慢性踝关节不稳与衰老过程中较小的感觉运动缺陷及上小脑脚更大的完整性相关。
Chronic Ankle Instability Is Associated With Smaller Sensorimotor Deficits and Greater Integrity of the Superior Cerebellar Peduncles With Aging.
作者信息
Wang Zikun, Xue Xiao'ao, Zheng Shanshan, Li Yi, Wang Ziyuan, Zhang Yuwen, Chen Yushi, Lu Rong, Sun Yang, Wang He, Hua Yinghui
机构信息
Department of Sports Medicine, Huashan Hospital, Fudan University, Shanghai, PR China.
School of Exercise and Health, Shanghai University of Sport, Shanghai, PR China.
出版信息
Clin Orthop Relat Res. 2025 Jul 14. doi: 10.1097/CORR.0000000000003604.
BACKGROUND
Chronic ankle instability is associated with balance deficits and maladaptive cerebellar neuroplasticity across age groups. However, it remains unclear how aging and chronic ankle instability interact to influence these abnormalities, particularly in cerebellar structures that are essential for proprioception and motor coordination. This gap in understanding limits the development of age-specific rehabilitation strategies.
QUESTIONS/PURPOSES: This study aimed to: (1) determine the interaction effect of chronic ankle instability and aging on sensorimotor deficits, (2) assess whether this interaction is reflected in superior and inferior cerebellar peduncle microstructure changes, and (3) evaluate the correlation between altered cerebellar peduncle integrity and balance performance in patients with chronic ankle instability and a control cohort.
METHODS
Between August 2022 and January 2024, we screened 134 individuals for participation. Of these, 61% (82 of 134) were considered potentially eligible based on the inclusion criteria. One patient in the control group was excluded because of poor imaging quality. Ultimately, 60% (81 of 134) of participants were included in the final analysis, consisting of 51% (41 of 81) in the chronic ankle instability group (18 females, age 30 ± 6 years) and 49% (40 of 81) in the control group (17 females, age 29 ± 8 years). We collected participants' demographic information, clinical history, as well as clinical data, including Cumberland Ankle Instability Tool scores for self-reported instability and Tegner activity scores. All participants underwent the Y-balance test to evaluate sensorimotor deficits and diffusion-weighted imaging to assess the structure of the central nervous system. We focused on the superior and inferior cerebellar peduncles as regions of interest and performed both traditional diffusion tensor imaging and advanced neurite orientation dispersion and density imaging to evaluate the cerebellar white matter microstructure. Multivariable linear regressions with interaction terms were conducted to examine the interaction effects of chronic ankle instability and age on primary clinical outcomes (Y-balance test scores and diffusion tensor imaging/neurite orientation dispersion and density imaging outcomes). Correlation analyses between posteromedial reach distances on the Y-balance test and significant diffusion tensor imaging/neurite orientation dispersion and density imaging outcomes were performed within the chronic ankle instability and the control groups, respectively. In particular, we calculated a standardized beta coefficient (β*) for each regression model to facilitate comparison of effect sizes across variables to more easily judge which predictors contributed more substantially to the outcomes.
RESULTS
After controlling for potential confounding factors including sex, BMI, and Tegner activity scores, we found that although participants with chronic ankle instability generally had poorer dynamic balance, the group differences in anterior (β = 0.58 × 10-2 [95% CI 0.09 × 10-2 to 1.07 × 10-2]; β* = 1.11; p = 0.02), posteromedial (β = 0.74 × 10-2 [95% CI 0.10 × 10-2 to 1.38 × 10-2]; β* = 1.15; p = 0.03), and average Y-balance test scores (β = 0.56 × 10-2 [95% CI 0.02 × 10-2 to 1.10 × 10-2]; β* = 1.01; p = 0.046) were smaller in older participants. Similarly, we found that compared with controls, participants with chronic ankle instability generally had impaired nerve pathways in superior cerebellar peduncles, characterized by lower fractional anisotropy values and higher orientation dispersion index values. However, these structural differences were smaller among patients with older age, in fractional anisotropy (β = 1.96 × 10-3 [95% CI 0.09 × 10-3 to 3.82 × 10-3]; β* = 0.93; p = 0.04), and orientation dispersion index values (β = -1.41 × 10-3 [95% CI -2.49 × 10-3 to -0.33 × 10-3]; β* = -1.16; p = 0.01) compared with age-matched controls. In the superior cerebellar peduncles of the control group, participants with higher fractional anisotropy values had slightly greater posteromedial reach distances on the Y-balance test (r = 0.39; p = 0.01), suggesting better dynamic balance. In contrast, participants with higher orientation dispersion index values had slightly shorter posteromedial reach distances (r = -0.32; p = 0.04), suggesting poorer dynamic balance.
