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一种多方面的方法来解读青少年脑震荡后的反应时间缺陷。

A Multifaceted Approach to Interpreting Reaction Time Deficits After Adolescent Concussion.

作者信息

Barnes Alice, Smulligan Katherine, Wingerson Mathew J, Little Casey, Lugade Vipul, Wilson Julie C, Howell David R

机构信息

Sports Medicine Center, Children's Hospital Colorado, Aurora.

Departments of Orthopedics, University of Colorado School of Medicine, Aurora.

出版信息

J Athl Train. 2024 Feb 1;59(2):145-152. doi: 10.4085/1062-6050-0566.22.

DOI:10.4085/1062-6050-0566.22
PMID:36701688
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10895397/
Abstract

CONTEXT

Reaction time (RT) is a critical element of return to participation (RTP), and impairments have been linked to subsequent injury after a concussion. Current RT assessments have limitations in clinical feasibility and in the identification of subtle deficits after concussion symptom resolution.

OBJECTIVES

To examine the utility of RT measurements (clinical drop stick, simple stimulus-response, single-task Stroop, and dual-task Stroop) to differentiate between adolescents with concussion and uninjured control individuals at initial assessment and RTP.

DESIGN

Prospective cohort study.

SETTING

A pediatric sports medicine center associated with a regional tertiary care hospital.

PATIENTS OR OTHER PARTICIPANTS

Twenty-seven adolescents with a concussion (mean age = 14.8 ± 2.1 years; 52% female; tested 7.0 ± 3.3 days postconcussion) and 21 uninjured control individuals (mean age = 15.5 ± 1.6 years; 48% female).

MAIN OUTCOME MEASURE(S): Participants completed the Post-Concussion Symptoms Inventory (PCSI) and a battery of RT tests: clinical drop stick, simple stimulus-response, single-task Stroop, and dual-task Stroop.

RESULTS

The concussion group demonstrated slower clinical drop stick (β = 58.8; 95% CI = 29.2, 88.3; P < .001) and dual-task Stroop (β = 464.2; 95% CI = 318.4, 610.0; P < .001) RT measures at the initial assessment than the uninjured control group. At 1-month follow up, the concussion group displayed slower clinical drop stick (238.9 ± 25.9 versus 188.1 ± 21.7 milliseconds; P < .001; d = 2.10), single-task Stroop (1527.8 ± 204.5 versus 1319.8 ± 133.5 milliseconds; P = .001; d = 1.20), and dual-task Stroop (1549.9 ± 264.7 versus 1341.5 ± 114.7 milliseconds; P = .002; d = 1.04) RT than the control group, respectively, while symptom severity was similar between groups (7.4 ± 11.2 versus 5.3 ± 6.5; P = .44; d = 0.24). Classification accuracy and area under the curve (AUC) values were highest for the clinical drop stick (85.1% accuracy, AUC = 0.86, P < .001) and dual-task Stroop (87.2% accuracy, AUC = 0.92, P < .002) RT variables at initial evaluation.

CONCLUSIONS

Adolescents recovering from concussion may have initial RT deficits that persist despite symptom recovery. The clinical drop stick and dual-task Stroop RT measures demonstrated high clinical utility given high classification accuracy, sensitivity, and specificity to detect postconcussion RT deficits and may be considered for initial and RTP assessment.

摘要

背景

反应时间(RT)是恢复参与运动(RTP)的关键要素,脑震荡后功能障碍与后续损伤有关。目前的反应时间评估在临床可行性以及脑震荡症状缓解后细微缺陷的识别方面存在局限性。

目的

研究反应时间测量方法(临床落棒测试、简单刺激反应测试、单任务Stroop测试和双任务Stroop测试)在初始评估和恢复参与运动时区分脑震荡青少年与未受伤对照个体的效用。

设计

前瞻性队列研究。

地点

一家与地区三级护理医院相关的儿科运动医学中心。

患者或其他参与者

27名脑震荡青少年(平均年龄=14.8±2.1岁;52%为女性;脑震荡后7.0±3.3天接受测试)和21名未受伤对照个体(平均年龄=15.5±1.6岁;48%为女性)。

主要结局指标

参与者完成了脑震荡后症状量表(PCSI)以及一系列反应时间测试:临床落棒测试、简单刺激反应测试、单任务Stroop测试和双任务Stroop测试。

结果

在初始评估时,脑震荡组的临床落棒测试(β=58.8;95%置信区间=29.2,88.3;P<.001)和双任务Stroop测试(β=464.2;95%置信区间=318.4,610.0;P<.001)反应时间测量结果比未受伤对照组慢。在1个月随访时,脑震荡组的临床落棒测试(238.9±25.9对188.犹他州立大学21.7毫秒;P<.001;d=2.10)、单任务Stroop测试(1527.8±204.5对1319.8±133.5毫秒;P=.001;d=1.20)和双任务Stroop测试(1549.9±264.7对1341.5±114.7毫秒;P=.002;d=1.04)反应时间均比对照组慢,而两组间症状严重程度相似(7.4±11.2对5.3±6.5;P=.44;d=0.24)。在初始评估时,临床落棒测试(准确率85.1%,曲线下面积[AUC]=0.86,P<.001)和双任务Stroop测试(准确率87.2%,AUC=0.92,P<.002)反应时间变量的分类准确率和曲线下面积值最高。

结论

从脑震荡中恢复的青少年可能存在初始反应时间缺陷,尽管症状已恢复,但这些缺陷仍然存在。临床落棒测试和双任务Stroop测试反应时间测量方法在检测脑震荡后反应时间缺陷方面具有较高的分类准确率、敏感性和特异性,显示出较高的临床效用,可考虑用于初始评估和恢复参与运动评估。

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