Towards real-Time non contact spatial resolved oxygenation monitoring using a multi spectral filter array camera in various light conditions

Jacob R. Bauer, Karlijn Van Beekum, John Klaessens, Herke Jan Noordmans, Christa Boer, Jon Y. Hardeberg, Rudolf M. Verdaasdonk

Research output: Chapter in Book/Report/Conference proceedingConference contributionAcademicpeer-review

Abstract

Non contact spatial resolved oxygenation measurements remain an open challenge in the biomedical field and non contact patient monitoring. Although point measurements are the clinical standard till this day, regional differences in the oxygenation will improve the quality and safety of care. Recent developments in spectral imaging resulted in spectral filter array cameras (SFA). These provide the means to acquire spatial spectral videos in real-Time and allow a spatial approach to spectroscopy. In this study, the performance of a 25 channel near infrared SFA camera was studied to obtain spatial oxygenation maps of hands during an occlusion of the left upper arm in 7 healthy volunteers. For comparison a clinical oxygenation monitoring system, INVOS, was used as a reference. In case of the NIRS SFA camera, oxygenation curves were derived from 2-3 wavelength bands with a custom made fast analysis software using a basic algorithm. Dynamic oxygenation changes were determined with the NIR SFA camera and INVOS system at different regional locations of the occluded versus non-occluded hands and showed to be in good agreement. To increase the signal to noise ratio, algorithm and image acquisition were optimised. The measurement were robust to different illumination conditions with NIR light sources. This study shows that imaging of relative oxygenation changes over larger body areas is potentially possible in real time.

Original languageEnglish
Title of host publicationOptical Biopsy XVI
Subtitle of host publicationToward Real-Time Spectroscopic Imaging and Diagnosis
EditorsRobert R. Alfano, Stavros G. Demos
PublisherSPIE
Volume10489
ISBN (Electronic)9781510614635
DOIs
Publication statusPublished - 1 Jan 2018
EventOptical Biopsy XVI: Toward Real-Time Spectroscopic Imaging and Diagnosis 2018 - San Francisco, United States
Duration: 30 Jan 201831 Jan 2018

Conference

ConferenceOptical Biopsy XVI: Toward Real-Time Spectroscopic Imaging and Diagnosis 2018
CountryUnited States
CitySan Francisco
Period30/01/201831/01/2018

Cite this

Bauer, J. R., Van Beekum, K., Klaessens, J., Noordmans, H. J., Boer, C., Hardeberg, J. Y., & Verdaasdonk, R. M. (2018). Towards real-Time non contact spatial resolved oxygenation monitoring using a multi spectral filter array camera in various light conditions. In R. R. Alfano, & S. G. Demos (Eds.), Optical Biopsy XVI: Toward Real-Time Spectroscopic Imaging and Diagnosis (Vol. 10489). [104890O] SPIE. https://doi.org/10.1117/12.2288432
Bauer, Jacob R. ; Van Beekum, Karlijn ; Klaessens, John ; Noordmans, Herke Jan ; Boer, Christa ; Hardeberg, Jon Y. ; Verdaasdonk, Rudolf M. / Towards real-Time non contact spatial resolved oxygenation monitoring using a multi spectral filter array camera in various light conditions. Optical Biopsy XVI: Toward Real-Time Spectroscopic Imaging and Diagnosis. editor / Robert R. Alfano ; Stavros G. Demos. Vol. 10489 SPIE, 2018.
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abstract = "Non contact spatial resolved oxygenation measurements remain an open challenge in the biomedical field and non contact patient monitoring. Although point measurements are the clinical standard till this day, regional differences in the oxygenation will improve the quality and safety of care. Recent developments in spectral imaging resulted in spectral filter array cameras (SFA). These provide the means to acquire spatial spectral videos in real-Time and allow a spatial approach to spectroscopy. In this study, the performance of a 25 channel near infrared SFA camera was studied to obtain spatial oxygenation maps of hands during an occlusion of the left upper arm in 7 healthy volunteers. For comparison a clinical oxygenation monitoring system, INVOS, was used as a reference. In case of the NIRS SFA camera, oxygenation curves were derived from 2-3 wavelength bands with a custom made fast analysis software using a basic algorithm. Dynamic oxygenation changes were determined with the NIR SFA camera and INVOS system at different regional locations of the occluded versus non-occluded hands and showed to be in good agreement. To increase the signal to noise ratio, algorithm and image acquisition were optimised. The measurement were robust to different illumination conditions with NIR light sources. This study shows that imaging of relative oxygenation changes over larger body areas is potentially possible in real time.",
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author = "Bauer, {Jacob R.} and {Van Beekum}, Karlijn and John Klaessens and Noordmans, {Herke Jan} and Christa Boer and Hardeberg, {Jon Y.} and Verdaasdonk, {Rudolf M.}",
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Bauer, JR, Van Beekum, K, Klaessens, J, Noordmans, HJ, Boer, C, Hardeberg, JY & Verdaasdonk, RM 2018, Towards real-Time non contact spatial resolved oxygenation monitoring using a multi spectral filter array camera in various light conditions. in RR Alfano & SG Demos (eds), Optical Biopsy XVI: Toward Real-Time Spectroscopic Imaging and Diagnosis. vol. 10489, 104890O, SPIE, Optical Biopsy XVI: Toward Real-Time Spectroscopic Imaging and Diagnosis 2018, San Francisco, United States, 30/01/2018. https://doi.org/10.1117/12.2288432

