Applied Sciences (Nov 2017)

Time-Domain Functional Diffuse Optical Tomography System Based on Fiber-Free Silicon Photomultipliers

  • Andrea Farina,
  • Susanna Tagliabue,
  • Laura Di Sieno,
  • Edoardo Martinenghi,
  • Turgut Durduran,
  • Simon Arridge,
  • Fabrizio Martelli,
  • Alessandro Torricelli,
  • Antonio Pifferi,
  • Alberto Dalla Mora

DOI
https://doi.org/10.3390/app7121235
Journal volume & issue
Vol. 7, no. 12
p. 1235

Abstract

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Based on recent developments in both single-photon detectors and timing electronic circuits, we designed a compact and cost effective time-domain diffuse optical tomography system operated at 1 Hz acquisition rate, based on eight silicon photomultipliers and an 8-channel time-to-digital converter. The compact detectors are directly hosted on the probe in a circular arrangement around a single light injection fiber, so to maximize light harvesting. Tomography is achieved exploiting the depth sensitivity that is encoded in the arrival time of detected photons. The system performances were evaluated on simulations to assess possible the limitations arising from the use of a single injection point, and then on phantoms and in vivo to prove the eligibility of these technologies for diffuse optical tomography.

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