Fagniart Sophie, Charlier Brigitte, Delvaux Véronique, Harmegnies Bernard Georges, Huberlant Anne, Piccaluga Myriam, Huet Kathy
Language Sciences and Metrology Unit, University of Mons (UMONS), Mons, Belgium.
Research Institute for Language Science and Technology, University of Mons (UMONS), Mons, Belgium.
Front Hum Neurosci. 2025 Feb 26;19:1528388. doi: 10.3389/fnhum.2025.1528388. eCollection 2025.
Significant variability in the language performance of children with cochlear implant (CI) is widely recognized in the literature, particularly concerning morphosyntactic (MS) skills. The perceptual limitations of the CI, which can lead to phonological difficulties, may be responsible for this increased vulnerability in grammatical abilities. In this context, the present study focuses on the morphophonemic processing of items distinguished by nasal and oral vowels in the French language - the feature of vowel nasality being known as challenging for the CI population. Links between these performances with chronological/auditory ages and phonological and grammatical production skills will also be explored.
Nineteen children with CIs and 47 children with typical hearing (TH) were assessed for phonological skills through a picture-naming task, perceptual skills through a task involving the sentence/word-picture matching task with word target containing nasal vs. oral vowels, and morphosyntactic production skills through narrative productions. Various measures of linguistic complexity [Mean Length of Utterance (MLU), verbs/utterances (V/U)] and lexical diversity (D index) were evaluated among our groups and linked to perceptual and productive phonological performances. Chronological and auditory ages as well as phonological accuracy and vocabulary levels as been studied as covariates.
Children with CIs displayed significantly lower morphosyntactic (MS) performance compared to peers with TH of the same chronological age, particularly in measures such as MLU in morphemes, complexity of function words, and processing of morphemes carried by nasal and oral vowels. However, when controlling for auditory age or phonological/lexical levels, these differences were no longer significant, suggesting a potential for compensation when similar auditory or linguistic experiences are achieved. Despite this, CI users showed distinct patterns of function word use, with fewer complex forms and more frequent errors, likely reflecting the perceptual challenges linked to CI. Additionally, a specific strong relationship between MS skills and phonological accuracy was observed in the CI group, potentially accounting for the marked inter-individual variability in MS development.
The perceptual limitations of the CI have a significant impact on the linguistic development of children with CI and contribute to the widely documented variability in performance.
人工耳蜗植入(CI)儿童的语言表现存在显著差异,这在文献中已得到广泛认可,尤其是在形态句法(MS)技能方面。人工耳蜗的感知局限性可能导致语音困难,这可能是造成语法能力方面这种易受影响性增加的原因。在此背景下,本研究聚焦于法语中以鼻音和口腔元音区分的项目的形态音位处理——元音鼻音这一特征对人工耳蜗植入人群来说具有挑战性。还将探讨这些表现与实际年龄/听觉年龄以及语音和语法产出技能之间的联系。
通过图片命名任务评估了19名人工耳蜗植入儿童和47名听力正常(TH)儿童的语音技能,通过一项涉及句子/单词 - 图片匹配任务(单词目标包含鼻音与口腔元音)评估了他们的感知技能,并通过叙述性产出评估了他们的形态句法产出技能。在我们的研究组中评估了各种语言复杂性指标[平均语句长度(MLU)、动词/语句(V/U)]和词汇多样性(D指数),并将其与感知和产出性语音表现相关联。将实际年龄和听觉年龄以及语音准确性和词汇水平作为协变量进行了研究。
与相同实际年龄的听力正常同龄人相比,人工耳蜗植入儿童的形态句法(MS)表现显著更低,特别是在诸如语素中的MLU、功能词的复杂性以及鼻音和口腔元音所携带语素的处理等指标上。然而,在控制听觉年龄或语音/词汇水平后,这些差异不再显著,这表明当获得相似的听觉或语言经验时存在补偿的可能性。尽管如此,人工耳蜗使用者表现出不同的功能词使用模式,复杂形式较少且错误更频繁,这可能反映了与人工耳蜗相关的感知挑战。此外,在人工耳蜗植入组中观察到MS技能与语音准确性之间存在特定的强关系,这可能解释了MS发展中显著的个体间差异。
人工耳蜗的感知局限性对人工耳蜗植入儿童的语言发展有重大影响,并导致了文献中广泛记载的表现差异。
