TY - JOUR
T1 - Instantaneous VO2 from a wearable device
AU - Cook, Andrew J.
AU - Ng, Ben
AU - Gargiulo, Gaetano D.
AU - Hindmarsh, Diane
AU - Pitney, Mark
AU - Lehmann, Torsten
AU - Hamilton, Tara Julia
N1 - Publisher Copyright:
© 2018 IPEM
PY - 2018/2
Y1 - 2018/2
N2 - We present a method for calculating instantaneous oxygen uptake (VO2) through the use of a non-invasive and non-obtrusive (i.e. without a face mask) wearable device, together with its clinical evaluation against a standard technique based upon expired gas calorimetry. This method can be integrated with existing wearable devices, we implemented it in the "Device for Reliable Energy Expenditure Monitoring" (DREEM). The DREEM comprises a single lead electrocardiogram (ECG) device combined with a tri-axial accelerometer and is worn around the waist. Our clinical evaluation tests the developed method against a gold standard for VO2, expired gas calorimetry, using an ethically approved protocol comprising active exercise and sedentary periods. The study was performed on 42 participants from a wide sample population including healthy people, athletes and an at-risk health group including persons affected by obesity. We developed an algorithm combining heart rate (HR) and the integral of absolute acceleration (IAA), with results showing a correlation of r = 0.93 for instantaneous VO2, and r = 0.97 for 3 min mean VO2, this is a considerably improved estimation of VO2 in comparison to methods utilising HR and IAA independently.
AB - We present a method for calculating instantaneous oxygen uptake (VO2) through the use of a non-invasive and non-obtrusive (i.e. without a face mask) wearable device, together with its clinical evaluation against a standard technique based upon expired gas calorimetry. This method can be integrated with existing wearable devices, we implemented it in the "Device for Reliable Energy Expenditure Monitoring" (DREEM). The DREEM comprises a single lead electrocardiogram (ECG) device combined with a tri-axial accelerometer and is worn around the waist. Our clinical evaluation tests the developed method against a gold standard for VO2, expired gas calorimetry, using an ethically approved protocol comprising active exercise and sedentary periods. The study was performed on 42 participants from a wide sample population including healthy people, athletes and an at-risk health group including persons affected by obesity. We developed an algorithm combining heart rate (HR) and the integral of absolute acceleration (IAA), with results showing a correlation of r = 0.93 for instantaneous VO2, and r = 0.97 for 3 min mean VO2, this is a considerably improved estimation of VO2 in comparison to methods utilising HR and IAA independently.
KW - cardiovascular fitness
KW - exercise
KW - oxygen in the body
KW - wearable technology
UR - http://handle.westernsydney.edu.au:8081/1959.7/uws:45437
U2 - 10.1016/j.medengphy.2017.12.008
DO - 10.1016/j.medengphy.2017.12.008
M3 - Article
C2 - 29373233
SN - 1350-4533
VL - 52
SP - 41
EP - 48
JO - Medical Engineering and Physics
JF - Medical Engineering and Physics
ER -
