JMIR Medical Informatics (Dec 2021)

Prediction Algorithms for Blood Pressure Based on Pulse Wave Velocity Using Health Checkup Data in Healthy Korean Men: Algorithm Development and Validation

  • Dohyun Park,
  • Soo Jin Cho,
  • Kyunga Kim,
  • Hyunki Woo,
  • Jee Eun Kim,
  • Jin-Young Lee,
  • Janghyun Koh,
  • JeanHyoung Lee,
  • Jong Soo Choi,
  • Dong Kyung Chang,
  • Yoon-Ho Choi,
  • Ji In Chung,
  • Won Chul Cha,
  • Ok Soon Jeong,
  • Se Yong Jekal,
  • Mira Kang

DOI
https://doi.org/10.2196/29212
Journal volume & issue
Vol. 9, no. 12
p. e29212

Abstract

Read online

BackgroundPulse transit time and pulse wave velocity (PWV) are related to blood pressure (BP), and there were continuous attempts to use these to predict BP through wearable devices. However, previous studies were conducted on a small scale and could not confirm the relative importance of each variable in predicting BP. ObjectiveThis study aims to predict systolic blood pressure and diastolic blood pressure based on PWV and to evaluate the relative importance of each clinical variable used in BP prediction models. MethodsThis study was conducted on 1362 healthy men older than 18 years who visited the Samsung Medical Center. The systolic blood pressure and diastolic blood pressure were estimated using the multiple linear regression method. Models were divided into two groups based on age: younger than 60 years and 60 years or older; 200 seeds were repeated in consideration of partition bias. Mean of error, absolute error, and root mean square error were used as performance metrics. ResultsThe model divided into two age groups (younger than 60 years and 60 years and older) performed better than the model without division. The performance difference between the model using only three variables (PWV, BMI, age) and the model using 17 variables was not significant. Our final model using PWV, BMI, and age met the criteria presented by the American Association for the Advancement of Medical Instrumentation. The prediction errors were within the range of about 9 to 12 mmHg that can occur with a gold standard mercury sphygmomanometer. ConclusionsDividing age based on the age of 60 years showed better BP prediction performance, and it could show good performance even if only PWV, BMI, and age variables were included. Our final model with the minimal number of variables (PWB, BMI, age) would be efficient and feasible for predicting BP.