical screening. In this work, we studied a sensing system resulting from the combination of the commercial tris(2,2’bipyridyl)ruthenium(II) fluorophore, for cell labeling, with a potentially miniaturizable optical system composed by a laser source and a photomultiplier tube, for the fluorescence analysis.

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