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  • Title: Sex-Based Differences in Symptoms With Mouthguard Use After Pediatric Sport-Related Concussion.
    Author: van Ierssel J, Ledoux AA, Tang K, Zemek R.
    Journal: J Athl Train; 2021 Nov 01; 56(11):1188-1196. PubMed ID: 33848349.
    Abstract:
    CONTEXT: Current evidence regarding the protective effect of mouthguard use on symptom severity in children and adolescents who sustain sport-related concussions is insufficient to make clinical recommendations. OBJECTIVE: To compare the association between mouthguard use and symptoms stratified by sex in the first 4 weeks after pediatric sport-related concussion. We hypothesized that mouthguard use would be associated with less severe symptoms. DESIGN: Prospective cohort study. SETTING: Nine Canadian pediatric emergency departments (EDs). PATIENTS OR OTHER PARTICIPANTS: Children aged 5 to 18 years who were assessed within 48 hours of concussions sustained during a collision or contact sport. MAIN OUTCOME MEASURE(S): Injury characteristics were collected using the Acute Concussion Evaluation. The primary outcome measure was symptom score (range = 0-6), measured using age-appropriate versions (5-7, 8-12, or 13-18 years) of the Post-Concussion Symptom Inventory. The independent variable was time postconcussion (initial assessment and 1, 2, and 4 weeks). RESULTS: Of 1019 children (73% male; median [interquartile range] age = 13.43 years [11.01-15.27 years]), 42% wore a mouthguard at the time of injury. No significant group-by-sex-by-time interaction was present for symptoms (\(\def\upalpha{\unicode[Times]{x3B1}}\)\(\def\upbeta{\unicode[Times]{x3B2}}\)\(\def\upgamma{\unicode[Times]{x3B3}}\)\(\def\updelta{\unicode[Times]{x3B4}}\)\(\def\upvarepsilon{\unicode[Times]{x3B5}}\)\(\def\upzeta{\unicode[Times]{x3B6}}\)\(\def\upeta{\unicode[Times]{x3B7}}\)\(\def\uptheta{\unicode[Times]{x3B8}}\)\(\def\upiota{\unicode[Times]{x3B9}}\)\(\def\upkappa{\unicode[Times]{x3BA}}\)\(\def\uplambda{\unicode[Times]{x3BB}}\)\(\def\upmu{\unicode[Times]{x3BC}}\)\(\def\upnu{\unicode[Times]{x3BD}}\)\(\def\upxi{\unicode[Times]{x3BE}}\)\(\def\upomicron{\unicode[Times]{x3BF}}\)\(\def\uppi{\unicode[Times]{x3C0}}\)\(\def\uprho{\unicode[Times]{x3C1}}\)\(\def\upsigma{\unicode[Times]{x3C3}}\)\(\def\uptau{\unicode[Times]{x3C4}}\)\(\def\upupsilon{\unicode[Times]{x3C5}}\)\(\def\upphi{\unicode[Times]{x3C6}}\)\(\def\upchi{\unicode[Times]{x3C7}}\)\(\def\uppsy{\unicode[Times]{x3C8}}\)\(\def\upomega{\unicode[Times]{x3C9}}\)\(\def\bialpha{\boldsymbol{\alpha}}\)\(\def\bibeta{\boldsymbol{\beta}}\)\(\def\bigamma{\boldsymbol{\gamma}}\)\(\def\bidelta{\boldsymbol{\delta}}\)\(\def\bivarepsilon{\boldsymbol{\varepsilon}}\)\(\def\bizeta{\boldsymbol{\zeta}}\)\(\def\bieta{\boldsymbol{\eta}}\)\(\def\bitheta{\boldsymbol{\theta}}\)\(\def\biiota{\boldsymbol{\iota}}\)\(\def\bikappa{\boldsymbol{\kappa}}\)\(\def\bilambda{\boldsymbol{\lambda}}\)\(\def\bimu{\boldsymbol{\mu}}\)\(\def\binu{\boldsymbol{\nu}}\)\(\def\bixi{\boldsymbol{\xi}}\)\(\def\biomicron{\boldsymbol{\micron}}\)\(\def\bipi{\boldsymbol{\pi}}\)\(\def\birho{\boldsymbol{\rho}}\)\(\def\bisigma{\boldsymbol{\sigma}}\)\(\def\bitau{\boldsymbol{\tau}}\)\(\def\biupsilon{\boldsymbol{\upsilon}}\)\(\def\biphi{\boldsymbol{\phi}}\)\(\def\bichi{\boldsymbol{\chi}}\)\(\def\bipsy{\boldsymbol{\psy}}\)\(\def\biomega{\boldsymbol{\omega}}\)\(\def\bupalpha{\bf{\alpha}}\)\(\def\bupbeta{\bf{\beta}}\)\(\def\bupgamma{\bf{\gamma}}\)\(\def\bupdelta{\bf{\delta}}\)\(\def\bupvarepsilon{\bf{\varepsilon}}\)\(\def\bupzeta{\bf{\zeta}}\)\(\def\bupeta{\bf{\eta}}\)\(\def\buptheta{\bf{\theta}}\)\(\def\bupiota{\bf{\iota}}\)\(\def\bupkappa{\bf{\kappa}}\)\(\def\buplambda{\bf{\lambda}}\)\(\def\bupmu{\bf{\mu}}\)\(\def\bupnu{\bf{\nu}}\)\(\def\bupxi{\bf{\xi}}\)\(\def\bupomicron{\bf{\micron}}\)\(\def\buppi{\bf{\pi}}\)\(\def\buprho{\bf{\rho}}\)\(\def\bupsigma{\bf{\sigma}}\)\(\def\buptau{\bf{\tau}}\)\(\def\bupupsilon{\bf{\upsilon}}\)\(\def\bupphi{\bf{\phi}}\)\(\def\bupchi{\bf{\chi}}\)\(\def\buppsy{\bf{\psy}}\)\(\def\bupomega{\bf{\omega}}\)\(\def\bGamma{\bf{\Gamma}}\)\(\def\bDelta{\bf{\Delta}}\)\(\def\bTheta{\bf{\Theta}}\)\(\def\bLambda{\bf{\Lambda}}\)\(\def\bXi{\bf{\Xi}}\)\(\def\bPi{\bf{\Pi}}\)\(\def\bSigma{\bf{\Sigma}}\)\(\def\bPhi{\bf{\Phi}}\)\(\def\bPsi{\bf{\Psi}}\)\(\def\bOmega{\bf{\Omega}}\)\({\rm{\chi }}_3^2\) = 0.27; P = .965). Male mouthguard users reported similar symptom scores in the ED (difference in Post-Concussion Symptom Inventory Δ scores [diff] = -0.07; 95% CI = -0.23, 0.09) and at weeks 1 (diff = -0.02; 95% CI = -0.18, 0.14), 2 (diff = -0.03; 95% CI = -0.19, 0.13), and 4 (diff = -0.13; 95% CI = -0.29, 0.04) compared with males who did not wear a mouthguard. Female mouthguard users described minimally higher symptom scores at week 1 compared with non-mouthguard users (diff = 0.29; 95% CI = 0.01, 0.56). In the ED, symptom scores were not different for females who wore a mouthguard and those who did not (diff = 0.22; 95% CI = -0.04, 0.48) or at weeks 2 (diff = 0.22; 95% CI = -0.06, 0.51) or 4 (diff = 0.08; 95% CI = -0.20, 0.36). CONCLUSIONS: Wearing a mouthguard at the time of injury was not associated with reduced acute or subacute symptoms after sport-related concussion in either males or females who were treated in the ED compared with those who did not wear a mouthguard. Athletes are still encouraged to wear mouthguards during sports because overwhelming evidence supports their use in preventing dental injuries.
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