Artifacts classification and apnea events detection in neck photoplethysmography signals

Med Biol Eng Comput. 2022 Dec;60(12):3539-3554. doi: 10.1007/s11517-022-02666-1. Epub 2022 Oct 17.

Abstract

The novel pulse oximetry measurement site of the neck is a promising location for multi-modal physiological monitoring. Specifically, in the context of respiratory monitoring, in which it is important to have direct information about airflow. The neck makes this possible, in contrast to common photoplethysmography (PPG) sensing sites. However, this PPG signal is susceptible to artifacts that critically impair the signal quality. To fully exploit neck PPG for reliable physiological parameters extraction and apneas monitoring, this paper aims to develop two classification algorithms for artifacts and apnea detection. Features from the time, correlogram, and frequency domains were extracted. Two SVM classifiers with RBF kernels were trained for different window (W) lengths and thresholds (Thd) of corruption. For artifacts classification, the maximum performance was attained for the parameters combination of [W = 6s-Thd= 20%], with an average accuracy= 85.84%(ACC), sensitivity= 85.43%(SE) and specificity= 86.26%(SP). For apnea detection, the model [W = 10s-Thd= 50%] maximized all the performance metrics significantly (ACC= 88.25%, SE= 89.03%, SP= 87.42%). The findings of this proof of concept are significant for denoising novel neck PPG signals, and demonstrate, for the first time, that it is possible to promptly detect apnea events from neck PPG signals in an instantaneous manner. This could make a big impact in crucial real-time applications, like devices to prevent sudden-unexpected-death-in-epilepsy (SUDEP).

Keywords: Apnea detection; Noise artifacts classification; Photoplethysmography (PPG); Pulse oximetry; Sudden unexpected death in epilepsy (SUDEP).

MeSH terms

  • Algorithms
  • Apnea
  • Artifacts*
  • Chest Pain
  • Heart Rate / physiology
  • Humans
  • Photoplethysmography*
  • Signal Processing, Computer-Assisted