Long-Term Effects of Concussion on Electrophysiological Indices of Attention in Varsity College Athletes: An Event-Related Potential and Standardized Low-Resolution Brain Electromagnetic Tomography Approach

Ledwidge, Patrick S.; Molfese, Dennis L.

doi:10.1089/neu.2015.4251

Cited by 39 publications

(63 citation statements)

References 79 publications

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“…According to a model proposed by Molfese (2015), neural networks reorganize after concussion by developing new local and distal networks to compensate for reductions of efficiency caused by brain damage. Ledwidge and Molfese (2016) provided evidence that concussed athletes generate atypical brain patterns by recruiting additional neuronal resources relative to controls in such a way that allows concussed athletes to achieve similar performance levels (McAllister, et al, 2001;McDonald, Saykin, & McAllister, 2012;Ozen, Itier, Preston, & Fernandes, 2013). When applied to current study findings, the recruitment of additional brain resources that may have taken place over several months postconcussion could explain normal behavioral performance levels in multi-concussed athletes.…”

Section: Discussionmentioning

confidence: 60%

“…For instance, event-related potential (ERP) studies revealed significant and persistent N1 (Gosselin, Theriault, Leclerc, Montplaisir, & Lassonde, 2006), N2 (Ledwidge & Molfese, 2016), P2 (Gosselin, et al, 2006), P3 (De Beaumont, Brisson, Lassonde, & Jolicoeur, 2007;Gaetz, Goodman, & Weinberg, 2000;Gosselin, et al, 2006;Ledwidge & Molfese, 2016;Theriault, De Beaumont, Gosselin, Filipinni, & Lassonde, 2009) waveform components alterations when concussed athletes performed cognitive tasks relying on attentional processes in the acute phase as well as several years post-accident relative to controls. ERPs are computed from the averaged EEG signal time-locked to an event of interest, often the presentation of a stimulus.…”

Section: Introductionmentioning

confidence: 99%

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Electrophysiological impact of multiple concussions in asymptomatic athletes: A re-analysis based on alpha activity during a visual-spatial attention task

et al. 2018

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Most EEG studies used event-related potentials to assess long-term and cumulative effects of sport-related concussions on brain activity. Time-frequency methods provide another approach that allows the detection of subtle shifts in types and patterns of brain oscillations. We sought to discover whether event-related alpha activity would be significantly affected in asymptomatic multi-concussed athletes. We measured the amplitude of alpha activity (8-12Hz) from the EEG recorded during a visual-spatial attention task to compare event-related alpha perturbations in 13 multi-concussed athletes and 14 age-equivalent, non-concussed teammates. Relative to non-concussed athletes, multi-concussed athletes showed significantly less event-related perturbations time-locked to stimulus presentation. Alpha activity alterations were closely related to the number of concussions sustained. Event-related alpha activity differed in asymptomatic multi-concussed athletes when compared to controls. Our study suggests that low-level neurophysiological underpinnings of the deployment of visual-spatial attention are affected in multi-concussed athletes even though their last concussion occurred on average 30 months prior to testing.

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Section: Discussionmentioning

confidence: 60%

Section: Introductionmentioning

confidence: 99%

Electrophysiological impact of multiple concussions in asymptomatic athletes: A re-analysis based on alpha activity during a visual-spatial attention task

et al. 2018

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“…The SRC-ERP literature has primarily examined changes in two cognitive-evoked ERP components, the N200 and P300 (see Brush and colleagues [40] for review). This research indicates that the amplitude and latency of the P300, reflecting context-updating and resource allocation [41,42], are altered following SRC during selective attention [43][44][45] and working memory [46,47]. The effects of SRC on the N200, indexing mismatch/novelty detection, cognitive control, and/or response monitoring depending on task demands [48], are less clear than the P300.…”

Section: Effects Of Src On Cognitive-evoked Erpsmentioning

confidence: 84%

“…The effects of SRC on the N200, indexing mismatch/novelty detection, cognitive control, and/or response monitoring depending on task demands [48], are less clear than the P300. Some report altered N200 amplitudes [43,44,49] and latencies [49,50] associated with a history of concussion, whereas others failed to find differences in amplitude [46,50] or latency [43]. Importantly, these altered ERP correlates often occur despite normative performance on behavioral neuropsychological assessments [43,44,46].…”

Section: Effects Of Src On Cognitive-evoked Erpsmentioning

confidence: 99%

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The Impact of Sports-Related Concussions on the Language System

Ledwidge

2018

ABNE

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Sports-related Concussions (SRC) and their potential long-term effects are a growing concern among athletes and their families. Research utilizing functional brain imaging/recording techniques (e.g., fMRI, ERP) seeks to explain how neurocognitive brain activity changes in the days and years following SRC. Although language deficits are documented following non-sports related concussion there remains a striking lack of research on how SRCs may influence the language system and their supporting neural mechanisms. Neuroimaging findings, however, demonstrate that SRCs alter structural and functional pathways within the frontotemporal language network. Brain regions included in this network generate language-related event-related brain potentials (ERPs), including the N400 and P600. ERPs have been used to demonstrate long-term neurocognitive alterations associated with concussion and may also provide objective and robust markers of SRC-induced changes to the language system.

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The effect of concussion on subsequent musculoskeletal injury risk in high school athletes

Nusbickel

Vasilopoulos

Zapf

et al. 2022

PM&R

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Background: Studies have demonstrated an increased risk of musculoskeletal (MSK) injury after concussion in collegiate and professional athletes, but there has been relatively little study of this relationship in younger athletes.Objective: To determine the odds of experiencing a subsequent MSK injury after concussion in high school athletes. It was hypothesized that concussion would increase the risk of MSK injury within 365 days of the concussion event.Design: Retrospective observational study. Setting: Twelve high school sports programs. Participants: Athletes (n = 14,461) from athletic training room records queried between 2010 and 2017. Independent Variables: History of concussion and history of concussion and MSK injury in the year preceding MSK injury. Main Outcome Measures: General estimating equation analyses were conducted to examine the odds of MSK injury related to (1) concussion within the preceding 365 days of injury; and (2) concussion and MSK injury within the preceding 365 days of concussion. Results: Respectively, 8% and 8.3% of athletes were identified with a concussion and MSK injury. After controlling for gender and sport, athletes with a concussion and prior MSK injury (odds ratio = 2.19, 95% confidence interval: 1.02-4.67) and athletes with a concussion alone (odds ratio = 1.67, 95% confidence interval: 1.15-2.44) both had higher odds of experiencing a subsequent MSK injury compared to athletes without prior concussion. Conclusions: High school athletes who sustain a concussion have elevated odds of MSK injury at rates comparable to those for collegiate athletes. These findings support the use of neuromuscular-based rehabilitation and injury prevention protocols in the post-concussion period. These findings may also suggest exploring methods to modify concussion return-to-play criteria with the goal to reduce the risk of future MSK injury.

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Long-Term Effects of Concussion on Electrophysiological Indices of Attention in Varsity College Athletes: An Event-Related Potential and Standardized Low-Resolution Brain Electromagnetic Tomography Approach

Cited by 39 publications

References 79 publications

Electrophysiological impact of multiple concussions in asymptomatic athletes: A re-analysis based on alpha activity during a visual-spatial attention task

Electrophysiological impact of multiple concussions in asymptomatic athletes: A re-analysis based on alpha activity during a visual-spatial attention task

The Impact of Sports-Related Concussions on the Language System

The effect of concussion on subsequent musculoskeletal injury risk in high school athletes

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