The effect of contact/collision sport participation without concussion on neurometabolites: A systematic review and meta‐analysis of magnetic resonance spectroscopy studies

Abstract

AbstractThe aim of this study was to systematically review prior research investigating the effects of contact/collision sport participation on neurometabolite levels in the absence of concussion. Four online databases were searched to identify studies that measured neurometabolite levels in contact/collision sport athletes (without concussion) using proton (1H) or phosphorus (31P) magnetic resonance spectroscopy (MRS). All study designs were acceptable for inclusion. Meta‐analytic procedures were used to quantify the effect of contact/collision sport participation on neurometabolite levels and explore the impact of specific moderating factors (where sufficient data were available). Narrative synthesis was used to describe outcomes that could not be meta‐analysed. Nine observational studies involving 300 contact/collision sport athletes were identified. Six studies (providing 112 effect estimates) employed longitudinal (cohort) designs and three (that could not be meta‐analysed) employed case–control designs. N‐acetylaspartate (NAA; g = −0.331, p = 0.013) and total creatine (tCr; creatine + phosphocreatine; g = −0.524, p = 0.029), but not glutamate–glutamine (Glx), myo‐inositol (mI) or total choline (tCho; choline‐containing compounds; p's > 0.05), decreased between the pre‐season and mid−/post‐season period. Several moderators were statistically significant, including: sex (Glx: 6 female/23 male, g = −0.549, p = 0.013), sport played (Glx: 22 American football/4 association football [soccer], g = 0.724, p = 0.031), brain region (mI: 2 corpus callosum/9 motor cortex, g = −0.804, p = 0.015), and the MRS quantification approach (mI: 18 absolute/3 tCr‐referenced, g = 0.619, p = 0.003; and tCho: 18 absolute/3 tCr‐referenced, g = 0.554, p = 0.005). In case–control studies, contact/collision sport athletes had higher levels of mI, but not NAA or tCr compared to non‐contact sport athletes and non‐athlete controls. Overall, this review suggests that contact/collision sport participation has the potential to alter neurometabolites measured via 1H MRS in the absence of concussion. However, further research employing more rigorous and consistent methodologies (e.g. interventional studies with consistent 1H MRS pulse sequences and quantifications) is required to confirm and better understand the clinical relevance of observed effects.