Sreekanth Kura1, Hongyu Xie, Buyin Fu, Cenk Ayata, David A Boas, Sava Sakadžić. 1. Department of Radiology, Massachusetts General Hospital and Harvard Medical School, MGH/HMS/MIT Athinoula A Martinos Center for Biomedical Imaging, 149 13th Street, Charlestown, MA 02129, United States of America. Department of Biomedical Engineering, Neurophotonics Center, Boston University, 44 Cummington Mall, Boston, MA 02215, United States of America.
Abstract
OBJECTIVE: Resting state functional connectivity (RSFC) allows the study of functional organization in normal and diseased brain by measuring the spontaneous brain activity generated under resting conditions. Intrinsic optical signal imaging (IOSI) based on multiple illumination wavelengths has been used successfully to compute RSFC maps in animal studies. The IOSI setup complexity would be greatly reduced if only a single wavelength can be used to obtain comparable RSFC maps. APPROACH: We used anesthetized mice and performed various comparisons between the RSFC maps based on single wavelength as well as oxy-, deoxy- and total hemoglobin concentration changes. MAIN RESULTS: The RSFC maps based on IOSI at a single wavelength selected for sensitivity to the blood volume changes are quantitatively comparable to the RSFC maps based on oxy- and total hemoglobin concentration changes obtained by the more complex IOSI setups. Moreover, RSFC maps do not require CCD cameras with very high frame acquisition rates, since our results demonstrate that they can be computed from the data obtained at frame rates as low as 5 Hz. SIGNIFICANCE: Our results will have general utility for guiding future RSFC studies based on IOSI and making decisions about the IOSI system designs.
OBJECTIVE: Resting state functional connectivity (RSFC) allows the study of functional organization in normal and diseased brain by measuring the spontaneous brain activity generated under resting conditions. Intrinsic optical signal imaging (IOSI) based on multiple illumination wavelengths has been used successfully to compute RSFC maps in animal studies. The IOSI setup complexity would be greatly reduced if only a single wavelength can be used to obtain comparable RSFC maps. APPROACH: We used anesthetized mice and performed various comparisons between the RSFC maps based on single wavelength as well as oxy-, deoxy- and total hemoglobin concentration changes. MAIN RESULTS: The RSFC maps based on IOSI at a single wavelength selected for sensitivity to the blood volume changes are quantitatively comparable to the RSFC maps based on oxy- and total hemoglobin concentration changes obtained by the more complex IOSI setups. Moreover, RSFC maps do not require CCD cameras with very high frame acquisition rates, since our results demonstrate that they can be computed from the data obtained at frame rates as low as 5 Hz. SIGNIFICANCE: Our results will have general utility for guiding future RSFC studies based on IOSI and making decisions about the IOSI system designs.
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