CONCLUSION
We found that the combination of older age and chronic ankle instability correlates with improved sensorimotor testing and potentially adaptive structural white matter changes in the cerebellum, particularly in the superior cerebellar peduncles. These findings suggest a possible age-related neural adaptation and highlight the need for future longitudinal and interventional studies to clarify these associations and explore whether age-specific rehabilitation strategies could be beneficial.
LEVEL OF EVIDENCE
Level III, prognostic study.
背景
慢性踝关节不稳与各年龄组的平衡缺陷和小脑适应性神经可塑性相关。然而,目前尚不清楚衰老与慢性踝关节不稳如何相互作用以影响这些异常情况,尤其是在对本体感觉和运动协调至关重要的小脑结构中。这种认知上的差距限制了针对特定年龄的康复策略的发展。
问题/目的:本研究旨在:(1)确定慢性踝关节不稳与衰老对感觉运动缺陷的交互作用;(2)评估这种交互作用是否反映在小脑上下脚的微观结构变化中;(3)评估慢性踝关节不稳患者和对照组中,小脑脚完整性改变与平衡能力之间的相关性。
方法
在2022年8月至2024年1月期间,我们筛选了134名个体参与研究。其中,根据纳入标准,61%(134名中的82名)被认为可能符合条件。对照组中有1名患者因成像质量差被排除。最终,60%(134名中的81名)的参与者被纳入最终分析,其中慢性踝关节不稳组占51%(81名中的41名)(18名女性,年龄30±6岁),对照组占49%(81名中的40名)(17名女性,年龄29±8岁)。我们收集了参与者的人口统计学信息、临床病史以及临床数据,包括用于自我报告不稳的坎伯兰踝关节不稳工具评分和特格纳活动评分。所有参与者均接受Y平衡测试以评估感觉运动缺陷,并进行弥散加权成像以评估中枢神经系统结构。我们将小脑上下脚作为感兴趣区域,同时进行传统的弥散张量成像和先进的神经突方向离散度和密度成像,以评估小脑白质微观结构。进行带有交互项的多变量线性回归,以检验慢性踝关节不稳和年龄对主要临床结局(Y平衡测试评分和弥散张量成像/神经突方向离散度和密度成像结果)的交互作用。分别在慢性踝关节不稳组和对照组中,进行Y平衡测试中后内侧伸展距离与显著的弥散张量成像/神经突方向离散度和密度成像结果之间的相关性分析。特别是,我们为每个回归模型计算了标准化β系数(β*),以促进跨变量效应大小的比较,从而更轻松地判断哪些预测因素对结局的贡献更大。
结果
在控制了包括性别、体重指数和特格纳活动评分等潜在混杂因素后,我们发现,尽管慢性踝关节不稳的参与者通常动态平衡较差,但老年参与者在前(β = 0.58×10⁻² [95%CI 0.09×10⁻²至1.07×10⁻²];β* = 1.11;p = 0.02)、后内侧(β = 0.74×10⁻² [95%CI 0.10×10⁻²至1.38×10⁻²];β* = 1.15;p = 0.03)以及平均Y平衡测试评分(β = 0.56×10⁻² [第95%CI 0.02×10⁻²至1.10×10⁻²];β* = 1.01;p = 0.046)方面的组间差异较小。同样,我们发现,与对照组相比,慢性踝关节不稳的参与者通常小脑上脚的神经通路受损,表现为较低的各向异性分数值和较高的方向离散度指数值。然而,在老年患者中,这些结构差异在各向异性分数(β = 1.96×10⁻³ [95%CI 0.09×10⁻³至3.82×10⁻³];β* = 0.93;p = 0.04)和方向离散度指数值(β = -1.41×10⁻³ [95%CI -2.49×10⁻³至-0.33×10⁻³];β* = -1.16;p = 0.01)方面,与年龄匹配的对照组相比更小。在对照组的小脑上脚中,各向异性分数值较高的参与者在Y平衡测试中的后内侧伸展距离略长(r = 0.39;p = 0.01),表明动态平衡较好。相反,方向离散度指数值较高的参与者后内侧伸展距离略短(r = -0.32;p = 0.04),表明动态平衡较差。
结论
我们发现,老年与慢性踝关节不稳的结合与感觉运动测试的改善以及小脑,特别是小脑上脚潜在的适应性白质结构变化相关。这些发现提示了一种可能的与年龄相关的神经适应性,并强调未来需要进行纵向和干预性研究,以阐明这些关联,并探索针对特定年龄的康复策略是否有益。
证据水平
III级,预后研究。
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