BioMedical Engineering OnLine (Nov 2023)

Differences in intestinal motility during different sleep stages based on long-term bowel sounds

  • Guojing Wang,
  • Yibing Chen,
  • Hongyun Liu,
  • Xiaohua Yu,
  • Yi Han,
  • Weidong Wang,
  • Hongyan Kang

DOI
https://doi.org/10.1186/s12938-023-01166-z
Journal volume & issue
Vol. 22, no. 1
pp. 1 – 21

Abstract

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Abstract Background and objectives This study focused on changes in intestinal motility during different sleep stages based on long-term bowel sounds. Methods A modified higher order statistics algorithm was devised to identify the effective bowel sound segments. Next, characteristic values (CVs) were extracted from each bowel sound segment, which included 4 time-domain, 4 frequency-domain and 2 nonlinear CVs. The statistical analysis of these CVs corresponding to the different sleep stages could be used to evaluate the changes in intestinal motility during sleep. Results A total of 6865.81 min of data were recorded from 14 participants, including both polysomnographic data and bowel sound data which were recorded simultaneously from each participant. The average accuracy, sensitivity and specificity of the modified higher order statistics detector were 96.46 ± 2.60%, 97.24 ± 2.99% and 94.13 ± 4.37%. In addition, 217088 segments of effective bowel sound corresponding to different sleep stages were identified using the modified detector. Most of the CVs were statistically different during different sleep stages ( $$p<0.05$$ p < 0.05 ). Furthermore, the bowel sounds were low in frequency based on frequency-domain CVs, high in energy based on time-domain CVs and low in complexity base on nonlinear CVs during deep sleep, which was consistent with the state of the EEG signals during deep sleep. Conclusions The intestinal motility varies by different sleep stages based on long-term bowel sounds using the modified higher order statistics detector. The study indicates that the long-term bowel sounds can well reflect intestinal motility during sleep. This study also demonstrates that it is technically feasible to simultaneously record intestinal motility and sleep state throughout the night. This offers great potential for future studies investigating intestinal motility during sleep and related clinical applications.

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