AI Article Synopsis
- The study aimed to create a machine learning model to improve sleep duration predictions based on body-worn accelerometers, addressing challenges in detecting sleep/wake states through movement alone.
- Twenty-nine adults participated, with data collected from overnight polysomnography and accelerometers featuring embedded skin temperature sensors, which served as the basis for training the model.
- Results showed that adding skin temperature and contextual data to the model improved prediction accuracy (specificity increased from 0.52 to 0.72) while maintaining high sensitivity (0.95) and reducing sleep overestimation.
Article Abstract
Purpose: Body-worn accelerometers are commonly used to estimate sleep duration in population-based studies. However, since accelerometry-based sleep/wake-scoring relies on detecting body movements, the prediction of sleep duration remains a challenge. The aim was to develop and evaluate the performance of a machine learning (ML) model to predict accelerometry-based sleep duration and to explore if this prediction can be improved by adding skin temperature data, circadian rhythm based on the estimated midpoint of sleep, and cyclic time features to the model.
Patients And Methods: Twenty-nine adults (17 females), mean (SD) age 40.2 (15.0) years (range 17-70) participated in the study. Overnight polysomnography (PSG) was recorded in a sleep laboratory or at home along with body movement by two accelerometers with an embedded skin temperature sensor (AX3, Axivity, UK) positioned at the low back and thigh. The PSG scoring of sleep/wake was used as ground truth for training the ML model.
Results: Based on pure accelerometer data input to the ML model, the specificity and sensitivity for predicting sleep/wake was 0.52 (SD 0.24) and 0.95 (SD 0.03), respectively. Adding skin temperature data and contextual information to the ML model improved the specificity to 0.72 (SD 0.20), while sensitivity remained unchanged at 0.95 (SD 0.05). Correspondingly, sleep overestimation was reduced from 54 min (228 min, limits of agreement range [LoAR]) to 19 min (154 min LoAR).
Conclusion: An ML model can predict sleep/wake periods with excellent sensitivity and moderate specificity based on a dual-accelerometer set-up when adding skin temperature data and contextual information to the model.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11164689 | PMC |
| http://dx.doi.org/10.2147/NSS.S452799 | DOI Listing |
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