TY - JOUR
T1 - Metabolic rate monitoring and energy expenditure prediction using a novel actigraphy method
AU - Moran, Daniel S.
AU - Heled, Yuval
AU - Gonzalez, Richard R.
PY - 2004/11
Y1 - 2004/11
N2 - Background: A novel actigraphy method, the proportional integral mode, was used for monitoring metabolic rate and energy expenditure during different levels of exercise intensity. Materials/Methods: 13 young (24±3yrs) male subjects, clothed in T-shirts, shorts and athletic shoes, ran/walked for 30 min on a level treadmill at different speeds (3, 5, 2, 6, 4, and 7 mph), 5 min at each speed. The following variables were continuously measured: Actigraphy (PCD, USA) data at three different modes (proportional integral mode, zero crossing, and time above threshold) from the wrist; oxygen consumption (Sensor Medics, USA), and heart rate (Polar, Finland). Results: Analysis of the measured data revealed with low correlation between oxygen consumption and zero crossing or time above threshold (R=0.364 and 0.384, respectively), but with high correlation between oxygen consumption and proportional integral mode (R=0.843). Conclusions: The proportional integral mode, which is unlike the other modes, followed the oxygen consumption and the heart rate curves, showing a potential unique method to predict oxygen consumption and energy expenditure.
AB - Background: A novel actigraphy method, the proportional integral mode, was used for monitoring metabolic rate and energy expenditure during different levels of exercise intensity. Materials/Methods: 13 young (24±3yrs) male subjects, clothed in T-shirts, shorts and athletic shoes, ran/walked for 30 min on a level treadmill at different speeds (3, 5, 2, 6, 4, and 7 mph), 5 min at each speed. The following variables were continuously measured: Actigraphy (PCD, USA) data at three different modes (proportional integral mode, zero crossing, and time above threshold) from the wrist; oxygen consumption (Sensor Medics, USA), and heart rate (Polar, Finland). Results: Analysis of the measured data revealed with low correlation between oxygen consumption and zero crossing or time above threshold (R=0.364 and 0.384, respectively), but with high correlation between oxygen consumption and proportional integral mode (R=0.843). Conclusions: The proportional integral mode, which is unlike the other modes, followed the oxygen consumption and the heart rate curves, showing a potential unique method to predict oxygen consumption and energy expenditure.
KW - Heart rate
KW - Oxygen uptake
KW - Physical activity
UR - http://www.scopus.com/inward/record.url?scp=9144224926&partnerID=8YFLogxK
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C2 - 15507861
AN - SCOPUS:9144224926
SN - 1234-1010
VL - 10
SP - MT117-MT120
JO - Medical Science Monitor
JF - Medical Science Monitor
IS - 11
ER -