Human Physiology and Sports Physiotherapy Research Group, Faculty of Physical Education and Physiotherapy, Vrije Universiteit Brussel, Pleinlaan 2, 1050, Brussels, Belgium.
Human Physiology and Sports Physiotherapy Research Group, Faculty of Physical Education and Physiotherapy, Vrije Universiteit Brussel, Pleinlaan 2, 1050, Brussels, Belgium; Brussels Human Robotics Research Center (BruBotics), Vrije Universiteit Brussel, 1050, Brussels, Belgium.
Phys Ther Sport. 2024 Mar;66:1-8. doi: 10.1016/j.ptsp.2023.12.009. Epub 2024 Jan 3.
To assess the neurocognitive performance while maintaining balance of patients experiencing CAI compared to healthy controls. In patients with CAI, the affected limb was also compared to the contralateral limb.
A retrospective case-control study.
Laboratory study.
We included 27 patients with CAI and 21 healthy controls.
The study consisted of two sessions, namely familiarisation and experimentation, which were scheduled with a gap of at least one week between them. During the experimental trial, both groups performed the Y-Balance Test and Reactive Balance Test once on each limb.
The main outcome measures are accuracy and visuomotor response time (VMRT) calculated via video-analysis and with the Fitlight™-hardware and software respectively during the Reactive Balance Test (RBT).
No data was excluded from the final analysis. Patients with CAI exhibited significantly lower accuracy than healthy controls, with a mean difference of 8.7% (±3.0)%. There were no differences for VMRT between groups. Additionally, no significant differences were observed between the affected and contralateral limb of the patient group for both accuracy and VMRT.
Patients with CAI showed lower accuracy, but similar VMRT compared to healthy controls during a neurocognitive balance task, indicating impaired neurocognitive function. Patients exhibit comparable speed to healthy individuals when completing neurocognitive balance tasks, yet they display a higher frequency of accuracy errors in accurately perceiving their environment and making decisions under time constraints. Future research should gain more insights in which other cognitive domains are affected in patients with CAI for a better grasp of this condition's underlying mechanism.
评估姿势-眼球反射(CAI)患者在保持平衡时的神经认知表现,并与健康对照组进行比较。在 CAI 患者中,还比较了患侧与对侧肢体。
回顾性病例对照研究。
实验室研究。
我们纳入了 27 名 CAI 患者和 21 名健康对照者。
研究包括两个阶段,即熟悉阶段和实验阶段,两个阶段之间至少间隔一周。在实验过程中,两组均在每侧肢体上进行一次 Y 平衡测试和反应平衡测试。
主要观察指标是通过视频分析和分别使用 Fitlight™硬件和软件计算的反应平衡测试(RBT)中的准确性和视觉运动反应时间(VMRT)。
最终分析中没有排除任何数据。CAI 患者的准确性明显低于健康对照组,平均差异为 8.7%(±3.0)%。两组之间的 VMRT 无差异。此外,患者组患侧和对侧肢体在准确性和 VMRT 方面均无显著差异。
在神经认知平衡任务中,CAI 患者的准确性较低,但与健康对照组相比,VMRT 相似,表明神经认知功能受损。在完成神经认知平衡任务时,患者的速度与健康个体相当,但在准确感知环境和在时间限制下做出决策时,准确性错误的频率更高。未来的研究应该更深入地了解 CAI 患者在哪些其他认知领域受到影响,以便更好地理解这种情况的潜在机制。
