Wireless wearable device for detection of transcutaneous tissue oxygenation based on phase phosphorimetry

Juan Pedro Cascales; Emmanuel Roussakis; Lilian Witthauer; Avery Goss; Xiaolei Li; Yenyu Chen; Haley L Marks; Conor L Evans

doi:10.1364/BODA.2021.DW4A.2

Biophotonics Congress 2021
OSA Technical Digest (Optica Publishing Group, 2021),
paper DW4A.2
•https://doi.org/10.1364/BODA.2021.DW4A.2

Wireless wearable device for detection of transcutaneous tissue oxygenation based on phase phosphorimetry

Juan Pedro Cascales, Emmanuel Roussakis, Lilian Witthauer, Avery Goss, Xiaolei Li, Yenyu Chen, Haley L Marks, and Conor L Evans

Bio-Optics: Design and Application 2021

Washington, DC United States
12–16 April 2021
ISBN: 978-1-943580-85-9

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Tissue Oxygenation and Blood Flow (DW4A)

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J. P. Cascales, E. Roussakis, L. Witthauer, A. Goss, X. Li, Y. Chen, H. L. Marks, and C. L. Evans, "Wireless wearable device for detection of transcutaneous tissue oxygenation based on phase phosphorimetry," in Biophotonics Congress 2021, C. Boudoux, K. Maitland, C. Hendon, M. Wojtkowski, K. Quinn, M. Schanne-Klein, N. Durr, D. Elson, F. Cichos, L. Oddershede, V. Emiliani, O. Maragò, S. Nic Chormaic, N. Pégard, S. Gibbs, S. Vinogradov, M. Niedre, K. Samkoe, A. Devor, D. Peterka, P. Blinder, and E. Buckley, eds., OSA Technical Digest (Optica Publishing Group, 2021), paper DW4A.2.

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Abstract

We have developed a wearable device to monitor tissue oxygenation transcutaneously through the detection of the phosphorescence lifetime of an oxygen sensing film. The device is wireless, weighs 30g and has been tested in vivo.

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