Performance of wearable watch-type home blood pressure measurement devices in a real-world clinical sample

Mattia Lunardi; Farooq Muhammad; Atif Shahzad; Asma Nadeem; Lisa Combe; Andrew J. Simpkin; Faisal Sharif; William Wijns; John W. McEvoy

doi:10.1007/s00392-023-02353-7

Performance of wearable watch-type home blood pressure measurement devices in a real-world clinical sample

Mattia Lunardi, Farooq Muhammad, Atif Shahzad, Asma Nadeem, Lisa Combe, Andrew J. Simpkin, Faisal Sharif, William Wijns, John W. McEvoy^*

^*Corresponding author for this work

Metabolism and Systems Research

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

Abstract

Background: Independent testing of home blood pressure (BP) measurement (HBPM) devices is often lacking, particularly among older and multi-morbid patients.

Methods: We studied the Bpro G2 (using tonometry), Omron HeartGuide (using occlusive oscillometric technology), and Heartisans (using photoplethysmography) wrist watch HBPM devices against a gold standard brachial sphygmomanometer. To test device performance, we used the ISO81060-2 protocol (though this protocol cannot formally validate cuffless devices). We also used linear mixed models to compare adjusted longitudinal BP measurements between devices. Finally, as a surrogate for usability, we recorded instances of device failure where no BP measurement was returned.

Results: We enrolled 128 participants (median [Q1–Q3] age 53 [40–65] years, 51% male, 46% on antihypertensive drugs), of whom 100 were suitable for the primary analysis. All three devices had mean BP values within 5 mmHg of sphygmomanometry. However, due to insufficient reliability (e.g., wider than accepted standard deviations of mean BP), none of the three devices passed all criteria required by the ISO81060-2 protocol. In adjusted longitudinal analyses, the Omron device also systematically underestimated systolic and diastolic BP (− 8.46 mmHg; 95% CI 6.07, 10.86; p < 0.001; and − 2.53 mmHg; 95% CI − 4.03, − 1.03; p = 0.001; respectively). Nevertheless, compared to the Omron device, BPro and Heartisans devices had increased odds of failure (BPro: odds ratio [OR] 5.24; p < 0.0001; Heartisans: OR 5.61; p < 0.001).

Conclusions: While we could not formally validate the cuffless devices, our results show that wearable technologies will require improvements to offer reliable BP assessment. This study also highlights the need for validation protocols specifically designed for cuffless BP measurement technologies. Graphical abstract: [Figure not available: see fulltext.].

Original language	English
Journal	Clinical Research in Cardiology
Early online date	19 Dec 2023
DOIs	https://doi.org/10.1007/s00392-023-02353-7
Publication status	E-pub ahead of print - 19 Dec 2023

Bibliographical note

Funding Information:
W. Wijns has received honoraria and institutional research grant from MicroPort (TARGET AC trial); he is a medical advisor to Rede Optimus Research and Corrib Core Laboratory; and co-founder Argonauts, an innovation facilitator. Other authors have no disclosures.

This work is funded by a Science Foundation Ireland Research Professorship Award to W. Wijns (15/RP/2765). A. Simpkin is funded through Science Foundation Ireland grant 19/FFP/7002.

Publisher Copyright:
© 2023, The Author(s), under exclusive licence to Springer-Verlag GmbH Germany.

Keywords

Blood pressure
Hypertension
Monitoring
Wearable blood pressure watches

ASJC Scopus subject areas

Cardiology and Cardiovascular Medicine

Access to Document

10.1007/s00392-023-02353-7

Cite this

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title = "Performance of wearable watch-type home blood pressure measurement devices in a real-world clinical sample",

abstract = "Background: Independent testing of home blood pressure (BP) measurement (HBPM) devices is often lacking, particularly among older and multi-morbid patients. Methods: We studied the Bpro G2 (using tonometry), Omron HeartGuide (using occlusive oscillometric technology), and Heartisans (using photoplethysmography) wrist watch HBPM devices against a gold standard brachial sphygmomanometer. To test device performance, we used the ISO81060-2 protocol (though this protocol cannot formally validate cuffless devices). We also used linear mixed models to compare adjusted longitudinal BP measurements between devices. Finally, as a surrogate for usability, we recorded instances of device failure where no BP measurement was returned. Results: We enrolled 128 participants (median [Q1–Q3] age 53 [40–65] years, 51% male, 46% on antihypertensive drugs), of whom 100 were suitable for the primary analysis. All three devices had mean BP values within 5 mmHg of sphygmomanometry. However, due to insufficient reliability (e.g., wider than accepted standard deviations of mean BP), none of the three devices passed all criteria required by the ISO81060-2 protocol. In adjusted longitudinal analyses, the Omron device also systematically underestimated systolic and diastolic BP (− 8.46 mmHg; 95% CI 6.07, 10.86; p < 0.001; and − 2.53 mmHg; 95% CI − 4.03, − 1.03; p = 0.001; respectively). Nevertheless, compared to the Omron device, BPro and Heartisans devices had increased odds of failure (BPro: odds ratio [OR] 5.24; p < 0.0001; Heartisans: OR 5.61; p < 0.001). Conclusions: While we could not formally validate the cuffless devices, our results show that wearable technologies will require improvements to offer reliable BP assessment. This study also highlights the need for validation protocols specifically designed for cuffless BP measurement technologies. Graphical abstract: [Figure not available: see fulltext.].",

