An International Study on the Determinants of Poor Sleep Amongst 15,000 Users of Connected Devices
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Matthieu Vegreville | Jean-Michel Oppert | Gianluca Severi | Guy Fagherazzi | Alexis Normand | G. Severi | J. Oppert | L. Delrieu | G. Fagherazzi | M. Vegreville | Alexis Normand | C. Dow | A. Bellicha | Douae El Fatouhi | Alice Bellicha | Amin El Gareh | Aurélie Affret | Courtney Dow | Lidia Delrieu | A. Affret | Douae El Fatouhi | Amin El Gareh | Aurélie Affret | Alice Bellicha
[1] D. Malaspina,et al. Sleep duration and risk for hypertension in women: results from the nurses' health study. , 2013, American journal of hypertension.
[2] S. Ghislandi,et al. Family Income and Material Deprivation: Do They Matter for Sleep Quality and Quantity in Early Life? Evidence From a Longitudinal Study , 2017, Sleep.
[3] Sang Min Park,et al. Association between Sleep Duration and Measurable Cardiometabolic Risk Factors in Healthy Korean Women: The Fourth and Fifth Korean National Health and Nutrition Examination Surveys (KNHANES IV and V) , 2016, International journal of endocrinology.
[4] D. Munguía-Izquierdo,et al. Determinants of sleep quality in middle‐aged women with fibromyalgia syndrome , 2012, Journal of sleep research.
[5] Kathryn Sandberg,et al. How consumer physical activity monitors could transform human physiology research. , 2017, American journal of physiology. Regulatory, integrative and comparative physiology.
[6] Sleep Enhancement Training for Pregnant Women , 2016, Obstetrics and gynecology.
[7] Tim Olds,et al. The validity of consumer-level, activity monitors in healthy adults worn in free-living conditions: a cross-sectional study , 2015, International Journal of Behavioral Nutrition and Physical Activity.
[8] B. Kolla,et al. Consumer sleep tracking devices: a review of mechanisms, validity and utility , 2016, Expert review of medical devices.
[9] C. Thompson,et al. Sleep Disorders and Cancer Risk , 2014 .
[10] C. Matthews,et al. Sleep duration and breast cancer risk among black and white women. , 2016, Sleep medicine.
[11] H. Kamphuisen,et al. Subjective sleep characteristics of 1,485 males and females aged 50-93: effects of sex and age, and factors related to self-evaluated quality of sleep. , 1996, The journals of gerontology. Series A, Biological sciences and medical sciences.
[12] R. Furberg,et al. Systematic review of the validity and reliability of consumer-wearable activity trackers , 2015, International Journal of Behavioral Nutrition and Physical Activity.
[13] Rebecca M. C. Spencer,et al. Reliability of Sleep Measures from Four Personal Health Monitoring Devices Compared to Research-Based Actigraphy and Polysomnography , 2016, Sensors.
[14] G. Welk,et al. How valid are wearable physical activity trackers for measuring steps? , 2017, European journal of sport science.
[15] Matthew P Buman,et al. Twenty-four Hours of Sleep, Sedentary Behavior, and Physical Activity with Nine Wearable Devices. , 2016, Medicine and science in sports and exercise.
[16] S. Ayis,et al. Validation of the Withings BP-800 in pregnancy and impact of maternal characteristics on the accuracy of blood pressure measurement. , 2016, Pregnancy hypertension.
[17] H. Igelström. Physical Activity and Sedentary Time in Sleep Apnea and Obesity , 2015 .
[18] H. In,et al. Comparison of Wearable Activity Tracker with Actigraphy for Sleep Evaluation and Circadian Rest-Activity Rhythm Measurement in Healthy Young Adults , 2017, Psychiatry investigation.
[19] Kanitthika Kaewkannate,et al. A comparison of wearable fitness devices , 2016, BMC Public Health.
[20] P. Yoon,et al. Associations Between Sleep Disorders, Sleep Duration, Quality of Sleep, and Hypertension: Results From the National Health and Nutrition Examination Survey, 2005 to 2008 , 2011, Journal of clinical hypertension.
[21] Yachuan Pu,et al. Heart rate variability, sleep and sleep disorders. , 2012, Sleep medicine reviews.
[22] Hyun-Sung An,et al. Validity of Wearable Fitness Trackers on Sleep Measure: 106 Board #4 June 1, 9: 30 AM - 11: 30 AM. , 2016, Medicine and science in sports and exercise.
[23] Abdullah Al Mamun,et al. Sleep quality and obesity in young subjects: a meta‐analysis , 2016, Obesity reviews : an official journal of the International Association for the Study of Obesity.
[24] T. Driscoll,et al. Person-directed, non-pharmacological interventions for sleepiness at work and sleep disturbances caused by shift work. , 2016, The Cochrane database of systematic reviews.
[25] Iain Buchan,et al. Who Self-Weighs and What Do They Gain From It? A Retrospective Comparison Between Smart Scale Users and the General Population in England , 2016, Journal of medical Internet research.
[26] Lora Giangregorio,et al. Behavior Change Techniques Present in Wearable Activity Trackers: A Critical Analysis , 2016, JMIR mHealth and uHealth.
[27] S. Fukuhara,et al. Relation between sleep quality and quantity, quality of life, and risk of developing diabetes in healthy workers in Japan: the High-risk and Population Strategy for Occupational Health Promotion (HIPOP-OHP) Study , 2007, BMC public health.
[28] T. Roth,et al. Sleep, Alcohol, and Quality of Life , 2008 .
[29] Candy Wilson,et al. Sex differences in sleep. , 2007, Advance for nurse practitioners.
[30] F. Jefferson,et al. Gender differences in obstructive sleep apnea and the associated public health burden , 2015 .
[31] Massimiliano de Zambotti,et al. Evaluation of a consumer fitness-tracking device to assess sleep in adults , 2015, Chronobiology international.
[32] S. Brage,et al. Sleep duration and cardiometabolic risk factors among individuals with type 2 diabetes. , 2015, Sleep medicine.
[33] P. Lanteri,et al. Environmental Research and Public Health Co-morbidity, Mortality, Quality of Life and the Healthcare/welfare/social Costs of Disordered Sleep: a Rapid Review , 2022 .