Wearable Finger Pulse Oximetry for Continuous Oxygen Saturation Measurements During Daily Home Routines of Patients With Chronic Obstructive Pulmonary Disease (COPD) Over One Week: Observational Study

Joren Buekers; Jan Theunis; Patrick De Boever; Anouk W. Vaes; Maud Koopman; Eefje V. M. Janssen; Ernie F. M. Wouters; Martijn A. Spruit; Jean-Marie Aerts

doi:10.2196/12866

Wearable Finger Pulse Oximetry for Continuous Oxygen Saturation Measurements During Daily Home Routines of Patients With Chronic Obstructive Pulmonary Disease (COPD) Over One Week: Observational Study

Joren Buekers, Jan Theunis, Patrick De Boever, Anouk W. Vaes, Maud Koopman, Eefje V. M. Janssen, Ernie F. M. Wouters, Martijn A. Spruit, Jean-Marie Aerts^*

^*Corresponding author for this work

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

45 Citations (Web of Science)

Abstract

Background: Chronic obstructive pulmonary disease (COPD) patients can suffer from low blood oxygen concentrations. Peripheral blood oxygen saturation (SpO(2)), as assessed by pulse oximetry, is commonly measured during the day using a spot check, or continuously during one or two nights to estimate nocturnal desaturation. Sampling at this frequency may overlook natural fluctuations in SpO(2).

Objective: This study used wearable finger pulse oximeters to continuously measure SpO(2) during daily home routines of COPD patients and assess natural SpO(2) fluctuations.

Methods: A total of 20 COPD patients wore a WristOx(2) pulse oximeter for 1 week to collect continuous SpO(2) measurements. A SenseWear Armband simultaneously collected actigraphy measurements to provide contextual information. SpO(2) time series were preprocessed and data quality was assessed afterward. Mean SpO(2) , SpO(2) SD, and cumulative time spent with SpO(2) below 90% (CT90) were calculated for every (1) day, (2) day in rest, and (3) night to assess SpO(2) fluctuations.

Results: A high percentage of valid SpO(2) data (daytime: 93.27%; nocturnal: 99.31%) could be obtained during a 7-day monitoring period, except during moderate-to-vigorous physical activity (MVPA) (67.86%). Mean nocturnal SpO(2) (89.9%, SD 3.4) was lower than mean daytime SpO(2 )in rest (92.1%, SD 2.9; P

Conclusions: Continuous SpO(2) measurements with wearable finger pulse oximeters identified significant SpO(2 )fluctuations between and within multiple days and nights of patients with COPD. Continuous SpO(2 ) measurements during daily home routines of patients with COPD generally had high amounts of valid data, except for motion artifacts during MVPA. The identified fluctuations can have implications for telemonitoring applications that are based on daily SpO(2) spot checks. CT90 values can vary greatly from night to night in patients with a nocturnal mean SpO(2) around 90%, indicating that these patients cannot be consistently categorized as desaturators or nondesaturators. We recommend using wearable sensors for continuous SpO(2 )measurements over longer time periods to determine the clinical relevance of the identified SpO(2 )fluctuations.

Original language	English
Article number	12866
Number of pages	14
Journal	JMIR mHealth and uHealth
Volume	7
Issue number	6
DOIs	https://doi.org/10.2196/12866
Publication status	Published - 11 Jun 2019

Keywords

COPD
oxygen saturation
finger pulse oximeter
wearable sensor
nocturnal desaturation
telemonitoring
ACUTE EXACERBATIONS
WALK TEST
DESATURATION
SLEEP
HEMODYNAMICS
HYPOXEMIA
VARIABLES
MODERATE
THERAPY
ARMBAND

Access to Document

10.2196/12866Licence: CC BY

Cite this

Buekers, J., Theunis, J., De Boever, P., Vaes, A. W., Koopman, M., Janssen, E. V. M., Wouters, E. F. M., Spruit, M. A., & Aerts, J-M. (2019). Wearable Finger Pulse Oximetry for Continuous Oxygen Saturation Measurements During Daily Home Routines of Patients With Chronic Obstructive Pulmonary Disease (COPD) Over One Week: Observational Study. JMIR mHealth and uHealth, 7(6), Article 12866. https://doi.org/10.2196/12866

