Longitudinal resting state functional connectivity predicts clinical outcome in mild traumatic brain injury

Madhavan, Radhika; Joel, Suresh E.; Mullick, Rakesh; Cogsil, Taylor; Niogi, Sumit; Tsiouris, Apostolos John; Mukherjee, Pratik; Masdeu, Joseph C.; Marinelli, Luca; Shetty, Teena

doi:10.1089/neu.2018.5739

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Longitudinal resting state functional connectivity predicts clinical outcome in mild traumatic brain injury
Citation	Madhavan R, Joel SE, Mullick R, Cogsil T, Niogi S, Tsiouris AJ, Mukherjee P, Masdeu JC, Marinelli L, Shetty T. J. Neurotrauma 2019; 36(5): 650-660.
Affiliation	Hospital for Special Surgery, Neurology , 535 E 70th St , New York , New York, New York, United States , 10021 ; shettyt@hss.edu.
Copyright	(Copyright © 2019, Mary Ann Liebert Publishers)
DOI	10.1089/neu.2018.5739
PMID	30024343
Abstract	Mild traumatic brain injury (mTBI) affects about 42 million people worldwide. It is often associated with headache, cognitive deficits and balance difficulties but rarely shows any abnormalities on conventional CT or MR imaging. While in most mTBI patients the symptoms resolve within 3 months, 10-15% of patients continue to exhibit symptoms beyond a year. Also, it is known that there exists a vulnerable period post-injury, when a second injury may exacerbate clinical prognosis. Identifying this vulnerable period may be critical for patient outcome, but very little is known about the neural underpinnings of mTBI and its recovery. In this work, we used advanced functional neuroimaging to study longitudinal changes in functional organization of the brain during the 3-month recovery period post mTBI. Fractional amplitude of low frequency fluctuations (fALFF) measured from resting state functional MRI (rs-fMRI) was found to be associated with symptom severity score (SSS, r=-0.28, p=0.002). Decreased fALFF was observed in specific functional networks for patients with higher SSS, and fALFF returned to higher values when the patient recovered (lower SSS). In addition, functional connectivity of the same networks was found to be associated with concurrent SSS, and connectivity immediately after injury (<10 days) was capable of predicting SSS at a later time point (3 weeks to 3 months, p<0.05). Specific networks including motor, default-mode and visual networks were found to be associated with SSS (p<0.001) , and connectivity between these networks predicted 3-month clinical outcome (motor and visual: p<0.001, default-mode: p<0.006). Our results suggest that functional connectivity in these networks are potential biomarkers for predicting mTBI recovery profiles and clinical outcome. Language: en
Keywords	MRI; OTHER TOOLS OF MODERN IMAGING; RECOVERY; TRAUMATIC BRAIN INJURY