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The significance of negative correlations in brain connectivity

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journal contribution
posted on 26.06.2018, 00:00 by Liang Zhan, Lisanne M. Jenkins, Ouri E. Wolfson, Johnson Jonaris GadElkarim, Kevin Nocito, Paul M. Thompson, Olusola A. Ajilore, Moo K Chung, Alex D. Leow
Understanding the modularity of functional magnetic resonance imaging (fMRI)-derived brain networks or connectomes can inform the study of brain function organization. However, fMRI connectomes additionally involve negative edges, which may not be optimally accounted for by existing approaches to modularity that variably threshold, binarize, or arbitrarily weight these connections. Consequently, many existing Q maximization-based modularity algorithms yield variable modular structures. Here, we present an alternative complementary approach that exploits how frequent the blood-oxygen-level-dependent (BOLD) signal correlation between two nodes is negative. We validated this novel probability-based modularity approach on two independent publicly-available resting-state connectome data sets (the Human Connectome Project [HCP] and the 1,000 functional connectomes) and demonstrated that negative correlations alone are sufficient in understanding resting-state modularity. In fact, this approach (a) permits a dual formulation, leading to equivalent solutions regardless of whether one considers positive or negative edges; (b) is theoretically linked to the Ising model defined on the connectome, thus yielding modularity result that maximizes data likelihood. Additionally, we were able to detect novel and consistent sex differences in modularity in both data sets. As data sets like HCP become widely available for analysis by the neuroscience community at large, alternative and perhaps more advantageous computational tools to understand the neurobiological information of negative edges in fMRI connectomes are increasingly important.


NIH . Grant Numbers: AG056782, EB022856, U54 EB020403 NSF. Grant Number: IIS‐1213013 and IIP‐1534138


Publisher Statement

This is the pre-peer reviewed version of the following article: Zhan, L., Jenkins, L. M., Wolfson, O. E., GadElkarim, J. J., Nocito, K., Thompson, P. M., Ajilore, O. A., Chung, M. K. and Leow, A. D. The significance of negative correlations in brain connectivity. Journal of Comparative Neurology. 2017. 525(15): 3251-3265. 10.1002/cne.24274. , which has been published in final form at ://WOS:000407820700005.





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