7 March 2021Multi-wavelength, multi-distance, and multi-exposure time speckle contrast optical spectroscopy (3M-SCOS) for assessing deep tissue hemodynamics
1Georgia Institute of Technology (United States) 2Emory Univ. (United States) 3Morehouse College (United States) 4Children's Healthcare of Atlanta (United States)
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We present a novel approach to speckle contrast optical spectroscopy that utilizes multi-wavelength, multi-distance and multi-exposure time datasets to simultaneously estimate the blood flow and optical properties in the underlying tissue. This approach offers improvements in depth penetration over existing techniques and provides additional information content regarding the hemoglobin concentration and oxygen saturation of the tissue. We demonstrate the accuracy of this approach through computational simulations at source-detector separations of 1~2 cm and compare performance with existing multi-distance and multi-exposure time approaches.
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Seung Yup Lee, Wesley Matingou, Parth Patel, Corey Zheng, Erin M. Buckley, "Multi-wavelength, multi-distance, and multi-exposure time speckle contrast optical spectroscopy (3M-SCOS) for assessing deep tissue hemodynamics," Proc. SPIE 11639, Optical Tomography and Spectroscopy of Tissue XIV, 1163914 (7 March 2021); https://doi.org/10.1117/12.2577240