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Abstract Details

Functional Connectivity within the Default Mode Network in Response to Exercise during Return-to-Sport Following Concussion
Electrophysiology
P1 - Poster Session 1 (7:00 AM-3:15 PM)
033
The rehabilitation of athletes with SRC is challenging. Presently, there are no objective biomarkers to predict effects of exercise during RTS. SRC associated diffuse axonal injuries predominantly affect the Default Mode Network (DMN). Assessing exercise induced changes in functional connectivity of the DMN may therefore be a potential target.
The aim of this pilot study is to explore changes in EEG derived functional connectivity of the default mode network in response to physical exercise during return-to-sports (RTS) after sports related concussion (SRC). 
11 athletes were examined during the early stages of RTS after SRC (age: 23.90 ± 4.81) and compared to 13 control athletes (age: 24.00 ± 4.90). Resting state 128-channel EEGs were collected before and after a progressive ergometer exercise protocol working up to 70% of the maximal heart rate. DMN connectivity was assessed by calculating the phase locking value (PLV) in three frequency bands (theta: 3-7, alpha: 7-13, beta: 14-25). Wilcoxon Signed Rank Tests were used to explore statistical significance between pre- and post-exercise.
In SRC athletes PLV within the alpha band decreased significantly post-exercise (median (Mdn) = 0.445, interquartile range (IQR) =0.069) in comparison to pre-exercise (Mdn = 0.436, IQR = 0.047; Z = -1.956, p < 0.05), whereas no difference was observed in the control group (post-exercise (Mdn = 0.476, IQR = 0.072) compared to pre-exercise (Mdn = 0.461, IQR = 0.100; Z = -0.175, p = 0.86)). PLVs in the theta and beta band before and after exercise differed neither in the patient nor in the control group.
Exercise induced changes of functional connectivity of the DMN within the alpha band were only present in post-concussed athletes and may be suitable as a potential objective marker to reflect pathophysiological changes in further clinical studies to guide RTS.
Authors/Disclosures
Jessica Coenen (Paderborn University)
PRESENTER
Ms. Coenen has nothing to disclose.
No disclosure on file
No disclosure on file
Claus Reinsberger, MD Dr. Reinsberger has received personal compensation in the range of $0-$499 for serving as a Consultant for the German Football Association. The institution of Dr. Reinsberger has received research support from Federal Institute of Sports Science. The institution of Dr. Reinsberger has received research support from Heinz Nixdorf Westfalian Foundation. The institution of Dr. Reinsberger has received research support from German Research Foundation.