Digital phenotyping by consumer wearables identifies sleep-associated markers of cardiovascular disease risk and biological aging

Jing Xian Teo; Sonia Davila; Chengxi Yang; An An Hii; Chee Jian Pua; Jonathan Yap; Swee Yaw Tan; Anders Sahlén; Calvin Woon Loong Chin; Bin Tean Teh; Steven G. Rozen; Stuart Alexander Cook; Khung Keong Yeo; Patrick Tan; Weng Khong Lim

doi:10.1038/s42003-019-0605-1

Digital phenotyping by consumer wearables identifies sleep-associated markers of cardiovascular disease risk and biological aging

Jing Xian Teo
, Sonia Davila
, Chengxi Yang
, An An Hii
, Chee Jian Pua
, Jonathan Yap
, Swee Yaw Tan
, Anders Sahlén
, Calvin Woon Loong Chin
, Bin Tean Teh
, Steven G. Rozen
, Stuart Alexander Cook
, Khung Keong Yeo
, Patrick Tan^*
, Weng Khong Lim

^*Corresponding author for this work

Singapore Health Services
Duke-NUS Medical School
National Heart Centre Singapore
Karolinska Institutet
National Cancer Centre
Agency for Science, Technology and Research, Singapore
National University of Singapore
Imperial College London

Research output: Contribution to journal › Journal Article › peer-review

46 Scopus citations

Abstract

Sleep is associated with various health outcomes. Despite their growing adoption, the potential for consumer wearables to contribute sleep metrics to sleep-related biomedical research remains largely uncharacterized. Here we analyzed sleep tracking data, along with questionnaire responses and multi-modal phenotypic data generated from 482 normal volunteers. First, we compared wearable-derived and self-reported sleep metrics, particularly total sleep time (TST) and sleep efficiency (SE). We then identified demographic, socioeconomic and lifestyle factors associated with wearable-derived TST; they included age, gender, occupation and alcohol consumption. Multi-modal phenotypic data analysis showed that wearable-derived TST and SE were associated with cardiovascular disease risk markers such as body mass index and waist circumference, whereas self-reported measures were not. Using wearable-derived TST, we showed that insufficient sleep was associated with premature telomere attrition. Our study highlights the potential for sleep metrics from consumer wearables to provide novel insights into data generated from population cohort studies.

Original language	English
Article number	361
Journal	Communications Biology
Volume	2
Issue number	1
DOIs	https://doi.org/10.1038/s42003-019-0605-1
State	Published - 01 12 2019
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2019, The Author(s).

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

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Teo, J. X., Davila, S., Yang, C., Hii, A. A., Pua, C. J., Yap, J., Tan, S. Y., Sahlén, A., Chin, C. W. L., Teh, B. T., Rozen, S. G., Cook, S. A., Yeo, K. K., Tan, P., & Lim, W. K. (2019). Digital phenotyping by consumer wearables identifies sleep-associated markers of cardiovascular disease risk and biological aging. Communications Biology, 2(1), Article 361. https://doi.org/10.1038/s42003-019-0605-1

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title = "Digital phenotyping by consumer wearables identifies sleep-associated markers of cardiovascular disease risk and biological aging",

abstract = "Sleep is associated with various health outcomes. Despite their growing adoption, the potential for consumer wearables to contribute sleep metrics to sleep-related biomedical research remains largely uncharacterized. Here we analyzed sleep tracking data, along with questionnaire responses and multi-modal phenotypic data generated from 482 normal volunteers. First, we compared wearable-derived and self-reported sleep metrics, particularly total sleep time (TST) and sleep efficiency (SE). We then identified demographic, socioeconomic and lifestyle factors associated with wearable-derived TST; they included age, gender, occupation and alcohol consumption. Multi-modal phenotypic data analysis showed that wearable-derived TST and SE were associated with cardiovascular disease risk markers such as body mass index and waist circumference, whereas self-reported measures were not. Using wearable-derived TST, we showed that insufficient sleep was associated with premature telomere attrition. Our study highlights the potential for sleep metrics from consumer wearables to provide novel insights into data generated from population cohort studies.",

author = "Teo, \{Jing Xian\} and Sonia Davila and Chengxi Yang and Hii, \{An An\} and Pua, \{Chee Jian\} and Jonathan Yap and Tan, \{Swee Yaw\} and Anders Sahl{\'e}n and Chin, \{Calvin Woon Loong\} and Teh, \{Bin Tean\} and Rozen, \{Steven G.\} and Cook, \{Stuart Alexander\} and Yeo, \{Khung Keong\} and Patrick Tan and Lim, \{Weng Khong\}",

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doi = "10.1038/s42003-019-0605-1",

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AU - Teo, Jing Xian

AU - Davila, Sonia

AU - Yang, Chengxi

AU - Hii, An An

AU - Pua, Chee Jian

AU - Yap, Jonathan

AU - Tan, Swee Yaw

AU - Sahlén, Anders

AU - Chin, Calvin Woon Loong

AU - Teh, Bin Tean

AU - Rozen, Steven G.

AU - Cook, Stuart Alexander

AU - Yeo, Khung Keong

AU - Tan, Patrick

AU - Lim, Weng Khong

PY - 2019/12/1

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N2 - Sleep is associated with various health outcomes. Despite their growing adoption, the potential for consumer wearables to contribute sleep metrics to sleep-related biomedical research remains largely uncharacterized. Here we analyzed sleep tracking data, along with questionnaire responses and multi-modal phenotypic data generated from 482 normal volunteers. First, we compared wearable-derived and self-reported sleep metrics, particularly total sleep time (TST) and sleep efficiency (SE). We then identified demographic, socioeconomic and lifestyle factors associated with wearable-derived TST; they included age, gender, occupation and alcohol consumption. Multi-modal phenotypic data analysis showed that wearable-derived TST and SE were associated with cardiovascular disease risk markers such as body mass index and waist circumference, whereas self-reported measures were not. Using wearable-derived TST, we showed that insufficient sleep was associated with premature telomere attrition. Our study highlights the potential for sleep metrics from consumer wearables to provide novel insights into data generated from population cohort studies.

AB - Sleep is associated with various health outcomes. Despite their growing adoption, the potential for consumer wearables to contribute sleep metrics to sleep-related biomedical research remains largely uncharacterized. Here we analyzed sleep tracking data, along with questionnaire responses and multi-modal phenotypic data generated from 482 normal volunteers. First, we compared wearable-derived and self-reported sleep metrics, particularly total sleep time (TST) and sleep efficiency (SE). We then identified demographic, socioeconomic and lifestyle factors associated with wearable-derived TST; they included age, gender, occupation and alcohol consumption. Multi-modal phenotypic data analysis showed that wearable-derived TST and SE were associated with cardiovascular disease risk markers such as body mass index and waist circumference, whereas self-reported measures were not. Using wearable-derived TST, we showed that insufficient sleep was associated with premature telomere attrition. Our study highlights the potential for sleep metrics from consumer wearables to provide novel insights into data generated from population cohort studies.

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JO - Communications Biology

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Digital phenotyping by consumer wearables identifies sleep-associated markers of cardiovascular disease risk and biological aging

Abstract

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