A comprehensive wireless neurological and cardiopulmonary monitoring platform for pediatrics

Jeremy N. Wong; Jessica R. Walter; Erin C. Conrad; Dhruv R. Seshadri; Jong Yoon Lee; Husein Gonzalez; William Reuther; Sue J. Hong; Nicolò Pini; Lauren Marsillio; Khrystyna Moskalyk; Mariana Vicenteno; Erik Padilla; Olivia Gann; Ha Uk Chung; Dennis Ryu; Carlie du Plessis; Hein J. Odendaal; William P. Fifer; Joyce Y. Wu; Shuai Xu

doi:10.1371/journal.pdig.0000291

A comprehensive wireless neurological and cardiopulmonary monitoring platform for pediatrics

Jeremy N. Wong, Jessica R. Walter, Erin C. Conrad, Dhruv R. Seshadri, Jong Yoon Lee, Husein Gonzalez, William Reuther, Sue J. Hong, Nicolò Pini, Lauren Marsillio, Khrystyna Moskalyk, Mariana Vicenteno, Erik Padilla, Olivia Gann, Ha Uk Chung, Dennis Ryu, Carlie du Plessis, Hein J. Odendaal, William P. Fifer, Joyce Y. WuShuai Xu^*

^*Corresponding author for this work

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

4 Scopus citations

Abstract

Neurodevelopment in the first 10 years of life is a critical time window during which milestones that define an individual’s functional potential are achieved. Comprehensive multimodal neurodevelopmental monitoring is particularly crucial for socioeconomically disadvantaged, marginalized, historically underserved and underrepresented communities as well as medically underserved areas. Solutions designed for use outside the traditional clinical environment represent an opportunity for addressing such health inequalities. In this work, we present an experimental platform, ANNE EEG, which adds 16-channel cerebral activity monitoring to the existing, USA FDA-cleared ANNE wireless monitoring platform which provides continuous electrocardiography, respiratory rate, pulse oximetry, motion, and temperature measurements. The system features low-cost consumables, real-time control and streaming with widely available mobile devices, and fully wearable operation to allow a child to remain in their naturalistic environment. This multi-center pilot study successfully collected ANNE EEG recordings from 91 neonatal and pediatric patients at academic quaternary pediatric care centers and in LMIC settings. We demonstrate the practicality and feasibility to conduct electroencephalography studies with high levels of accuracy, validated via both quantitative and qualitative metrics, compared against gold standard systems. An overwhelming majority of parents surveyed during studies indicated not only an overall preference for the wireless system, but also that its use would improve their children’s physical and emotional health. Our findings demonstrate the potential for the ANNE system to perform multimodal monitoring to screen for a variety of neurologic diseases that have the potential to negatively impact neurodevelopment.

Original language	English (US)
Article number	e0000291
Journal	PLOS Digital Health
Volume	2
Issue number	7
DOIs	https://doi.org/10.1371/journal.pdig.0000291
State	Published - Jul 2023

Funding

JNW, WPF, SJH and SX recognize funding from the Bill and Melinda Gates Foundation (INV-019423). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

ASJC Scopus subject areas

Health Informatics

UN SDGs

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

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10.1371/journal.pdig.0000291

Cite this

Wong, J. N., Walter, J. R., Conrad, E. C., Seshadri, D. R., Lee, J. Y., Gonzalez, H., Reuther, W., Hong, S. J., Pini, N., Marsillio, L., Moskalyk, K., Vicenteno, M., Padilla, E., Gann, O., Chung, H. U., Ryu, D., du Plessis, C., Odendaal, H. J., Fifer, W. P., ... Xu, S. (2023). A comprehensive wireless neurological and cardiopulmonary monitoring platform for pediatrics. PLOS Digital Health, 2(7), Article e0000291. https://doi.org/10.1371/journal.pdig.0000291

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title = "A comprehensive wireless neurological and cardiopulmonary monitoring platform for pediatrics",

abstract = "Neurodevelopment in the first 10 years of life is a critical time window during which milestones that define an individual{\textquoteright}s functional potential are achieved. Comprehensive multimodal neurodevelopmental monitoring is particularly crucial for socioeconomically disadvantaged, marginalized, historically underserved and underrepresented communities as well as medically underserved areas. Solutions designed for use outside the traditional clinical environment represent an opportunity for addressing such health inequalities. In this work, we present an experimental platform, ANNE EEG, which adds 16-channel cerebral activity monitoring to the existing, USA FDA-cleared ANNE wireless monitoring platform which provides continuous electrocardiography, respiratory rate, pulse oximetry, motion, and temperature measurements. The system features low-cost consumables, real-time control and streaming with widely available mobile devices, and fully wearable operation to allow a child to remain in their naturalistic environment. This multi-center pilot study successfully collected ANNE EEG recordings from 91 neonatal and pediatric patients at academic quaternary pediatric care centers and in LMIC settings. We demonstrate the practicality and feasibility to conduct electroencephalography studies with high levels of accuracy, validated via both quantitative and qualitative metrics, compared against gold standard systems. An overwhelming majority of parents surveyed during studies indicated not only an overall preference for the wireless system, but also that its use would improve their children{\textquoteright}s physical and emotional health. Our findings demonstrate the potential for the ANNE system to perform multimodal monitoring to screen for a variety of neurologic diseases that have the potential to negatively impact neurodevelopment.",

