[使用三种不同的病变-症状绘图方法确定有助于中风后上肢恢复的大脑结构]。

Harefuah Pub Date : 2024-09-01
Shay Ofir-Geva, Isaac Meilijson, Silvi Frenkel-Toledo, Nachum Soroker
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引用次数: 0

摘要

目的:确定对中风后上肢残余运动功能至关重要的大脑结构,是开发先进治疗模式以改善脑损伤患者康复效果的重要一步,例如旨在诱导运动关键脑区神经可塑性的非侵入性脑刺激技术。在目前的研究中,我们尝试使用三种不同的病变-症状映射(LSM)方法来识别中风患者上肢运动功能的关键脑区:方法:我们使用三种 LSM 方法分析了卢温斯坦康复医疗中心神经康复部门收治的 107 名患者的脑成像数据和 Fugl-Meyer 上肢评估(FMA)评分:结果显示:在左半球受损的患者中,FMA评分最高的是右半球,最低的是左半球:与右半球受损(RHD)患者相比,左半球受损(LHD)患者的脑区数量相对较少。在左半球受损患者中,发现两个对运动规划非常重要的区域--辅助运动区和前运动区--至关重要。而对于右半脑受损患者,颞叶、额叶和岛叶皮层的部分区域以及扣带回被检测到为关键区域。大脑皮层下结构(基底节、放射冠、内囊和上纵筋束)在两个半球均被检测到:尽管不同的 LSM 方法之间存在差异,但所有方法都一致表明,LHD 与 RHD 后上肢功能的关键脑区之间存在差异。这些发现支持了之前的研究,即左半球(运动主导)的相互联系更紧密,因此具有更高的冗余性,对局灶损伤的脆弱性也更低。
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[IDENTIFYING BRAIN STRUCTURES THAT CONTRIBUTE TO UPPER-LIMB RECOVERY POST STROKE USING THREE DIFFERENT METHODS OF LESION-SYMPTOM MAPPING].

Aims: The identification of brain structures that are critical for upper limb residual motor function following stroke is an essential step towards the development of advanced treatment modalities for improving rehabilitation outcomes among brain-injured patients, such as non-invasive brain stimulation techniques, which aim to induce neuroplasticity in motor-critical brain regions. In the current study we attempted to identify the critical brain regions for upper limb motor function among stroke patients, using three different methods of lesion-symptom mapping (LSM).

Methods: Brain imaging data and Fugl-Meyer Assessment for upper-limb (FMA) scores for 107 patients admitted to the neurological rehabilitation department at Loewenstein Rehabilitation Medical Center, were analyzed using 3 LSM methods: Voxel-based Lesion-Symptom Mapping (VLSM), Region-based Lesion-Symptom Mapping (RLSM), and Multi-perturbation Shapley-value Analysis (MSA).

Results: In left-hemispheric damaged (LHD) patients only a relatively small number of brain regions were found, in comparison with right-hemispheric damaged (RHD) patients. For LHD, two regions important for movement planning were found to be critical - the supplementary motor area and the premotor area. For RHD, parts of the temporal, frontal and insular cortices, as well as the cingulate gyrus were exclusively detected as critical. Sub-cortical brain structures (basal ganglia, corona radiata, internal capsule and superior longitudinal fasciculus) were detected in both hemispheres.

Conclusions: Despite the variability between different LSM methods, all methods have consistently shown a difference between the critical brain-regions for upper-limb function following LHD vs. RHD. These findings support previous works suggesting that the left (motor-dominant) hemisphere is more inter-connected, thus it has higher redundancy and decreased vulnerability to focal damage.

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