Heart Rate Measures From Wrist-Worn Activity Trackers in a Laboratory and Free-Living Setting: Validation Study

Journals

1. Sun J, Liu Y. Using Smart Bracelets to Assess Heart Rate Among Students During Physical Education Lessons: Feasibility, Reliability, and Validity Study. JMIR mHealth and uHealth 2020;8(8):e17699 View
2. Zhang Y, Weaver R, Armstrong B, Burkart S, Zhang S, Beets M. Validity of Wrist-Worn photoplethysmography devices to measure heart rate: A systematic review and meta-analysis. Journal of Sports Sciences 2020;38(17):2021 View
3. Mühlen J, Stang J, Lykke Skovgaard E, Judice P, Molina-Garcia P, Johnston W, Sardinha L, Ortega F, Caulfield B, Bloch W, Cheng S, Ekelund U, Brønd J, Grøntved A, Schumann M. Recommendations for determining the validity of consumer wearable heart rate devices: expert statement and checklist of the INTERLIVE Network. British Journal of Sports Medicine 2021;55(14):767 View
4. Stone J, Ulman H, Tran K, Thompson A, Halter M, Ramadan J, Stephenson M, Finomore V, Galster S, Rezai A, Hagen J. Assessing the Accuracy of Popular Commercial Technologies That Measure Resting Heart Rate and Heart Rate Variability. Frontiers in Sports and Active Living 2021;3 View
5. Höller I, Stenzel J, Rath D, Forkmann T. Listen to Your Heart–Ecological Momentary Assessment of Interoceptive Accuracy, Awareness and Sensibility: A Pilot Study. International Journal of Environmental Research and Public Health 2021;18(9):4893 View
6. Budig M, Keiner M, Stoohs R, Hoffmeister M, Höltke V. Heart Rate and Distance Measurement of Two Multisport Activity Trackers and a Cellphone App in Different Sports: A Cross-Sectional Validation and Comparison Field Study. Sensors 2021;22(1):180 View
7. Hajj‐Boutros G, Landry‐Duval M, Comtois A, Gouspillou G, Karelis A. Wrist‐worn devices for the measurement of heart rate and energy expenditure: A validation study for the Apple Watch 6, Polar Vantage V and Fitbit Sense. European Journal of Sport Science 2023;23(2):165 View
8. Cai Y, Wang Z, Zhang W, Kong W, Jiang J, Zhao R, Wang D, Feng L, Ni G. Estimation of Heart Rate and Energy Expenditure Using a Smart Bracelet during Different Exercise Intensities: A Reliability and Validity Study. Sensors 2022;22(13):4661 View
9. Marcato M, Kenny J, O’Riordan R, O’Mahony C, O’Flynn B, Galvin P. Assistance dog selection and performance assessment methods using behavioural and physiological tools and devices. Applied Animal Behaviour Science 2022;254:105691 View
10. Merrigan J, Stovall J, Stone J, Stephenson M, Finomore V, Hagen J. Validation of Garmin and Polar Devices for Continuous Heart Rate Monitoring During Common Training Movements in Tactical Populations. Measurement in Physical Education and Exercise Science 2023;27(3):234 View
11. Shei R, Holder I, Oumsang A, Paris B, Paris H. Wearable activity trackers–advanced technology or advanced marketing?. European Journal of Applied Physiology 2022;122(9):1975 View
12. Brown R, Chen M, Paoletti J, Dicker E, Wu-Chung E, LeRoy A, Majd M, Suchting R, Thayer J, Fagundes C. Emotion Regulation, Parasympathetic Function, and Psychological Well-Being. Frontiers in Psychology 2022;13 View
13. Wang H, Hou K, Kong Z, Guan X, Hu S, Lu M, Piao X, Qian Y. “In-Between Area” Design Method: An Optimization Design Method for Indoor Public Spaces for Elderly Facilities Evaluated by STAI, HRV and EEG. Buildings 2022;12(8):1274 View
14. Cui A, Motamed Yeganeh N, Sviatchenko O, Leavitt T, McKee T, Guthier C, Hermiston N, Boyd L. The phantoms of the opera—Stress offstage and stress onstage. Psychology of Music 2022;50(3):797 View
15. Cao J, Yang X, Rao J, Mitriashkin A, Fan X, Chen R, Cheng H, Wang X, Goh J, Leo H, Ouyang J. Stretchable and Self-Adhesive PEDOT:PSS Blend with High Sweat Tolerance as Conformal Biopotential Dry Electrodes. ACS Applied Materials & Interfaces 2022;14(34):39159 View
16. Gagnon J, Khau M, Lavoie-Hudon L, Vachon F, Drapeau V, Tremblay S. Comparing a Fitbit Wearable to an Electrocardiogram Gold Standard as a Measure of Heart Rate Under Psychological Stress: A Validation Study. JMIR Formative Research 2022;6(12):e37885 View
17. Givens A, Bernards J, Kelly K. Characterization of Female US Marine Recruits: Workload, Caloric Expenditure, Fitness, Injury Rates, and Menstrual Cycle Disruption during Bootcamp. Nutrients 2023;15(7):1639 View
18. de Almeida e Bueno L, Walls V, Bergmann J. Evaluating the Potential of an Oral-Based Bioguard to Estimate Heart Rate Using Photoplethysmography. Biosensors 2023;13(5):533 View
19. Hou K, Guan X, Wang H, Hu S, Lu M, Liu N. Influence of functional boundary for corridor spaces in elderly facilities in China. Building Research & Information 2023:1 View
20. Zago J, de Souza B, Amatuzzi F, Rondinel T, Queiroz R, Cipriano G, Cipriano G. Application of high-velocity low-amplitude technique in cervicothoracic junction produces cardiovascular responses in subjects with C7-T1 dysfunction: Randomized crossover trial. International Journal of Osteopathic Medicine 2023;50:100686 View
21. Joshi J, Wang K, Cho Y. PhysioKit: An Open-Source, Low-Cost Physiological Computing Toolkit for Single- and Multi-User Studies. Sensors 2023;23(19):8244 View
22. Zupkauskiene J, Lauceviciene I, Ryliskyte L, Navickas P, Kizlaitis R, Laucevicius A. Ambulatory and successive home-based heart rate targeted aerobic training improves arterial parameters: a follow-up study in people with metabolic syndrome. Annals of Medicine 2023;55(2) View
23. Prabhune A, Bhat S, Mallavaram A, Mehar Shagufta A, Srinivasan S. A Situational Analysis of the Impact of the COVID-19 Pandemic on Digital Health Research Initiatives in South Asia. Cureus 2023 View
24. Maza A, Goizueta S, Llorens R. Reliability of a Low-Cost Chest Strap to Estimate Short-Term and Ultra-Short-Term Heart Rate Variability Measures in Response to Emotionally Valenced Stimuli. IEEE Sensors Journal 2024;24(6):8008 View