@article{2c62f37be35c4f13a37f3e58f223f8a2,

title = "Wearable Finger Pulse Oximetry for Continuous Oxygen Saturation Measurements During Daily Home Routines of Patients With Chronic Obstructive Pulmonary Disease (COPD) Over One Week: Observational Study",

abstract = "Background: Chronic obstructive pulmonary disease (COPD) patients can suffer from low blood oxygen concentrations. Peripheral blood oxygen saturation (SpO(2)), as assessed by pulse oximetry, is commonly measured during the day using a spot check, or continuously during one or two nights to estimate nocturnal desaturation. Sampling at this frequency may overlook natural fluctuations in SpO(2).Objective: This study used wearable finger pulse oximeters to continuously measure SpO(2) during daily home routines of COPD patients and assess natural SpO(2) fluctuations.Methods: A total of 20 COPD patients wore a WristOx(2) pulse oximeter for 1 week to collect continuous SpO(2) measurements. A SenseWear Armband simultaneously collected actigraphy measurements to provide contextual information. SpO(2) time series were preprocessed and data quality was assessed afterward. Mean SpO(2) , SpO(2) SD, and cumulative time spent with SpO(2) below 90% (CT90) were calculated for every (1) day, (2) day in rest, and (3) night to assess SpO(2) fluctuations.Results: A high percentage of valid SpO(2) data (daytime: 93.27%; nocturnal: 99.31%) could be obtained during a 7-day monitoring period, except during moderate-to-vigorous physical activity (MVPA) (67.86%). Mean nocturnal SpO(2) (89.9%, SD 3.4) was lower than mean daytime SpO(2 )in rest (92.1%, SD 2.9; PConclusions: Continuous SpO(2) measurements with wearable finger pulse oximeters identified significant SpO(2 )fluctuations between and within multiple days and nights of patients with COPD. Continuous SpO(2 ) measurements during daily home routines of patients with COPD generally had high amounts of valid data, except for motion artifacts during MVPA. The identified fluctuations can have implications for telemonitoring applications that are based on daily SpO(2) spot checks. CT90 values can vary greatly from night to night in patients with a nocturnal mean SpO(2) around 90%, indicating that these patients cannot be consistently categorized as desaturators or nondesaturators. We recommend using wearable sensors for continuous SpO(2 )measurements over longer time periods to determine the clinical relevance of the identified SpO(2 )fluctuations.",

keywords = "COPD, oxygen saturation, finger pulse oximeter, wearable sensor, nocturnal desaturation, telemonitoring, ACUTE EXACERBATIONS, WALK TEST, DESATURATION, SLEEP, HEMODYNAMICS, HYPOXEMIA, VARIABLES, MODERATE, THERAPY, ARMBAND",

author = "Joren Buekers and Jan Theunis and {De Boever}, Patrick and Vaes, {Anouk W.} and Maud Koopman and Janssen, {Eefje V. M.} and Wouters, {Ernie F. M.} and Spruit, {Martijn A.} and Jean-Marie Aerts",

note = "Funding Information: This research is part of a PhD research project funded by the Flemish Institute for Technological Research (VITO), Mol, Belgium. Publisher Copyright: {\textcopyright} Joren Buekers, Jan Theunis, Patrick De Boever, Anouk W Vaes, Maud Koopman, Eefje VM Janssen, Emiel FM Wouters, Martijn A Spruit, Jean-Marie Aerts.",

year = "2019",

month = jun,

day = "11",

doi = "10.2196/12866",

language = "English",

volume = "7",

journal = "JMIR mHealth and uHealth",

issn = "2291-5222",

publisher = "JMIR Publications Inc.",

number = "6",

}

Buekers, J, Theunis, J, De Boever, P, Vaes, AW, Koopman, M, Janssen, EVM, Wouters, EFM, Spruit, MA & Aerts, J-M 2019, 'Wearable Finger Pulse Oximetry for Continuous Oxygen Saturation Measurements During Daily Home Routines of Patients With Chronic Obstructive Pulmonary Disease (COPD) Over One Week: Observational Study', JMIR mHealth and uHealth, vol. 7, no. 6, 12866. https://doi.org/10.2196/12866

Wearable Finger Pulse Oximetry for Continuous Oxygen Saturation Measurements During Daily Home Routines of Patients With Chronic Obstructive Pulmonary Disease (COPD) Over One Week: Observational Study. / Buekers, Joren; Theunis, Jan; De Boever, Patrick et al.
In: JMIR mHealth and uHealth, Vol. 7, No. 6, 12866, 11.06.2019.

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

TY - JOUR

T1 - Wearable Finger Pulse Oximetry for Continuous Oxygen Saturation Measurements During Daily Home Routines of Patients With Chronic Obstructive Pulmonary Disease (COPD) Over One Week

T2 - Observational Study

AU - Buekers, Joren

AU - Theunis, Jan

AU - De Boever, Patrick

AU - Vaes, Anouk W.

AU - Koopman, Maud

AU - Janssen, Eefje V. M.

AU - Wouters, Ernie F. M.

AU - Spruit, Martijn A.

AU - Aerts, Jean-Marie

N1 - Funding Information: This research is part of a PhD research project funded by the Flemish Institute for Technological Research (VITO), Mol, Belgium. Publisher Copyright: © Joren Buekers, Jan Theunis, Patrick De Boever, Anouk W Vaes, Maud Koopman, Eefje VM Janssen, Emiel FM Wouters, Martijn A Spruit, Jean-Marie Aerts.

