Assessing Extracerebral Signal Contamination in Optical Measurements of Cerebral Blood Flow and Oxygenation

Daniel Milej; Daniel Milej; Ajay Rajaram; Ajay Rajaram; Androu Abdalmalak; Androu Abdalmalak; Mahro Khalid; Marwan Shahid; Matthew Kewin; Keith St. Lawrence; Keith St. Lawrence

doi:10.1117/12.2527150

Diffuse Optical Spectroscopy and Imaging VII
SPIE Proceedings (Optica Publishing Group, 2019),
paper 11074_90
•https://doi.org/10.1117/12.2527150

Assessing Extracerebral Signal Contamination in Optical Measurements of Cerebral Blood Flow and Oxygenation

Daniel Milej, Ajay Rajaram, Androu Abdalmalak, Mahro Khalid, Marwan Shahid, Matthew Kewin, and Keith St. Lawrence

European Conference on Biomedical Optics 2019

Munich Germany
23–25 June 2019
ISBN: 9781510628410

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Poster Session Monday - 11074 (PSM11074)

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D. Milej, A. Rajaram, A. Abdalmalak, M. Khalid, M. Shahid, M. Kewin, and K. St. Lawrence, "Assessing Extracerebral Signal Contamination in Optical Measurements of Cerebral Blood Flow and Oxygenation," in Diffuse Optical Spectroscopy and Imaging VII, Vol. EB101 of SPIE Proceedings (Optica Publishing Group, 2019), paper 11074_90.

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Abstract

Optical methods are attractive tools for neuromonitoring given their safety and sensitivity to key markers of brain health: tissue oxygenation can be assessed by near-infrared spectroscopy (NIRS) and cerebral blood flow by diffuse correlation spectroscopy (DCS). Although the application of these tools to neonatal patients is fairly straightforward, since it is reasonable to model the head as an optically homogeneous medium, their use with adult patients is more complicated due to substantial signal contamination caused by hemodynamic fluctuations in the extracerebral (EC) tissue. The purpose of this study was to assess the magnitude of this contamination by acquiring NIRS and DCS data in response to a hypercapnic challenge with and without scalp contributions. Scalp blood flow was impeded by a pneumatic tourniquet, which was confirmed by dynamic contrast-enhanced (DCE) NIRS. The results showed that EC contamination for intensity measurements could be as high as 75%; however, using time-resolved detection can reduce this value to 30%.

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