Abstract Details

Title Resting-State Connectivity Between the Insula and Prefrontal Cortex Is Sensitive to Acute Injury and Symptom Persistence After Sport-Related Concussion

Topic

Presentation(s) P11 - Poster Session 11 (11:45 AM-12:45 PM)

Poster/Presentation
Number 10-005

Background

Autonomic, affective, and nociceptive symptoms are common after SRC and have well-established relationships with central autonomic network (CAN) structures. We previously found that symptom persistence was positively correlated with hyperconnectivity between the medial amygdala and vmPFC/sgACC. We hypothesized that the insula might also display similar symptom-relevant hyperconnectivity.

Objective

We investigated the relationship between symptoms and rsfMRI connectivity between the insula and PFC in sport-related concussion (SRC).

Design/Methods

We computed whole-brain seed-to-voxel connectivity from BOLD rsfMRI acquisitions at 3 timepoints after SRC (T1=1-4days, T2=10-14days, T3=2-3months) in collegiate athletes (N=31,female=14) and for two groups of healthy age- and gender-matched controls (in-sport, N=36,female=17; non-contact sport N=37,female=15). Twelve insula seed regions were selected from the Brainnetome 264 Atlas (voxel threshold uncorrected p<0.001, two-sided; cluster threshold FDR-corrected p<0.001). ANOVA followed by Tukey’s HSD was used to assess differences across group and time. Subject-level insula-PFC connectivity values (Fisher’sZ) were correlated with SCAT-3 graded symptom checklist (GSC) or Brief Symptom Inventory 18 (BSI-18) scores at each timepoint.

Results

Compared to controls, SRC subjects displayed hyperconnectivity between 8 of 13 insula-PFC pairs at T1, hyperconnectivity between 2 of 13 insula-PFC pairs at T2, and hypoconnectivity between 8 of 13 insula-PFC pairs at T3. Among SRC subjects at T1, connectivity between right dorsal dysgranular insula and left frontal pole was negatively correlated with GSC and BSI-18 severity. Among SRC subjects at T3, connectivity between left ventral dysgranular/granular insula and right mPFC/dlPFC was positively correlated with GSC severity and the GSC cognitive subscale; connectivity between right ventral dysgranular/granular insula and left lateral frontal pole was negatively correlated with BSI-18 severity and BSI-18 depression and anxiety subscales.

Conclusions

Acute hyperconnectivity between insula and PFC may be protective or compensatory after SRC. Chronic hyperconnectivity with the left insula may signal persistent cognitive symptoms; hypoconnectivity with the right insula may signal persistent affective symptoms.

Authors/Disclosures
Christopher A. Sheridan, CSCS (Dept. of Radiology; Wake Forest School of Medicine) PRESENTER	Mr. Sheridan has nothing to disclose.
Kevin Bickart, MD, PhD (UCLA)	Dr. Bickart has nothing to disclose.
Corey M. Thibeault, PhD (Neural Analytics)	Dr. Thibeault has received personal compensation for serving as an employee of NovaSignal Corp.. Dr. Thibeault has received stock or an ownership interest from NovaSignal Inc..
Christopher Giza, MD, FAAN (UCLA, Depts of Pediatrics and Neurosurgery)	Dr. Giza has stock in Highmark Interactive. The institution of Dr. Giza has received research support from UCLA: Brain Injury Research Center, Steve Tisch BrainSPORT Program, Easton Clinic for Brain Health. Dr. Giza has received publishing royalties from a publication relating to health care.
Christopher T. Whitlow, MD (Wake Forest School of Medicine)	Dr. Whitlow has nothing to disclose.
Robert Hamilton, PhD (Neural Analytics)	Dr. Hamilton has received personal compensation for serving as an employee of NovaSignal Corp . Dr. Hamilton has received stock or an ownership interest from NovaSignal Corp. Dr. Hamilton has received intellectual property interests from a discovery or technology relating to health care.
Meeryo Choe, MD, FAAN	Dr. Choe has received personal compensation in the range of $10,000-$49,999 for serving as an Expert Witness for Legal Cases. The institution of Dr. Choe has received research support from NIH. The institution of Dr. Choe has received research support from AIR-P. Dr. Choe has a non-compensated relationship as a Board of Directors with NABIS that is relevant to AAN interests or activities. Dr. Choe has a non-compensated relationship as a Consultant with USA Swimming Concussion Task Force that is relevant to AAN interests or activities.