Bosco Paolo, Podda Irina, Cipriano Emilio, Bombonato Clara, Cipriani Paola, Bartoli Mariaelisa, Pasquariello Rosa, Fiori Simona, Biagi Laura, Chilosi Anna
IRCCS Stella Maris Foundation, Pisa 56128, Italy.
Parole al Centro Studio di Logopedia, Genova 16129, Italy.
Brain Commun. 2025 Sep 16;7(5):fcaf302. doi: 10.1093/braincomms/fcaf302. eCollection 2025.
Childhood apraxia of speech is a motor speech disorder characterized by deficits in programming, planning, and movement control, necessary for speech production with severe impact on oral and written language. Currently there are few studies on how speech is functionally rooted in neuroanatomy in children with apraxia of speech. The present cross-sectional study aimed at further identifying the specific neuroanatomical substrate of childhood apraxia of speech and at analysing the relationship between Magnetic Resonance Imaging findings and speech measures in a relatively large group of Italian children with this disorder. The brain structures of 71 children with apraxia of speech were compared to those of 30 age-matched typically developing peers. For each subject, the morphological brain images were segmented according to a specific atlas, and cortical thickness and volume measures were extracted from cortical and subcortical structures, respectively. Moreover, using voxel-based morphometry with a diffeomorphic anatomical registration procedure, grey matter morphometry of the two groups was compared. We also used diffusion weighted imaging (in 67 out of 71 children with apraxia of speech and all typically developing peers) to investigate the white matter integrity in specific speech-language-related tracts, comparing the mean fractional anisotropy along the tracts. Children with apraxia showed significantly greater grey matter volumes and increased cortical thickness than their typically developing peers in several areas involved in speech and language processing. After correction for multiple comparisons, significant increments in cortical thickness and volume survived in the left postcentral gyrus and bilaterally in the thalami. The diffusion study revealed a significant reduction of fractional anisotropy in childhood apraxia of speech with respect to typically developing children in the left frontal aslant tract in both supplementary motor area and pre-supplementary motor components. Speech severity and diadochokinetic rate of children with apraxia of speech correlated significantly with cortical thickness and volume measures extracted from the rostral middle-frontal gyrus, the left precuneus, and the left thalamus. The same speech measures correlated also with the fractional anisotropy values along the frontal aslant tract. Our results revealed grey matter alterations in childhood apraxia of speech, in a widespread circuit of cortical and subcortical areas, and in particular in both thalami and the left postcentral gyrus, crucial regions for sensorimotor control. Moreover, diffusion study results also provided further support to the involvement, in childhood apraxia of speech, of the left frontal aslant tract, a fundamental pathway for speech movement planning and programming.
儿童言语失用症是一种运动性言语障碍,其特征在于言语产生所需的编程、计划和运动控制方面存在缺陷,对口语和书面语言有严重影响。目前,关于言语在言语失用症儿童的神经解剖学中如何在功能上扎根的研究很少。本横断面研究旨在进一步确定儿童言语失用症的特定神经解剖学基础,并分析在一组相对较大的患有这种疾病的意大利儿童中磁共振成像结果与言语测量之间的关系。将71名言语失用症儿童的脑结构与30名年龄匹配的发育正常的同龄人进行比较。对于每个受试者,根据特定图谱对大脑形态图像进行分割,并分别从皮质和皮质下结构中提取皮质厚度和体积测量值。此外,使用基于体素的形态测量法和同胚解剖配准程序,比较两组的灰质形态测量。我们还使用扩散加权成像(71名言语失用症儿童中的67名以及所有发育正常的同龄人)来研究特定言语语言相关束中的白质完整性,比较沿束的平均分数各向异性。与发育正常的同龄人相比,言语失用症儿童在涉及言语和语言处理的几个区域中显示出明显更大的灰质体积和增加的皮质厚度。在进行多重比较校正后,皮质厚度和体积的显著增加在左侧中央后回以及双侧丘脑得以保留。扩散研究表明,与发育正常的儿童相比,言语失用症儿童在辅助运动区和前辅助运动区的左侧额斜束中的分数各向异性显著降低。言语失用症儿童的言语严重程度和快速交替运动速率与从额中回前部、左侧楔前叶和左侧丘脑中提取的皮质厚度和体积测量值显著相关。相同的言语测量也与沿额斜束的分数各向异性值相关。我们的结果揭示了儿童言语失用症中灰质的改变,在广泛的皮质和皮质下区域回路中,特别是在丘脑和左侧中央后回,这是感觉运动控制的关键区域。此外,扩散研究结果也进一步支持了左侧额斜束在儿童言语失用症中的参与,这是言语运动计划和编程的基本通路。
