TY - JOUR
T1 - Simple prediction of metabolic equivalents of daily activities using heart rate monitor without calibration of individuals
AU - Caballero, Yuko
AU - Ando, Takafumi J.
AU - Nakae, Satoshi
AU - Usui, Chiyoko
AU - Aoyama, Tomoko
AU - Nakanishi, Motofumi
AU - Nagayoshi, Sho
AU - Fujiwara, Yoko
AU - Tanaka, Shigeho
N1 - Funding Information:
This research was funded by OMRON Healthcare Co., Ltd.
Publisher Copyright:
© 2019 by the authors. Licensee MDPI, Basel, Switzerland.
PY - 2020/1
Y1 - 2020/1
N2 - Background: Heart rate (HR) during physical activity is strongly affected by the level of physical fitness. Therefore, to assess the effects of fitness, we developed predictive equations to estimate the metabolic equivalent (MET) of daily activities, which includes low intensity activities, by % HR reserve (%HRR), resting HR, and multiple physical characteristics. Methods: Forty volunteers between the ages of 21 and 55 performed 20 types of daily activities while recording HR and sampling expired gas to evaluate METs values. Multiple regression analysis was performed to develop prediction models of METs with seven potential predictors, such as %HRR, resting HR, and sex. The contributing parameters were selected based on the brute force method. Additionally, leave-one-out method was performed to validate the prediction models. Results: %HRR, resting HR, sex, and height were selected as the independent variables. %HRR showed the highest contribution in the model, while the other variables exhibited small variances. METs were estimated within a 17.3% difference for each activity, with large differences in document arrangement while sitting (+17%), ascending stairs (−8%), and descending stairs (+8%). Conclusions: The results showed that %HRR is a strong predictor for estimating the METs of daily activities. Resting HR and other variables were mild contributors. (201 words).
AB - Background: Heart rate (HR) during physical activity is strongly affected by the level of physical fitness. Therefore, to assess the effects of fitness, we developed predictive equations to estimate the metabolic equivalent (MET) of daily activities, which includes low intensity activities, by % HR reserve (%HRR), resting HR, and multiple physical characteristics. Methods: Forty volunteers between the ages of 21 and 55 performed 20 types of daily activities while recording HR and sampling expired gas to evaluate METs values. Multiple regression analysis was performed to develop prediction models of METs with seven potential predictors, such as %HRR, resting HR, and sex. The contributing parameters were selected based on the brute force method. Additionally, leave-one-out method was performed to validate the prediction models. Results: %HRR, resting HR, sex, and height were selected as the independent variables. %HRR showed the highest contribution in the model, while the other variables exhibited small variances. METs were estimated within a 17.3% difference for each activity, with large differences in document arrangement while sitting (+17%), ascending stairs (−8%), and descending stairs (+8%). Conclusions: The results showed that %HRR is a strong predictor for estimating the METs of daily activities. Resting HR and other variables were mild contributors. (201 words).
KW - %heart rate reserve
KW - Leave-one-out method
KW - Physical activity intensity
KW - Physical fitness
KW - Resting heart rate
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U2 - 10.3390/ijerph17010216
DO - 10.3390/ijerph17010216
M3 - Article
C2 - 31892255
AN - SCOPUS:85077338111
SN - 1661-7827
VL - 17
JO - International journal of environmental research and public health
JF - International journal of environmental research and public health
IS - 1
M1 - 216
ER -