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First-in-clinical application of a time-gated diffuse correlation spectroscopy system at 1064 nm using superconducting nanowire single photon detectors in a neuro intensive care unit

Chien-Sing Poon, Dharminder S. Langri, Benjamin Rinehart, Timothy M. Rambo, Aaron J. Miller, Brandon Foreman, Ulas Sunar

2022Biomedical Optics Express35 citationsDOIOpen Access PDF

Abstract

Recently proposed time-gated diffuse correlation spectroscopy (TG-DCS) has significant advantages compared to conventional continuous wave (CW)-DCS, but it is still in an early stage and clinical capability has yet to be established. The main challenge for TG-DCS is the lower signal-to-noise ratio (SNR) when gating for the deeper traveling late photons. Longer wavelengths, such as 1064 nm have a smaller effective attenuation coefficient and a higher power threshold in humans, which significantly increases the SNR. Here, we demonstrate the clinical utility of TG-DCS at 1064 nm in a case study on a patient with severe traumatic brain injury admitted to the neuro-intensive care unit (neuroICU). We showed a significant correlation between TG-DCS early (ρ = 0.67) and late (ρ = 0.76) gated against invasive thermal diffusion flowmetry. We also analyzed TG-DCS at high temporal resolution (50 Hz) to elucidate pulsatile flow data. Overall, this study demonstrates the first clinical translation capability of the TG-DCS system at 1064 nm using a superconducting nanowire single-photon detector.

Topics & Concepts

Materials scienceNanowireGatingOptoelectronicsAttenuationContinuous waveIntensive care unitAttenuation coefficientDetectorPhoton diffusionPhoton countingDiffuse optical imagingRaman spectroscopySpectroscopyDiffusionNuclear magnetic resonanceOpticsPhotonIntensive careBiomedical engineeringSuperconductivityRaman scatteringImage resolutionTemporal resolutionCorrelationPulsatile flowCorrelation coefficientNeurointensive careThermalOptical Imaging and Spectroscopy TechniquesPhotoacoustic and Ultrasonic ImagingAdvanced MRI Techniques and Applications