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Noninvasive Glucose Measurements in Tissue Simulating Phantoms Using a Solid-State Near-Infrared Sensor.

Ariel B Kauffman1, Ruben Shakya1, Shuai Yu1

  • 1Department of Engineering, Rockley Photonics, Irvine, CA 92612, USA.

Sensors (Basel, Switzerland)
|April 12, 2025
PubMed
Summary
This summary is machine-generated.

This study benchmarks a new solid-state laser spectrometer for noninvasive glucose monitoring in skin. The prototype shows promising analytical utility, comparable to Fourier-transform spectrometers, despite higher spectral noise.

Keywords:
RMS spectral noise benchmarkingnear-infrared spectroscopynoninvasive glucose monitornoninvasive glucose sensingphotonic integrated chipsskin glucose phantomssolid-state laser spectroscopy

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Area of Science:

  • Biomedical Optics
  • Spectroscopy
  • Medical Devices

Background:

  • Noninvasive glucose monitoring is crucial for diabetes management.
  • Near-infrared (NIR) spectroscopy offers a promising avenue for noninvasive measurements.
  • Developing robust and accurate NIR spectrometers is an ongoing challenge.

Purpose of the Study:

  • To benchmark the performance of a novel solid-state laser-based NIR spectrometer.
  • To compare its analytical utility against a Fourier-transform (FT) spectrometer for glucose measurements.
  • To assess the feasibility of the laser platform for noninvasive human skin measurements.

Main Methods:

  • Aqueous phantoms mimicking human skin composition were used for calibration and testing.
  • Spectroscopic performance was evaluated by analyzing 100% lines and root mean square (RMS) noise levels.
  • Partial least squares (PLS) regression was employed to assess analytical utility for glucose quantification.

Main Results:

  • The solid-state laser spectrometer exhibited a median RMS noise level of 667.2 µAU, compared to 327.8 µAU for the FT spectrometer.
  • A PLS model using laser data achieved a standard error of cross-validation (SECV) of 7.82 mg/dL over 1401-2238 nm.
  • The laser platform's SECV was comparable to the FT spectrometer's SECV of 6.62 mg/dL (1551-2378 nm), with the difference attributed to higher spectral noise.

Conclusions:

  • The solid-state laser spectrometer demonstrates significant analytical utility for noninvasive glucose monitoring.
  • Its performance is competitive with established FT spectrometers, indicating potential for clinical applications.
  • Further optimization to reduce spectral noise could enhance the laser platform's accuracy and selectivity.