PY - 2019/6/11

Y1 - 2019/6/11

N2 - Background: Chronic obstructive pulmonary disease (COPD) patients can suffer from low blood oxygen concentrations. Peripheral blood oxygen saturation (SpO(2)), as assessed by pulse oximetry, is commonly measured during the day using a spot check, or continuously during one or two nights to estimate nocturnal desaturation. Sampling at this frequency may overlook natural fluctuations in SpO(2).Objective: This study used wearable finger pulse oximeters to continuously measure SpO(2) during daily home routines of COPD patients and assess natural SpO(2) fluctuations.Methods: A total of 20 COPD patients wore a WristOx(2) pulse oximeter for 1 week to collect continuous SpO(2) measurements. A SenseWear Armband simultaneously collected actigraphy measurements to provide contextual information. SpO(2) time series were preprocessed and data quality was assessed afterward. Mean SpO(2) , SpO(2) SD, and cumulative time spent with SpO(2) below 90% (CT90) were calculated for every (1) day, (2) day in rest, and (3) night to assess SpO(2) fluctuations.Results: A high percentage of valid SpO(2) data (daytime: 93.27%; nocturnal: 99.31%) could be obtained during a 7-day monitoring period, except during moderate-to-vigorous physical activity (MVPA) (67.86%). Mean nocturnal SpO(2) (89.9%, SD 3.4) was lower than mean daytime SpO(2 )in rest (92.1%, SD 2.9; PConclusions: Continuous SpO(2) measurements with wearable finger pulse oximeters identified significant SpO(2 )fluctuations between and within multiple days and nights of patients with COPD. Continuous SpO(2 ) measurements during daily home routines of patients with COPD generally had high amounts of valid data, except for motion artifacts during MVPA. The identified fluctuations can have implications for telemonitoring applications that are based on daily SpO(2) spot checks. CT90 values can vary greatly from night to night in patients with a nocturnal mean SpO(2) around 90%, indicating that these patients cannot be consistently categorized as desaturators or nondesaturators. We recommend using wearable sensors for continuous SpO(2 )measurements over longer time periods to determine the clinical relevance of the identified SpO(2 )fluctuations.

AB - Background: Chronic obstructive pulmonary disease (COPD) patients can suffer from low blood oxygen concentrations. Peripheral blood oxygen saturation (SpO(2)), as assessed by pulse oximetry, is commonly measured during the day using a spot check, or continuously during one or two nights to estimate nocturnal desaturation. Sampling at this frequency may overlook natural fluctuations in SpO(2).Objective: This study used wearable finger pulse oximeters to continuously measure SpO(2) during daily home routines of COPD patients and assess natural SpO(2) fluctuations.Methods: A total of 20 COPD patients wore a WristOx(2) pulse oximeter for 1 week to collect continuous SpO(2) measurements. A SenseWear Armband simultaneously collected actigraphy measurements to provide contextual information. SpO(2) time series were preprocessed and data quality was assessed afterward. Mean SpO(2) , SpO(2) SD, and cumulative time spent with SpO(2) below 90% (CT90) were calculated for every (1) day, (2) day in rest, and (3) night to assess SpO(2) fluctuations.Results: A high percentage of valid SpO(2) data (daytime: 93.27%; nocturnal: 99.31%) could be obtained during a 7-day monitoring period, except during moderate-to-vigorous physical activity (MVPA) (67.86%). Mean nocturnal SpO(2) (89.9%, SD 3.4) was lower than mean daytime SpO(2 )in rest (92.1%, SD 2.9; PConclusions: Continuous SpO(2) measurements with wearable finger pulse oximeters identified significant SpO(2 )fluctuations between and within multiple days and nights of patients with COPD. Continuous SpO(2 ) measurements during daily home routines of patients with COPD generally had high amounts of valid data, except for motion artifacts during MVPA. The identified fluctuations can have implications for telemonitoring applications that are based on daily SpO(2) spot checks. CT90 values can vary greatly from night to night in patients with a nocturnal mean SpO(2) around 90%, indicating that these patients cannot be consistently categorized as desaturators or nondesaturators. We recommend using wearable sensors for continuous SpO(2 )measurements over longer time periods to determine the clinical relevance of the identified SpO(2 )fluctuations.

KW - COPD

KW - oxygen saturation

KW - finger pulse oximeter

KW - wearable sensor

KW - nocturnal desaturation

KW - telemonitoring

KW - ACUTE EXACERBATIONS

KW - WALK TEST

KW - DESATURATION

KW - SLEEP

KW - HEMODYNAMICS

KW - HYPOXEMIA

KW - VARIABLES

KW - MODERATE

KW - THERAPY

KW - ARMBAND

U2 - 10.2196/12866

DO - 10.2196/12866

M3 - Article

C2 - 31199331

SN - 2291-5222

VL - 7

JO - JMIR mHealth and uHealth

JF - JMIR mHealth and uHealth

IS - 6

M1 - 12866

ER -