Towards real-Time non contact spatial resolved oxygenation monitoring using a multi spectral filter array camera in various light conditions. / Bauer, Jacob R.; Van Beekum, Karlijn; Klaessens, John; Noordmans, Herke Jan; Boer, Christa; Hardeberg, Jon Y.; Verdaasdonk, Rudolf M.

Optical Biopsy XVI: Toward Real-Time Spectroscopic Imaging and Diagnosis. ed. / Robert R. Alfano; Stavros G. Demos. Vol. 10489 SPIE, 2018. 104890O.

Research output: Chapter in Book/Report/Conference proceedingConference contributionAcademicpeer-review

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AU - Van Beekum, Karlijn

AU - Klaessens, John

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AU - Boer, Christa

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AU - Verdaasdonk, Rudolf M.

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N2 - Non contact spatial resolved oxygenation measurements remain an open challenge in the biomedical field and non contact patient monitoring. Although point measurements are the clinical standard till this day, regional differences in the oxygenation will improve the quality and safety of care. Recent developments in spectral imaging resulted in spectral filter array cameras (SFA). These provide the means to acquire spatial spectral videos in real-Time and allow a spatial approach to spectroscopy. In this study, the performance of a 25 channel near infrared SFA camera was studied to obtain spatial oxygenation maps of hands during an occlusion of the left upper arm in 7 healthy volunteers. For comparison a clinical oxygenation monitoring system, INVOS, was used as a reference. In case of the NIRS SFA camera, oxygenation curves were derived from 2-3 wavelength bands with a custom made fast analysis software using a basic algorithm. Dynamic oxygenation changes were determined with the NIR SFA camera and INVOS system at different regional locations of the occluded versus non-occluded hands and showed to be in good agreement. To increase the signal to noise ratio, algorithm and image acquisition were optimised. The measurement were robust to different illumination conditions with NIR light sources. This study shows that imaging of relative oxygenation changes over larger body areas is potentially possible in real time.

AB - Non contact spatial resolved oxygenation measurements remain an open challenge in the biomedical field and non contact patient monitoring. Although point measurements are the clinical standard till this day, regional differences in the oxygenation will improve the quality and safety of care. Recent developments in spectral imaging resulted in spectral filter array cameras (SFA). These provide the means to acquire spatial spectral videos in real-Time and allow a spatial approach to spectroscopy. In this study, the performance of a 25 channel near infrared SFA camera was studied to obtain spatial oxygenation maps of hands during an occlusion of the left upper arm in 7 healthy volunteers. For comparison a clinical oxygenation monitoring system, INVOS, was used as a reference. In case of the NIRS SFA camera, oxygenation curves were derived from 2-3 wavelength bands with a custom made fast analysis software using a basic algorithm. Dynamic oxygenation changes were determined with the NIR SFA camera and INVOS system at different regional locations of the occluded versus non-occluded hands and showed to be in good agreement. To increase the signal to noise ratio, algorithm and image acquisition were optimised. The measurement were robust to different illumination conditions with NIR light sources. This study shows that imaging of relative oxygenation changes over larger body areas is potentially possible in real time.

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KW - Skin assessment

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Bauer JR, Van Beekum K, Klaessens J, Noordmans HJ, Boer C, Hardeberg JY et al. Towards real-Time non contact spatial resolved oxygenation monitoring using a multi spectral filter array camera in various light conditions. In Alfano RR, Demos SG, editors, Optical Biopsy XVI: Toward Real-Time Spectroscopic Imaging and Diagnosis. Vol. 10489. SPIE. 2018. 104890O https://doi.org/10.1117/12.2288432