Published on in Vol 7, No 6 (2019): June

Preprints (earlier versions) of this paper are available at https://preprints.jmir.org/preprint/13327, first published .
Estimating Maximal Oxygen Uptake From Daily Activity Data Measured by a Watch-Type Fitness Tracker: Cross-Sectional Study

Estimating Maximal Oxygen Uptake From Daily Activity Data Measured by a Watch-Type Fitness Tracker: Cross-Sectional Study

Estimating Maximal Oxygen Uptake From Daily Activity Data Measured by a Watch-Type Fitness Tracker: Cross-Sectional Study

Journals

  1. Bonomi A, ten Hoor G, de Morree H, Plasqui G, Sartor F. Cardiorespiratory fitness estimation from heart rate and body movement in daily life. Journal of Applied Physiology 2020;128(3):493 View
  2. Ahmed I. COVID-19 – does exercise prescription and maximal oxygen uptake (VO2 max) have a role in risk-stratifying patients?. Clinical Medicine 2020;20(3):282 View
  3. Pardamean B, Soeparno H, Budiarto A, Mahesworo B, Baurley J. Quantified Self-Using Consumer Wearable Device: Predicting Physical and Mental Health. Healthcare Informatics Research 2020;26(2):83 View
  4. Matsuo T, So R, Takahashi M. Workers’ physical activity data contribute to estimating maximal oxygen consumption: a questionnaire study to concurrently assess workers’ sedentary behavior and cardiorespiratory fitness. BMC Public Health 2020;20(1) View
  5. GAO W, ZHENG P, PAN J, FANG H, KAN J, CHEN Q. Prediction of V̇O2max based on a 3-kilometer running test for water sports athletes. The Journal of Sports Medicine and Physical Fitness 2021;61(4) View
  6. Eades M, Tsanas A, Juraschek S, Kramer D, Gervino E, Mukamal K. Smartphone-recorded physical activity for estimating cardiorespiratory fitness. Scientific Reports 2021;11(1) View

Books/Policy Documents

  1. P. Ori Z. Type 2 Diabetes [Working Title]. View