Diffusion MRI-based cortical connectome reconstruction: dependency on tractography procedures and neuroanatomical characteristics
Sinke, Michel R.T.; Otte, Willem M.; Christiaens, Daan; Schmitt, Oliver; Leemans, Alexander; van der Toorn, Annette; Sarabdjitsingh, R. Angela; Joëls, Marian; Dijkhuizen, Rick M.
(2018) Brain Structure and Function, volume 223, issue 5, pp. 2269 - 2285
(Article)
Abstract
Diffusion MRI (dMRI)-based tractography offers unique abilities to map whole-brain structural connections in human and animal brains. However, dMRI-based tractography indirectly measures white matter tracts, with suboptimal accuracy and reliability. Recently, sophisticated methods including constrained spherical deconvolution (CSD) and global tractography have been developed to improve tract reconstructions through modeling
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of more complex fiber orientations. Our study aimed to determine the accuracy of connectome reconstruction for three dMRI-based tractography approaches: diffusion tensor (DT)-based, CSD-based and global tractography. Therefore, we validated whole brain structural connectome reconstructions based on ten ultrahigh-resolution dMRI rat brain scans and 106 cortical regions, from which varying tractography parameters were compared against standardized neuronal tracer data. All tested tractography methods generated considerable numbers of false positive and false negative connections. There was a parameter range trade-off between sensitivity: 0.06–0.63 interhemispherically and 0.22–0.86 intrahemispherically; and specificity: 0.99–0.60 interhemispherically and 0.99–0.23 intrahemispherically. Furthermore, performance of all tractography methods decreased with increasing spatial distance between connected regions. Similar patterns and trade-offs were found, when we applied spherical deconvolution informed filtering of tractograms, streamline thresholding and group-based average network thresholding. Despite the potential of CSD-based and global tractography to handle complex fiber orientations at voxel level, reconstruction accuracy, especially for long-distance connections, remains a challenge. Hence, connectome reconstruction benefits from varying parameter settings and combination of tractography methods to account for anatomical variation of neuronal pathways.
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Keywords: Brain, Brain connectomics, Constrained spherical deconvolution, Diffusion MRI, Diffusion tractography, Neuronal tracers, Rats, Rats, Wistar, Neural Pathways/anatomy & histology, Cerebral Cortex/cytology, Male, Connectome, Neurons/cytology, White Matter/diagnostic imaging, Algorithms, Animals, Image Processing, Computer-Assisted, Sensitivity and Specificity, Diffusion Magnetic Resonance Imaging, Brain Mapping, General Neuroscience, Anatomy, Histology, Journal Article
ISSN: 1863-2653
Publisher: Springer Verlag
Note: Funding Information: Funding This work was supported by the Netherlands Organization for Scientific Research (NWO-VICI 016.130.662, NWO-VENI 016.168.038), and the Dutch Brain Foundation [F2014(1)-06]. Publisher Copyright: © 2018, The Author(s).
(Peer reviewed)