Biosensors (Jul 2023)

Morphic Sensors for Respiratory Parameters Estimation: Validation against Overnight Polysomnography

  • Ganesh R. Naik,
  • Paul P. Breen,
  • Titus Jayarathna,
  • Benjamin K. Tong,
  • Danny J. Eckert,
  • Gaetano D. Gargiulo

DOI
https://doi.org/10.3390/bios13070703
Journal volume & issue
Vol. 13, no. 7
p. 703

Abstract

Read online

Effective monitoring of respiratory disturbances during sleep requires a sensor capable of accurately capturing chest movements or airflow displacement. Gold-standard monitoring of sleep and breathing through polysomnography achieves this task through dedicated chest/abdomen bands, thermistors, and nasal flow sensors, and more detailed physiology, evaluations via a nasal mask, pneumotachograph, and airway pressure sensors. However, these measurement approaches can be invasive and time-consuming to perform and analyze. This work compares the performance of a non-invasive wearable stretchable morphic sensor, which does not require direct skin contact, embedded in a t-shirt worn by 32 volunteer participants (26 males, 6 females) with sleep-disordered breathing who performed a detailed, overnight in-laboratory sleep study. Direct comparison of computed respiratory parameters from morphic sensors versus traditional polysomnography had approximately 95% (95 ± 0.7) accuracy. These findings confirm that novel wearable morphic sensors provide a viable alternative to non-invasively and simultaneously capture respiratory rate and chest and abdominal motions.

Keywords