keywords = "Blood pressure, Hypertension, Monitoring, Wearable blood pressure watches",

author = "Mattia Lunardi and Farooq Muhammad and Atif Shahzad and Asma Nadeem and Lisa Combe and Simpkin, {Andrew J.} and Faisal Sharif and William Wijns and McEvoy, {John W.}",

note = "Funding Information: W. Wijns has received honoraria and institutional research grant from MicroPort (TARGET AC trial); he is a medical advisor to Rede Optimus Research and Corrib Core Laboratory; and co-founder Argonauts, an innovation facilitator. Other authors have no disclosures. This work is funded by a Science Foundation Ireland Research Professorship Award to W. Wijns (15/RP/2765). A. Simpkin is funded through Science Foundation Ireland grant 19/FFP/7002. Publisher Copyright: {\textcopyright} 2023, The Author(s), under exclusive licence to Springer-Verlag GmbH Germany.",

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AU - Lunardi, Mattia

AU - Muhammad, Farooq

AU - Shahzad, Atif

AU - Nadeem, Asma

AU - Combe, Lisa

AU - Simpkin, Andrew J.

AU - Sharif, Faisal

AU - Wijns, William

AU - McEvoy, John W.

N1 - Funding Information: W. Wijns has received honoraria and institutional research grant from MicroPort (TARGET AC trial); he is a medical advisor to Rede Optimus Research and Corrib Core Laboratory; and co-founder Argonauts, an innovation facilitator. Other authors have no disclosures. This work is funded by a Science Foundation Ireland Research Professorship Award to W. Wijns (15/RP/2765). A. Simpkin is funded through Science Foundation Ireland grant 19/FFP/7002. Publisher Copyright: © 2023, The Author(s), under exclusive licence to Springer-Verlag GmbH Germany.

PY - 2023/12/19

Y1 - 2023/12/19

N2 - Background: Independent testing of home blood pressure (BP) measurement (HBPM) devices is often lacking, particularly among older and multi-morbid patients. Methods: We studied the Bpro G2 (using tonometry), Omron HeartGuide (using occlusive oscillometric technology), and Heartisans (using photoplethysmography) wrist watch HBPM devices against a gold standard brachial sphygmomanometer. To test device performance, we used the ISO81060-2 protocol (though this protocol cannot formally validate cuffless devices). We also used linear mixed models to compare adjusted longitudinal BP measurements between devices. Finally, as a surrogate for usability, we recorded instances of device failure where no BP measurement was returned. Results: We enrolled 128 participants (median [Q1–Q3] age 53 [40–65] years, 51% male, 46% on antihypertensive drugs), of whom 100 were suitable for the primary analysis. All three devices had mean BP values within 5 mmHg of sphygmomanometry. However, due to insufficient reliability (e.g., wider than accepted standard deviations of mean BP), none of the three devices passed all criteria required by the ISO81060-2 protocol. In adjusted longitudinal analyses, the Omron device also systematically underestimated systolic and diastolic BP (− 8.46 mmHg; 95% CI 6.07, 10.86; p < 0.001; and − 2.53 mmHg; 95% CI − 4.03, − 1.03; p = 0.001; respectively). Nevertheless, compared to the Omron device, BPro and Heartisans devices had increased odds of failure (BPro: odds ratio [OR] 5.24; p < 0.0001; Heartisans: OR 5.61; p < 0.001). Conclusions: While we could not formally validate the cuffless devices, our results show that wearable technologies will require improvements to offer reliable BP assessment. This study also highlights the need for validation protocols specifically designed for cuffless BP measurement technologies. Graphical abstract: [Figure not available: see fulltext.].

AB - Background: Independent testing of home blood pressure (BP) measurement (HBPM) devices is often lacking, particularly among older and multi-morbid patients. Methods: We studied the Bpro G2 (using tonometry), Omron HeartGuide (using occlusive oscillometric technology), and Heartisans (using photoplethysmography) wrist watch HBPM devices against a gold standard brachial sphygmomanometer. To test device performance, we used the ISO81060-2 protocol (though this protocol cannot formally validate cuffless devices). We also used linear mixed models to compare adjusted longitudinal BP measurements between devices. Finally, as a surrogate for usability, we recorded instances of device failure where no BP measurement was returned. Results: We enrolled 128 participants (median [Q1–Q3] age 53 [40–65] years, 51% male, 46% on antihypertensive drugs), of whom 100 were suitable for the primary analysis. All three devices had mean BP values within 5 mmHg of sphygmomanometry. However, due to insufficient reliability (e.g., wider than accepted standard deviations of mean BP), none of the three devices passed all criteria required by the ISO81060-2 protocol. In adjusted longitudinal analyses, the Omron device also systematically underestimated systolic and diastolic BP (− 8.46 mmHg; 95% CI 6.07, 10.86; p < 0.001; and − 2.53 mmHg; 95% CI − 4.03, − 1.03; p = 0.001; respectively). Nevertheless, compared to the Omron device, BPro and Heartisans devices had increased odds of failure (BPro: odds ratio [OR] 5.24; p < 0.0001; Heartisans: OR 5.61; p < 0.001). Conclusions: While we could not formally validate the cuffless devices, our results show that wearable technologies will require improvements to offer reliable BP assessment. This study also highlights the need for validation protocols specifically designed for cuffless BP measurement technologies. Graphical abstract: [Figure not available: see fulltext.].

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Performance of wearable watch-type home blood pressure measurement devices in a real-world clinical sample

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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