Published on in Vol 5, No 8 (2021): August

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/28568, first published .
Physiologic Response to the Pfizer-BioNTech COVID-19 Vaccine Measured Using Wearable Devices: Prospective Observational Study

Physiologic Response to the Pfizer-BioNTech COVID-19 Vaccine Measured Using Wearable Devices: Prospective Observational Study

Physiologic Response to the Pfizer-BioNTech COVID-19 Vaccine Measured Using Wearable Devices: Prospective Observational Study

Journals

  1. Kwon C, Lee B. Impact of COVID-19 Vaccination on Heart Rate Variability: A Systematic Review. Vaccines 2022;10(12):2095 View
  2. Mason A, Kasl P, Hartogensis W, Natale J, Dilchert S, Dasgupta S, Purawat S, Chowdhary A, Anglo C, Veasna D, Pandya L, Fox L, Puldon K, Prather J, Gupta A, Altintas I, Smarr B, Hecht F. Metrics from Wearable Devices as Candidate Predictors of Antibody Response Following Vaccination against COVID-19: Data from the Second TemPredict Study. Vaccines 2022;10(2):264 View
  3. Li X, Gao L, Tong X, Chan V, Chui C, Lai F, Wong C, Wan E, Chan E, Lau K, Lau C, Wong I. Autoimmune conditions following mRNA (BNT162b2) and inactivated (CoronaVac) COVID-19 vaccination: A descriptive cohort study among 1.1 million vaccinated people in Hong Kong. Journal of Autoimmunity 2022;130:102830 View
  4. Park S, Suh Y. A Comprehensive Analysis of COVID-19 Vaccine Discourse by Vaccine Brand on Twitter in Korea: Topic and Sentiment Analysis. Journal of Medical Internet Research 2023;25:e42623 View
  5. Gepner Y, Mofaz M, Oved S, Yechezkel M, Constantini K, Goldstein N, Eisenkraft A, Shmueli E, Yamin D. Utilizing wearable sensors for continuous and highly-sensitive monitoring of reactions to the BNT162b2 mRNA COVID-19 vaccine. Communications Medicine 2022;2(1) View
  6. Mofaz M, Yechezkel M, Guan G, Brandeau M, Patalon T, Gazit S, Yamin D, Shmueli E. Self-Reported and Physiologic Reactions to Third BNT162b2 mRNA COVID-19 (Booster) Vaccine Dose. Emerging Infectious Diseases 2022;28(7):1375 View
  7. McLachlan C, Truong H. A Narrative Review of Commercial Platforms Offering Tracking of Heart Rate Variability in Corporate Employees to Detect and Manage Stress. Journal of Cardiovascular Development and Disease 2023;10(4):141 View
  8. Kerkutluoglu M, Gunes H, Iyigun U, Dagli M, Doganer A. Is the Effect of the COVID-19 Vaccine on Heart Rate Variability Permanent?. Medicina 2023;59(5):852 View
  9. Wong K, Kuo C, Tzeng I, Hsu C, Wu C. The COVIDTW2 study: Role of COVID-19 vaccination in intubated patients with COVID-19-related acute respiratory distress syndrome in Taiwan. Journal of Infection and Chemotherapy 2024;30(5):393 View
  10. Kılıç A, Amil B, Enginar H, Yaghouti L, Mert A, Ağargün M. The Effect of COVID-19 Vaccines on Sleep Quality in the Adult Population: A Comparative Study. Sleep and Vigilance 2023;7(2):159 View
  11. Rastmanesh R, Krishnia L, Kashyap M. The Influence of COVID-19 in Endocrine Research: Critical Overview, Methodological Implications and a Guideline for Future Designs. Clinical Medicine Insights: Endocrinology and Diabetes 2023;16 View
  12. Izuhara M, Matsui K, Yoshiike T, Kawamura A, Utsumi T, Nagao K, Tsuru A, Otsuki R, Kitamura S, Kuriyama K. Association between sleep duration and antibody acquisition after mRNA vaccination against SARS-CoV-2. Frontiers in Immunology 2023;14 View
  13. Pho G, Thigpen N, Patel S, Tily H. Feasibility of Measuring Physiological Responses to Breakthrough Infections and COVID-19 Vaccine Using a Wearable Ring Sensor. Digital Biomarkers 2023:1 View
  14. Levi Y, Brandeau M, Shmueli E, Yamin D. Prediction and detection of side effects severity following COVID-19 and influenza vaccinations: utilizing smartwatches and smartphones. Scientific Reports 2024;14(1) View
  15. Addleman J, Lackey N, DeBlauw J, Hajduczok A. Heart Rate Variability Applications in Strength and Conditioning: A Narrative Review. Journal of Functional Morphology and Kinesiology 2024;9(2):93 View