1. Remote Monitoring of Positive Airway Pressure Data Challenges, Pitfalls, and Strategies to Consider for Optimal Data Science Applications
- Author
-
Bottaz-Bosson, Guillaume, Midelet, Alphanie, Mendelson, Monique, Borel, Jean-Christian, Martinot, Jean-Benoît, Le Hy, Ronan, Schaeffer, Marie-Caroline, Samson, Adeline, Hamon, Agnès, Tamisier, Renaud, Malhotra, Atul, Pépin, Jean-Louis, and Bailly, Sébastien
- Subjects
Biomedical and Clinical Sciences ,Cardiovascular Medicine and Haematology ,Lung ,Sleep Research ,Humans ,Sleep Apnea ,Obstructive ,Artificial Intelligence ,Data Science ,Reproducibility of Results ,Treatment Outcome ,Polysomnography ,Continuous Positive Airway Pressure ,Patient Compliance ,data management ,OSA ,positive airway pressure ,remote monitoring ,time series ,Clinical Sciences ,Respiratory System ,Cardiovascular medicine and haematology ,Clinical sciences - Abstract
Over recent years, positive airway pressure (PAP) remote monitoring has transformed the management of OSA and produced a large amount of data. Accumulated PAP data provide valuable and objective information regarding patient treatment adherence and efficiency. However, the majority of studies that have analyzed longitudinal PAP remote monitoring have summarized data trajectories in static and simplistic metrics for PAP adherence and the residual apnea-hypopnea index by the use of mean or median values. The aims of this article are to suggest directions for improving data cleaning and processing and to address major concerns for the following data science applications: (1) conditions for residual apnea-hypopnea index reliability, (2) lack of standardization of indicators provided by different PAP models, (3) missing values, and (4) consideration of treatment interruptions. To allow fair comparison among studies and to avoid biases in computation, PAP data processing and management should be conducted rigorously with these points in mind. PAP remote monitoring data contain a wealth of information that currently is underused in the field of sleep research. Improving the quality and standardizing data handling could facilitate data sharing among specialists worldwide and enable artificial intelligence strategies to be applied in the field of sleep apnea.
- Published
- 2023