脑震荡的急性和长期效应检测:双任务步态平衡控制与计算机神经认知测试。
Detection of Acute and Long-Term Effects of Concussion: Dual-Task Gait Balance Control Versus Computerized Neurocognitive Test.
机构信息
Sports Medicine Center, Children's Hospital Colorado, Aurora, CO; Department of Orthopedics, University of Colorado School of Medicine, Aurora, CO; The Micheli Center for Sports Injury Prevention, Waltham, MA.
Department of Human Physiology, University of Oregon, Eugene, OR.
出版信息
Arch Phys Med Rehabil. 2018 Jul;99(7):1318-1324. doi: 10.1016/j.apmr.2018.01.025. Epub 2018 Feb 16.
OBJECTIVE
To examine the acute (within 72h of injury) and long-term (2mo postinjury) independent associations between objective dual-task gait balance and neurocognitive measurements among adolescents and young adults with a concussion and matched controls.
DESIGN
Longitudinal case-control.
SETTING
Motion analysis laboratory.
PARTICIPANTS
A total of 95 participants completed the study: 51 who sustained a concussion (mean age, 17.5±3.3y; 71% men) and 44 controls (mean age, 17.7±2.9y; 72% men). Participants who sustained a concussion underwent a dual-task gait analysis and computerized neurocognitive testing within 72 hours of injury and again 2 months later. Uninjured controls also completed the same test protocol in similar time increments.
INTERVENTIONS
Not applicable.
MAIN OUTCOME MEASURES
We compared dual-task gait balance control and computerized neurocognitive test performance between groups using independent samples t tests. Multivariable binary logistic regression models were then constructed for each testing time to determine the association between group membership (concussion vs control), dual-task gait balance control, and neurocognitive function.
RESULTS
Medial-lateral center-of-mass displacement during dual-task gait was independently associated with group membership at the initial test (adjusted odds ratio [aOR], 2.432; 95% confidence interval [CI], 1.269-4.661) and 2-month follow-up test (aOR, 1.817; 95% CI, 1.014-3.256) tests. Visual memory composite scores were significantly associated with group membership at the initial hour postinjury time point (aOR, .953; 95% CI, .833-.998). However, the combination of computerized neurocognitive test variables did not predict dual-task gait balance control for participants with concussion, and no single neurocognitive variable was associated with dual-task gait balance control at either testing time.
CONCLUSIONS
Dual-task assessments concurrently evaluating gait and cognitive performance may allow for the detection of persistent deficits beyond those detected by computerized neurocognitive deficits alone.
目的
研究青少年和年轻成年人脑震荡后急性(损伤后 72 小时内)和长期(损伤后 2 个月)客观双重任务步态平衡与神经认知测量之间的独立相关性,并与匹配的对照组进行比较。
设计
纵向病例对照研究。
地点
运动分析实验室。
参与者
共有 95 名参与者完成了研究:51 名脑震荡患者(平均年龄 17.5±3.3 岁;71%为男性)和 44 名对照组(平均年龄 17.7±2.9 岁;72%为男性)。脑震荡患者在受伤后 72 小时内和 2 个月后接受双重任务步态分析和计算机神经认知测试。未受伤的对照组也在相似的时间间隔内完成相同的测试方案。
干预
不适用。
主要观察指标
使用独立样本 t 检验比较两组之间的双重任务步态平衡控制和计算机神经认知测试表现。然后,对于每个测试时间,构建多变量二项逻辑回归模型,以确定组别的归属(脑震荡与对照组)、双重任务步态平衡控制和神经认知功能之间的关联。
结果
在初始测试和 2 个月随访测试中,双重任务步态时的重心横向位移均与组别的归属独立相关(调整后的优势比[OR],2.432;95%置信区间[CI],1.269-4.661)。视觉记忆综合评分在受伤后初始小时与组别的归属显著相关(OR,0.953;95%CI,0.833-0.998)。然而,在脑震荡患者中,计算机神经认知测试变量的组合并不能预测双重任务步态平衡控制,而且在任何测试时间点,都没有单一的神经认知变量与双重任务步态平衡控制相关。
结论
同时评估步态和认知表现的双重任务评估可能会发现计算机神经认知缺陷单独检测不到的持续性缺陷。
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