Login Paper Search My Schedule Paper Index Help

My ICIP 2021 Schedule

Note: Your custom schedule will not be saved unless you create a new account or login to an existing account.
  1. Create a login based on your email (takes less than one minute)
  2. Perform 'Paper Search'
  3. Select papers that you desire to save in your personalized schedule
  4. Click on 'My Schedule' to see the current list of selected papers
  5. Click on 'Printable Version' to create a separate window suitable for printing (the header and menu will appear, but will not actually print)

Paper Detail

Paper IDBIO-1.11
Paper Title CONNECTIVITY BASED FUNCTIONAL SEGMENTATION OF THE BRAINSTEM
Authors Nandinee Fariah Haq, Christina Zhang, Linlin Gao, Tianze Yu, Martin J. McKeown, University of British Columbia, Canada
SessionBIO-1: Biomedical Signal Processing 1
LocationArea C
Session Time:Monday, 20 September, 13:30 - 15:00
Presentation Time:Monday, 20 September, 13:30 - 15:00
Presentation Poster
Topic Biomedical Signal Processing: Medical image analysis
IEEE Xplore Open Preview  Click here to view in IEEE Xplore
Abstract The human brainstem is an anatomically complex and compact structure, and many neurologic diseases are frequently associated with brainstem dysfunction. Despite its importance in brain functioning and neurodegenerative processes, the brainstem and its functional sub-structures are relatively unexplored in medical image analysis. Here we present a data-driven framework to extract functional sub-regions from the brainstem. We first apply a novel motion correction scheme to the brainstem. A simple network is then derived by examining the correlation of BOLD signals between brainstem voxels, and a network community quality function is optimized to extract the sub-networks within the brainstem. We applied this technique to fMRI data from fifteen healthy participants and found 84 group-level, spatially contiguous sub-regions within the brainstem. Association of these regions with other cortical and subcortical brain regions were investigated to assist in interpreting what underlying anatomical structures were associated with the subregions. Although the proposed method was originally developed for the brainstem, the proposed framework has the potential to be integrated into studies investigating functional sub-regions from other cortical or subcortical brain regions.