Removing the thermal component from heart rate provides an accurate V ˙O2 estimation in forest work

Philippe Antoine Dubé; Daniel Imbeau; Denise Dubeau; Luc Lebel; Ahmet Kolus

doi:10.1016/j.apergo.2015.12.005

Removing the thermal component from heart rate provides an accurate V ˙O2 estimation in forest work

Philippe Antoine Dubé^*
, Daniel Imbeau
, Denise Dubeau
, Luc Lebel
, Ahmet Kolus

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

Heart rate (HR) was monitored continuously in 41 forest workers performing brushcutting or tree planting work. 10-min seated rest periods were imposed during the workday to estimate the HR thermal component (δHR_T) per Vogt et al. (1970, 1973). V ˙O2 was measured using a portable gas analyzer during a morning submaximal step-test conducted at the work site, during a work bout over the course of the day (range: 9-74 min), and during an ensuing 10-min rest pause taken at the worksite. The V ˙O2 estimated, from measured HR and from corrected HR (thermal component removed), were compared to V ˙O2 measured during work and rest. Varied levels of HR thermal component (δHR_Tavg range: 0-38 bpm) originating from a wide range of ambient thermal conditions, thermal clothing insulation worn, and physical load exerted during work were observed. Using raw HR significantly overestimated measured work V ˙O2 by 30% on average (range: 1%-64%). 74% of V ˙O2 prediction error variance was explained by the HR thermal component. V ˙O2 estimated from corrected HR, was not statistically different from measured V ˙O2. Work V ˙O2 can be estimated accurately in the presence of thermal stress using Vogt et al.'s method, which can be implemented easily by the practitioner with inexpensive instruments.

Original language	English
Pages (from-to)	148-157
Number of pages	10
Journal	Applied Ergonomics
Volume	54
DOIs	https://doi.org/10.1016/j.apergo.2015.12.005
State	Published - 1 May 2016
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2015 Elsevier Ltd and The Ergonomics Society.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 15 Life on Land

Keywords

Heart rate
Heat stress
Prediction bias
Work metabolism

ASJC Scopus subject areas

Human Factors and Ergonomics
Physical Therapy, Sports Therapy and Rehabilitation
Safety, Risk, Reliability and Quality
Engineering (miscellaneous)

Access to Document

10.1016/j.apergo.2015.12.005

Cite this

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title = "Removing the thermal component from heart rate provides an accurate V ˙O2 estimation in forest work",

abstract = "Heart rate (HR) was monitored continuously in 41 forest workers performing brushcutting or tree planting work. 10-min seated rest periods were imposed during the workday to estimate the HR thermal component (δHRT) per Vogt et al. (1970, 1973). V ˙O2 was measured using a portable gas analyzer during a morning submaximal step-test conducted at the work site, during a work bout over the course of the day (range: 9-74 min), and during an ensuing 10-min rest pause taken at the worksite. The V ˙O2 estimated, from measured HR and from corrected HR (thermal component removed), were compared to V ˙O2 measured during work and rest. Varied levels of HR thermal component (δHRTavg range: 0-38 bpm) originating from a wide range of ambient thermal conditions, thermal clothing insulation worn, and physical load exerted during work were observed. Using raw HR significantly overestimated measured work V ˙O2 by 30\% on average (range: 1\%-64\%). 74\% of V ˙O2 prediction error variance was explained by the HR thermal component. V ˙O2 estimated from corrected HR, was not statistically different from measured V ˙O2. Work V ˙O2 can be estimated accurately in the presence of thermal stress using Vogt et al.'s method, which can be implemented easily by the practitioner with inexpensive instruments.",

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doi = "10.1016/j.apergo.2015.12.005",

language = "English",

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AU - Dubé, Philippe Antoine

AU - Imbeau, Daniel

AU - Dubeau, Denise

AU - Lebel, Luc

AU - Kolus, Ahmet

PY - 2016/5/1

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N2 - Heart rate (HR) was monitored continuously in 41 forest workers performing brushcutting or tree planting work. 10-min seated rest periods were imposed during the workday to estimate the HR thermal component (δHRT) per Vogt et al. (1970, 1973). V ˙O2 was measured using a portable gas analyzer during a morning submaximal step-test conducted at the work site, during a work bout over the course of the day (range: 9-74 min), and during an ensuing 10-min rest pause taken at the worksite. The V ˙O2 estimated, from measured HR and from corrected HR (thermal component removed), were compared to V ˙O2 measured during work and rest. Varied levels of HR thermal component (δHRTavg range: 0-38 bpm) originating from a wide range of ambient thermal conditions, thermal clothing insulation worn, and physical load exerted during work were observed. Using raw HR significantly overestimated measured work V ˙O2 by 30% on average (range: 1%-64%). 74% of V ˙O2 prediction error variance was explained by the HR thermal component. V ˙O2 estimated from corrected HR, was not statistically different from measured V ˙O2. Work V ˙O2 can be estimated accurately in the presence of thermal stress using Vogt et al.'s method, which can be implemented easily by the practitioner with inexpensive instruments.

AB - Heart rate (HR) was monitored continuously in 41 forest workers performing brushcutting or tree planting work. 10-min seated rest periods were imposed during the workday to estimate the HR thermal component (δHRT) per Vogt et al. (1970, 1973). V ˙O2 was measured using a portable gas analyzer during a morning submaximal step-test conducted at the work site, during a work bout over the course of the day (range: 9-74 min), and during an ensuing 10-min rest pause taken at the worksite. The V ˙O2 estimated, from measured HR and from corrected HR (thermal component removed), were compared to V ˙O2 measured during work and rest. Varied levels of HR thermal component (δHRTavg range: 0-38 bpm) originating from a wide range of ambient thermal conditions, thermal clothing insulation worn, and physical load exerted during work were observed. Using raw HR significantly overestimated measured work V ˙O2 by 30% on average (range: 1%-64%). 74% of V ˙O2 prediction error variance was explained by the HR thermal component. V ˙O2 estimated from corrected HR, was not statistically different from measured V ˙O2. Work V ˙O2 can be estimated accurately in the presence of thermal stress using Vogt et al.'s method, which can be implemented easily by the practitioner with inexpensive instruments.

KW - Heart rate

KW - Heat stress

KW - Prediction bias

KW - Work metabolism

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ER -

Removing the thermal component from heart rate provides an accurate V ˙O2 estimation in forest work

Abstract

Bibliographical note

UN SDGs

Keywords

ASJC Scopus subject areas

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Cite this