Heart and Stroke Foundation Centre for Stroke Recovery, ON, Canada.
Behav Brain Funct. 2010 Jan 19;6:6. doi: 10.1186/1744-9081-6-6.
Investigators frequently quantify and evaluate the location and size of stroke lesions to help uncover cerebral anatomical correlates of deficits observed after first-ever stroke. However, it is common to discover silent infarcts such as lacunes in patients identified clinically as 'first-ever' stroke, and it is unclear if including these incidental findings may impact lesion-based investigations of brain-behaviour relationships. There is also debate concerning how to best define the boundaries of necrotic stroke lesions that blend in an ill-defined way into surrounding tissue, as it is unclear whether including this altered peri-necrotic tissue region may influence studies of brain-behaviour relationships. Therefore, for patients with clinically overt stroke, we examined whether including altered peri-necrotic tissue and incidental silent strokes influenced either lesion volume correlations with a measure of sensorimotor impairment or the anatomical localization of this impairment established using subtraction lesion analysis.
Chronic stroke lesions of 41 patients were manually traced from digital T1-MRI to sequentially include the: necrotic lesion core, altered peri-necrotic tissue, silent lesions in the same hemisphere as the index lesion, and silent lesions in the opposite hemisphere. Lesion volumes for each region were examined for correlation with motor impairment scores, and subtraction analysis was used to highlight anatomical lesion loci associated with this deficit.
For subtraction lesion analysis, including peri-necrotic tissue resulted in a larger region of more frequent damage being seen in the basal ganglia. For correlational analysis, only the volume of the lesion core was significantly associated with motor impairment scores (r = -0.35, p = 0.025). In a sub-analysis of patients with small subcortical index lesions, adding silent lesions in the opposite hemisphere to the volume of the index stroke strengthened the volume-impairment association.
Including peri-necrotic tissue strengthened lesion localization analysis, but the influence of peri-necrotic tissue and incidental lesions on lesion volume correlations with motor impairment was negligible barring a small index lesion. Overall, the potential influence of incidental lesions and peri-necrotic tissue on brain-behaviour relationships may depend on the characteristics of the index stroke and on whether one is examining the relationship between lesion volume and impairment or lesion location and impairment.
研究人员经常量化和评估中风病变的位置和大小,以帮助揭示首次中风后观察到的大脑解剖学相关性缺陷。然而,在临床上被诊断为“首次”中风的患者中,经常会发现无症状性梗死,如腔隙性梗死,并且尚不清楚是否包含这些偶发性发现是否会影响基于病变的脑-行为关系研究。关于如何最好地定义坏死性中风病变的边界也存在争议,这些病变以一种定义不明确的方式与周围组织融合,因为尚不清楚是否包含这种改变的坏死周围组织区域是否会影响脑-行为关系研究。因此,对于有临床明显中风的患者,我们研究了是否包含改变的坏死周围组织和偶发性无症状性中风是否会影响与感觉运动障碍测量相关的病变体积相关性,或者使用减法病变分析确定的这种损伤的解剖定位。
从数字 T1-MRI 手动追踪 41 例慢性中风病变,依次包括:坏死病变核心、改变的坏死周围组织、与病变同侧的无症状性病变以及对侧无症状性病变。检查每个区域的病变体积与运动障碍评分的相关性,并使用减法分析突出与该缺陷相关的解剖病变部位。
对于减法病变分析,包含坏死周围组织会导致基底节中更频繁出现更大区域的损伤。对于相关性分析,只有病变核心的体积与运动障碍评分显著相关(r = -0.35,p = 0.025)。在对小皮质下指数病变患者的亚分析中,将对侧无症状性病变的体积添加到指数中风的体积中,增强了体积-损伤的关联。
包含坏死周围组织增强了病变定位分析,但坏死周围组织和偶发性病变对病变体积与运动障碍相关性的影响可以忽略不计,除非指数病变较小。总体而言,偶发性病变和坏死周围组织对脑-行为关系的潜在影响可能取决于指数中风的特征,以及是否检查病变体积与损伤之间的关系或病变位置与损伤之间的关系。
