research-article

Wearable sensor for continuously vigilant spatial and depth-resolved perfusion imaging

Authors:

Bijan Mapar,

Yeung Lam,

Alireza Mehrnia,

Barbara Bates-Jensen,

Majid Sarrafzadeh,

William J. KaiserAuthors Info & Claims

WH '12: Proceedings of the conference on Wireless Health

Article No.: 15, Pages 1 - 2

https://doi.org/10.1145/2448096.2448111

Published: 23 October 2012 Publication History

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Abstract

Direct characterization of blood perfusion in tissue is critical to a broad spectrum of applications in assessing circulatory disorders, wound conditions and ensuring outcomes of treatment. The rapid evolution of these conditions and their great risk for subjects require a continuously vigilant monitoring technology. This paper presents a wireless health platform providing the first wearable blood perfusion imager. This system, the Perfusion Oxygenation Monitor (POM), introduces sensing diversity by combining array methods and multispectral methods, as well as sensor and emitter distribution and operation scheduling. The principles of photoplethysmographic (PPG) sensing exploited by new methods will enable care providers to actively monitor blood perfusion at multiple anatomical sites for characterization and tracking of perfusion critical to tissue health, wound status and healing, formation of pressure ulcers, and circulation conditions. The POM system is described here along with its experimental validation. Experimental validation has been provided by a direct probing method based on physiological thermoregulatory response that induces perfusion change and is directly measured by POM. The demonstration of the POM system will also be supplemented by an analysis of the end to end system including sensor information processing, feature detection, Wireless Health data transport, and archive structure.

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Cited By

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Koepp JBaron MBrandenburg CMartins PKira ATrindade VKipper LCosta B(2019)The Quality of Mobile Applications Used for the Identification of Pressure Ulcer in Adults: A Systematic Survey and Review of Applications in App Store (Preprint)JMIR mHealth and uHealth10.2196/14266Online publication date: 4-Apr-2019
https://doi.org/10.2196/14266

Index Terms

Wearable sensor for continuously vigilant spatial and depth-resolved perfusion imaging
1. Applied computing
  1. Computers in other domains
    1. Personal computers and PC applications
  2. Life and medical sciences
    1. Health care information systems
2. Computing methodologies
  1. Artificial intelligence
    1. Computer vision
      1. Computer vision tasks

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Published In

WH '12: Proceedings of the conference on Wireless Health

October 2012

117 pages

ISBN:9781450317603

DOI:10.1145/2448096

General Chairs:
William Kaiser
University of California, Los Angeles
,
Robert McCray
Wireless-Life Sciences Alliance

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SIGMOBILE: ACM Special Interest Group on Mobility of Systems, Users, Data and Computing

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Association for Computing Machinery

New York, NY, United States

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Published: 23 October 2012

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WH '12: Wireless Health 2012

October 23 - 25, 2012

California, San Diego

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Koepp JBaron MBrandenburg CMartins PKira ATrindade VKipper LCosta B(2019)The Quality of Mobile Applications Used for the Identification of Pressure Ulcer in Adults: A Systematic Survey and Review of Applications in App Store (Preprint)JMIR mHealth and uHealth10.2196/14266Online publication date: 4-Apr-2019
https://doi.org/10.2196/14266

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Laser Doppler perfusion imaging for the study of alternative medicine

A wireless biomedical instrument for evidence-based tissue wound characterization

Myocardial Perfusion Imaging - Beyond the Left Ventricle: Pathology, Artifacts and Pitfalls in the Chest and Abdomen

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