The Accuracy of Wrist Skin Temperature in Detecting Ovulation Compared to Basal Body Temperature: Prospective Comparative Diagnostic Accuracy Study

Journals

1. Brun R, Girsberger J, Rothenbühler M, Argyle C, Hutmacher J, Haslinger C, Leeners B. Wearable sensors for prediction of intraamniotic infection in women with preterm premature rupture of membranes: a prospective proof of principle study. Archives of Gynecology and Obstetrics 2022;308(5):1447 View
2. Lai F, Li X, Liu T, Wang X, Wang Q, Chen S, Wei S, Xiong Y, Hou Q, Zeng X, Yang Y, Li Y, Lin Y, Yang X. Optimal diagnostic fever thresholds using non-contact infrared thermometers under COVID-19. Frontiers in Public Health 2022;10 View
3. Murayama Y, Uemura A, Kitazawa M, Toyotani J, Taniuchi A, Togawa T. Determination of Biphasic Menstrual Cycle Based on the Fluctuation of Abdominal Skin Temperature during Sleep. Advanced Biomedical Engineering 2023;12(0):28 View
4. Ramirez-GarciaLuna J, Bartlett R, Arriaga-Caballero J, Fraser R, Saiko G. Infrared Thermography in Wound Care, Surgery, and Sports Medicine: A Review. Frontiers in Physiology 2022;13 View
5. Baranauskas M, Freemas J, Tan R, Carter S. Moving beyond inclusion: Methodological considerations for the menstrual cycle and menopause in research evaluating effects of dietary nitrate on vascular function. Nitric Oxide 2022;118:39 View
6. Lai F, Li X, Wang Q, Luo Y, Wang X, Huang X, Zhang J, Peng J, Wang Q, Fan L, Li W, Huo J, Liu T, Li Y, Lin Y, Yang X. Reliability of Non-Contact Infrared Thermometers for Fever Screening Under COVID-19. Risk Management and Healthcare Policy 2022;Volume 15:447 View
7. Uchida Y, Izumizaki M. The use of wearable devices for predicting biphasic basal body temperature to estimate the date of ovulation in women. Journal of Thermal Biology 2022;108:103290 View
8. B. S. H, K. D, R. C. M, T. G. K, A. P. Novel Technique for Confirmation of the Day of Ovulation and Prediction of Ovulation in Subsequent Cycles Using a Skin-Worn Sensor in a Population With Ovulatory Dysfunction: A Side-by-Side Comparison With Existing Basal Body Temperature Algorithm and Vaginal Core Body Temperature Algorithm. Frontiers in Bioengineering and Biotechnology 2022;10 View
9. Weiss G, Strohmayer K, Koele W, Reinschissler N, Schenk M. Confirmation of human ovulation in assisted reproduction using an adhesive axillary thermometer (femSense®). Frontiers in Digital Health 2022;4 View
10. Grant A, Kriegsfeld L. Continuous body temperature as a window into adolescent development. Developmental Cognitive Neuroscience 2023;60:101221 View
11. Yu J, Su Y, Zhang C, Jin L, Lin X, Chen L, Huang H, Wu Y. Tracking of menstrual cycles and prediction of the fertile window via measurements of basal body temperature and heart rate as well as machine-learning algorithms. Reproductive Biology and Endocrinology 2022;20(1) View
12. Mitratza M, Goodale B, Shagadatova A, Kovacevic V, van de Wijgert J, Brakenhoff T, Dobson R, Franks B, Veen D, Folarin A, Stolk P, Grobbee D, Cronin M, Downward G. The performance of wearable sensors in the detection of SARS-CoV-2 infection: a systematic review. The Lancet Digital Health 2022;4(5):e370 View
13. Arenas-Pareja M, López-Sierra P, Ibáñez S, García-Rubio J. Influence of Menstrual Cycle on Internal and External Load in Professional Women Basketball Players. Healthcare 2023;11(6):822 View
14. Ogidan O, Ogunniyi J, Tedimola A. Development of an Automated Temperature Measuring Device: A Potential Tool for Ovulation Detection. ABUAD Journal of Engineering Research and Development (AJERD) 2023;6(1):13 View
15. Stujenske T, Mu Q, Pérez Capotosto M, Bouchard T. Survey Analysis of Quantitative and Qualitative Menstrual Cycle Tracking Technologies. Medicina 2023;59(9):1509 View
16. Saugar E, Katsoulos S, Kim H, Fakharzadeh N, Schaffer J, Ahmad M, Zeher C, Benedict M, Gupta S, Foster-Moumoutjis G. Factors Used by Mobile Applications to Predict Female Fertility Status and Their Reported Effectiveness: A Scoping Review. Cureus 2023 View
17. Bossung V, Singer A, Ratz T, Rothenbühler M, Leeners B, Kimmich N. Changes in Heart Rate, Heart Rate Variability, Breathing Rate, and Skin Temperature throughout Pregnancy and the Impact of Emotions—A Longitudinal Evaluation Using a Sensor Bracelet. Sensors 2023;23(14):6620 View
18. Lyzwinski L, Elgendi M, Menon C. Innovative Approaches to Menstruation and Fertility Tracking Using Wearable Reproductive Health Technology: Systematic Review. Journal of Medical Internet Research 2024;26:e45139 View
19. Kang J, Bae Y, Chie E, Lee S. Predicting Deterioration from Wearable Sensor Data in People with Mild COVID-19. Sensors 2023;23(23):9597 View
20. Niggli A, Rothenbühler M, Sachs M, Leeners B. Can Wrist-Worn Medical Devices Correctly Identify Ovulation?. Sensors 2023;23(24):9730 View
21. Lang A, Bruhn R, Fehling M, Heidenreich A, Reisdorf J, Khanyaree I, Henningsen M, Remschmidt C. Feasibility Study on Menstrual Cycles With Fitbit Device (FEMFIT): Prospective Observational Cohort Study. JMIR mHealth and uHealth 2024;12:e50135 View
22. Dittmar M, Möllgaard L, Engelhard F. Menstrual cycle phases and dosage of synthetic hormonal contraceptives influence diurnal rhythm characteristics of distal skin temperature. Chronobiology International 2024;41(5):684 View
23. Dutcher E, Epel E, Mason A, Hecht F, Robinson J, Drury S, Prather A. COVID-19 Vaccine Side Effects and Long-Term Neutralizing Antibody Response. Annals of Internal Medicine 2024 View
24. Cromack S, Walter J. Consumer wearables and personal devices for tracking the fertile window. American Journal of Obstetrics and Gynecology 2024 View
25. Sato D, Ikarashi K, Nakajima F, Fujimoto T. Novel Methodology for Identifying the Occurrence of Ovulation by Estimating Core Body Temperature During Sleeping: Validity and Effectiveness Study. JMIR Formative Research 2024;8:e55834 View

Books/Policy Documents

1. Bruinvels G, Pedlar C. Sex Hormones, Exercise and Women. View
2. Zinner C. Individualizing Training Procedures with Wearable Technology. View