author = "Wong, \{Jeremy N.\} and Walter, \{Jessica R.\} and Conrad, \{Erin C.\} and Seshadri, \{Dhruv R.\} and Lee, \{Jong Yoon\} and Husein Gonzalez and William Reuther and Hong, \{Sue J.\} and Nicol{\`o} Pini and Lauren Marsillio and Khrystyna Moskalyk and Mariana Vicenteno and Erik Padilla and Olivia Gann and Chung, \{Ha Uk\} and Dennis Ryu and \{du Plessis\}, Carlie and Odendaal, \{Hein J.\} and Fifer, \{William P.\} and Wu, \{Joyce Y.\} and Shuai Xu",

note = "Publisher Copyright: Copyright: {\textcopyright} 2023 Wong et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.",

year = "2023",

month = jul,

doi = "10.1371/journal.pdig.0000291",

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Wong, JN, Walter, JR, Conrad, EC, Seshadri, DR, Lee, JY, Gonzalez, H, Reuther, W, Hong, SJ, Pini, N, Marsillio, L, Moskalyk, K, Vicenteno, M, Padilla, E, Gann, O, Chung, HU, Ryu, D, du Plessis, C, Odendaal, HJ, Fifer, WP, Wu, JY & Xu, S 2023, 'A comprehensive wireless neurological and cardiopulmonary monitoring platform for pediatrics', PLOS Digital Health, vol. 2, no. 7, e0000291. https://doi.org/10.1371/journal.pdig.0000291

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T1 - A comprehensive wireless neurological and cardiopulmonary monitoring platform for pediatrics

AU - Wong, Jeremy N.

AU - Walter, Jessica R.

AU - Conrad, Erin C.

AU - Seshadri, Dhruv R.

AU - Lee, Jong Yoon

AU - Gonzalez, Husein

AU - Reuther, William

AU - Hong, Sue J.

AU - Pini, Nicolò

AU - Marsillio, Lauren

AU - Moskalyk, Khrystyna

AU - Vicenteno, Mariana

AU - Padilla, Erik

AU - Gann, Olivia

AU - Chung, Ha Uk

AU - Ryu, Dennis

AU - du Plessis, Carlie

AU - Odendaal, Hein J.

AU - Fifer, William P.

AU - Wu, Joyce Y.

AU - Xu, Shuai

N1 - Publisher Copyright: Copyright: © 2023 Wong et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

PY - 2023/7

Y1 - 2023/7

N2 - Neurodevelopment in the first 10 years of life is a critical time window during which milestones that define an individual’s functional potential are achieved. Comprehensive multimodal neurodevelopmental monitoring is particularly crucial for socioeconomically disadvantaged, marginalized, historically underserved and underrepresented communities as well as medically underserved areas. Solutions designed for use outside the traditional clinical environment represent an opportunity for addressing such health inequalities. In this work, we present an experimental platform, ANNE EEG, which adds 16-channel cerebral activity monitoring to the existing, USA FDA-cleared ANNE wireless monitoring platform which provides continuous electrocardiography, respiratory rate, pulse oximetry, motion, and temperature measurements. The system features low-cost consumables, real-time control and streaming with widely available mobile devices, and fully wearable operation to allow a child to remain in their naturalistic environment. This multi-center pilot study successfully collected ANNE EEG recordings from 91 neonatal and pediatric patients at academic quaternary pediatric care centers and in LMIC settings. We demonstrate the practicality and feasibility to conduct electroencephalography studies with high levels of accuracy, validated via both quantitative and qualitative metrics, compared against gold standard systems. An overwhelming majority of parents surveyed during studies indicated not only an overall preference for the wireless system, but also that its use would improve their children’s physical and emotional health. Our findings demonstrate the potential for the ANNE system to perform multimodal monitoring to screen for a variety of neurologic diseases that have the potential to negatively impact neurodevelopment.

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A comprehensive wireless neurological and cardiopulmonary monitoring platform for pediatrics

Abstract

Funding

ASJC Scopus subject areas

UN SDGs

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