Artificial Intelligence, Wearables and Remote Monitoring for Heart Failure: Current and Future Applications

Nitesh Gautam; Sai Nikhila Ghanta; Joshua Mueller; Munthir Mansour; Zhongning Chen; Clara Puente; Yu Mi Ha; Tushar Tarun; Gaurav Dhar; Kalai Sivakumar; Yiye Zhang; Ahmed Abu Halimeh; Ukash Nakarmi; Sadeer Al-Kindi; Deeptankar DeMazumder; Subhi J. Al’Aref

doi:10.3390/diagnostics12122964

Artificial Intelligence, Wearables and Remote Monitoring for Heart Failure: Current and Future Applications

Nitesh Gautam, Sai Nikhila Ghanta, Joshua Mueller, Munthir Mansour, Zhongning Chen, Clara Puente, Yu Mi Ha, Tushar Tarun, Gaurav Dhar, Kalai Sivakumar, Yiye Zhang, Ahmed Abu Halimeh, Ukash Nakarmi, Sadeer Al-Kindi, Deeptankar DeMazumder, Subhi J. Al’Aref

Research output: Contribution to journal › Review article › peer-review

7 Scopus citations

Abstract

Substantial milestones have been attained in the field of heart failure (HF) diagnostics and therapeutics in the past several years that have translated into decreased mortality but a paradoxical increase in HF-related hospitalizations. With increasing data digitalization and access, remote monitoring via wearables and implantables have the potential to transform ambulatory care workflow, with a particular focus on reducing HF hospitalizations. Additionally, artificial intelligence and machine learning (AI/ML) have been increasingly employed at multiple stages of healthcare due to their power in assimilating and integrating multidimensional multimodal data and the creation of accurate prediction models. With the ever-increasing troves of data, the implementation of AI/ML algorithms could help improve workflow and outcomes of HF patients, especially time series data collected via remote monitoring. In this review, we sought to describe the basics of AI/ML algorithms with a focus on time series forecasting and the current state of AI/ML within the context of wearable technology in HF, followed by a discussion of the present limitations, including data integration, privacy, and challenges specific to AI/ML application within healthcare.

Original language	English (US)
Article number	2964
Journal	Diagnostics
Volume	12
Issue number	12
DOIs	https://doi.org/10.3390/diagnostics12122964
State	Published - Dec 2022

Keywords

heart failure
machine learning
pressure sensors
remote monitoring
time-series analysis

ASJC Scopus subject areas

Clinical Biochemistry

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10.3390/diagnostics12122964

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Gautam, N., Ghanta, S. N., Mueller, J., Mansour, M., Chen, Z., Puente, C., Ha, Y. M., Tarun, T., Dhar, G., Sivakumar, K., Zhang, Y., Halimeh, A. A., Nakarmi, U., Al-Kindi, S., DeMazumder, D., & Al’Aref, S. J. (2022). Artificial Intelligence, Wearables and Remote Monitoring for Heart Failure: Current and Future Applications. Diagnostics, 12(12), Article 2964. https://doi.org/10.3390/diagnostics12122964

Gautam, N, Ghanta, SN, Mueller, J, Mansour, M, Chen, Z, Puente, C, Ha, YM, Tarun, T, Dhar, G, Sivakumar, K, Zhang, Y, Halimeh, AA, Nakarmi, U, Al-Kindi, S, DeMazumder, D & Al’Aref, SJ 2022, 'Artificial Intelligence, Wearables and Remote Monitoring for Heart Failure: Current and Future Applications', Diagnostics, vol. 12, no. 12, 2964. https://doi.org/10.3390/diagnostics12122964

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abstract = "Substantial milestones have been attained in the field of heart failure (HF) diagnostics and therapeutics in the past several years that have translated into decreased mortality but a paradoxical increase in HF-related hospitalizations. With increasing data digitalization and access, remote monitoring via wearables and implantables have the potential to transform ambulatory care workflow, with a particular focus on reducing HF hospitalizations. Additionally, artificial intelligence and machine learning (AI/ML) have been increasingly employed at multiple stages of healthcare due to their power in assimilating and integrating multidimensional multimodal data and the creation of accurate prediction models. With the ever-increasing troves of data, the implementation of AI/ML algorithms could help improve workflow and outcomes of HF patients, especially time series data collected via remote monitoring. In this review, we sought to describe the basics of AI/ML algorithms with a focus on time series forecasting and the current state of AI/ML within the context of wearable technology in HF, followed by a discussion of the present limitations, including data integration, privacy, and challenges specific to AI/ML application within healthcare.",

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AU - Gautam, Nitesh

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AU - Chen, Zhongning

AU - Puente, Clara

AU - Ha, Yu Mi

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AU - Dhar, Gaurav

AU - Sivakumar, Kalai

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AU - Halimeh, Ahmed Abu

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AB - Substantial milestones have been attained in the field of heart failure (HF) diagnostics and therapeutics in the past several years that have translated into decreased mortality but a paradoxical increase in HF-related hospitalizations. With increasing data digitalization and access, remote monitoring via wearables and implantables have the potential to transform ambulatory care workflow, with a particular focus on reducing HF hospitalizations. Additionally, artificial intelligence and machine learning (AI/ML) have been increasingly employed at multiple stages of healthcare due to their power in assimilating and integrating multidimensional multimodal data and the creation of accurate prediction models. With the ever-increasing troves of data, the implementation of AI/ML algorithms could help improve workflow and outcomes of HF patients, especially time series data collected via remote monitoring. In this review, we sought to describe the basics of AI/ML algorithms with a focus on time series forecasting and the current state of AI/ML within the context of wearable technology in HF, followed by a discussion of the present limitations, including data integration, privacy, and challenges specific to AI/ML application within healthcare.

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Artificial Intelligence, Wearables and Remote Monitoring for Heart Failure: Current and Future Applications

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