TY - JOUR
T1 - Sleep validity of a non-contact bedside movement and respiration-sensing device
AU - Schade, Margeaux M.
AU - Bauer, Christopher E.
AU - Murray, Billie R.
AU - Gahan, Luke
AU - Doheny, Emer P.
AU - Kilroy, Hannah
AU - Zaffaroni, Alberto
AU - Montgomery-Downs, Hawley E.
N1 - Funding Information:
All authors have reviewed and approved this manuscript. Funding for this research was provided by a grant from ResMed, Inc. and included summer stipends for graduate and undergraduate research staff (Schade, Bauer, and Murray), two S+ devices, and funds for purchasing disposable polysomnography supplies. Dr. Montgomery-Downs received no compensation from ResMed, Inc. Gahan and Doheny were employed by ResMed Sensor Technologies at the time of the manuscript drafting and analysis. Kilroy and Zaffaroni are employees of ResMed Sensor Technologies.
Publisher Copyright:
© 2019 American Academy of Sleep Medicine. All rights reserved.
PY - 2019
Y1 - 2019
N2 - Study Objectives: To assess the sleep detection and staging validity of a non-contact, commercially available bedside bio-motion sensing device (S+, ResMed) and evaluate the impact of algorithm updates. Methods: Polysomnography data from 27 healthy adult participants was compared epoch-by-epoch to synchronized data that were recorded and staged by actigraphy and S+. An update to the S+ algorithm (common in the rapidly evolving commercial sleep tracker industry) permitted comparison of the original (S+V1) and updated (S+V2) versions. Results: Sleep detection accuracy by S+V1 (93.3%), S+V2 (93.8%), and actigraphy (96.0%) was high; wake detection accuracy by each (69.6%, 73.1%, and 47.9%, respectively) was low. Higher overall S+ specificity, compared to actigraphy, was driven by higher accuracy in detecting wake before sleep onset (WBSO), which differed between S+V2 (90.4%) and actigraphy (46.5%). Stage detection accuracy by the S+ did not exceed 67.6% (for stage N2 sleep, by S+V2) for any stage. Performance is compared to previously established variance in polysomnography scored by humans: a performance standard which commercial devices should ideally strive to reach. Conclusions: Similar limitations in detecting wake after sleep onset (WASO) were found for the S+ as have been previously reported for actigraphy and other commercial sleep tracking devices. S+ WBSO detection was higher than actigraphy, and S+V2 algorithm further improved WASO accuracy. Researchers and clinicians should remain aware of the potential for algorithm updates to impact validity.
AB - Study Objectives: To assess the sleep detection and staging validity of a non-contact, commercially available bedside bio-motion sensing device (S+, ResMed) and evaluate the impact of algorithm updates. Methods: Polysomnography data from 27 healthy adult participants was compared epoch-by-epoch to synchronized data that were recorded and staged by actigraphy and S+. An update to the S+ algorithm (common in the rapidly evolving commercial sleep tracker industry) permitted comparison of the original (S+V1) and updated (S+V2) versions. Results: Sleep detection accuracy by S+V1 (93.3%), S+V2 (93.8%), and actigraphy (96.0%) was high; wake detection accuracy by each (69.6%, 73.1%, and 47.9%, respectively) was low. Higher overall S+ specificity, compared to actigraphy, was driven by higher accuracy in detecting wake before sleep onset (WBSO), which differed between S+V2 (90.4%) and actigraphy (46.5%). Stage detection accuracy by the S+ did not exceed 67.6% (for stage N2 sleep, by S+V2) for any stage. Performance is compared to previously established variance in polysomnography scored by humans: a performance standard which commercial devices should ideally strive to reach. Conclusions: Similar limitations in detecting wake after sleep onset (WASO) were found for the S+ as have been previously reported for actigraphy and other commercial sleep tracking devices. S+ WBSO detection was higher than actigraphy, and S+V2 algorithm further improved WASO accuracy. Researchers and clinicians should remain aware of the potential for algorithm updates to impact validity.
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U2 - 10.5664/jcsm.7892
DO - 10.5664/jcsm.7892
M3 - Article
C2 - 31383243
AN - SCOPUS:85069051977
SN - 1550-9389
VL - 15
SP - 1051
EP - 1061
JO - Journal of Clinical Sleep Medicine
JF - Journal of Clinical Sleep Medicine
IS - 7
ER -