Elgendi M; Norton I; Brearley, Matt; Fletcher RR; Abbott D; Lovell NH; Schuurmans D

Author(s)

Elgendi M

Norton I

Brearley, Matt

Fletcher RR

Abbott D

Lovell NH

Schuurmans D

Publication Date

2015-10-14

Abstract

Recent clinical studies show that the contour of the photoplethysmogram (PPG) wave contains valuable information for characterizing cardiovascular activity. However, analyzing the PPG wave contour is difficult; therefore, researchers have applied first or higher order derivatives to emphasize and conveniently quantify subtle changes in the filtered PPG contour. Our hypothesis is that analyzing the whole PPG recording rather than each PPG wave contour or on a beat-by-beat basis can detect heat-stressed subjects and that, consequently, we will be able to investigate the impact of global warming on human health. Here, we explore the most suitable derivative order for heat stress assessment based on the energy and entropy of the whole PPG recording. The results of our study indicate that the use Int. J. Environ. Res. Public Health 2015, 7 12777 of the entropy of the seventh derivative of the filtered PPG signal shows promising results in detecting heat stress using 20-second recordings, with an overall accuracy of 71.6%. Moreover, the combination of the entropy of the seventh derivative of the filtered PPG signal with the root mean square of successive differences, or RMSSD (a traditional heart rate variability index of heat stress), improved the detection of heat stress to 88.9% accuracy.

Citation

Int J Environ Res Public Health . 2015 Oct 14;12(10):12776-91. doi: 10.3390/ijerph121012776.

Pubmed ID

https://pubmed.ncbi.nlm.nih.gov/26473907/?otool=iaurydwlib

Link

https://hdl.handle.net/10137/5425

Subject

affordable healthcare

exercise

hot environment

photoplethysmography

MESH subject

Adult

Female

Healthy Volunteers

Heat Stress Disorders

Humans

Male

Global Warming

Heart Rate

Photoplethysmography

Title

Towards Investigating Global Warming Impact on Human Health Using Derivatives of Photoplethysmogram Signals.

Type of document

Journal Article

Entity Type

Publication

Author(s)	Elgendi M Norton I Brearley, Matt Fletcher RR Abbott D Lovell NH Schuurmans D
Publication Date	2015-10-14
Abstract	Recent clinical studies show that the contour of the photoplethysmogram (PPG) wave contains valuable information for characterizing cardiovascular activity. However, analyzing the PPG wave contour is difficult; therefore, researchers have applied first or higher order derivatives to emphasize and conveniently quantify subtle changes in the filtered PPG contour. Our hypothesis is that analyzing the whole PPG recording rather than each PPG wave contour or on a beat-by-beat basis can detect heat-stressed subjects and that, consequently, we will be able to investigate the impact of global warming on human health. Here, we explore the most suitable derivative order for heat stress assessment based on the energy and entropy of the whole PPG recording. The results of our study indicate that the use Int. J. Environ. Res. Public Health 2015, 7 12777 of the entropy of the seventh derivative of the filtered PPG signal shows promising results in detecting heat stress using 20-second recordings, with an overall accuracy of 71.6%. Moreover, the combination of the entropy of the seventh derivative of the filtered PPG signal with the root mean square of successive differences, or RMSSD (a traditional heart rate variability index of heat stress), improved the detection of heat stress to 88.9% accuracy.
Citation	Int J Environ Res Public Health . 2015 Oct 14;12(10):12776-91. doi: 10.3390/ijerph121012776.
Pubmed ID	https://pubmed.ncbi.nlm.nih.gov/26473907/?otool=iaurydwlib
Link	https://hdl.handle.net/10137/5425
Subject	affordable healthcare exercise hot environment photoplethysmography
MESH subject	Adult Female Healthy Volunteers Heat Stress Disorders Humans Male Global Warming Heart Rate Photoplethysmography
Title	Towards Investigating Global Warming Impact on Human Health Using Derivatives of Photoplethysmogram Signals.
Type of document	Journal Article
Entity Type	Publication

Towards Investigating Global Warming Impact on Human Health Using Derivatives of Photoplethysmogram Signals.

Files: