1Department of Audiology, University of Social Welfare and Rehabilitation Sciences, Tehran, Iran; 2Department of Otolaryngology, School of Medicine, Iran University of Medical Sciences, Tehran, Iran; 3Department of Occupational Therapy, University of Social Welfare and Rehabilitation Sciences, Tehran, Iran; 4Department of Psychology, University of Tehran, Tehran, Iran; 5Department of Statistics, University of Social Welfare and Rehabilitation Sciences, Tehran, Iran; 6Department of Audiology, Jondi Shapour University of Medical Sciences, Ahvaz, Iran; and 7Department of Psychology, Shahid Beheshti University, Tehran, Iran.
Ear Hear. 2017 Nov/Dec;38(6):e352-e358. doi: 10.1097/AUD.0000000000000451.
Vestibular dysfunction in childhood can have a major effect on a child's developmental process. Balance function has been reported to be poorer in children with attention deficit and hyperactivity disorder (ADHD) than in their typically developing peers. Due to contradictory available evidence and the paucity of research on vestibular function specifically in children with combined ADHD (cADHD), we designed this aged-matched study to assess vestibular function in children with cADHD.
We enrolled 30 typically developing children (15 boys and 15 girls; mean age, 9 years 6 months; range, 7 to 12 years) and 33 children (19 boys and 14 girls; mean age, 9 years 0 months; range, 7 to 12 years) with cADHD diagnosed by our research psychiatrist. Typically developing controls were used to obtain normative data on vestibular testing and to examine the impact of age on the vestibular response parameters, and these results were compared with those of the cADHD group. All children underwent the sinusoidal harmonic acceleration subtype of the rotary chair test (0.01, 0.02, 0.08, 0.16, and 0.32 Hz) and the cervical vestibular-evoked myogenic potential (cVEMP) test.
At all five frequencies in the sinusoidal harmonic acceleration test, there was no significant correlation between age and any of the following rotary chair response parameters in typically developing children: vestibulo-ocular reflex (VOR) gain, phase, asymmetry, and fixation index. Furthermore, there was no significant correlation between age and any of the following cVEMP parameters for the right and left ears of control group: p1 and n1 latency, amplitude, threshold, and amplitude ratio. Significantly higher VOR gains were observed for children with cADHD at frequencies of 0.01 (p = 0.001), 0.08 (p < 0.001), 0.16 (p = 0.001), and 0.32 (p = 0.003) Hz, when compared with the control group. Furthermore, fixation abilities were significantly lower in the cADHD group than in the control group at 0.16 (p < 0.001) and 0.32 (p < 0.001) Hz. cVEMP parameters showed no significant differences between the two groups.
Our results showed higher VOR gains and poorer fixation abilities in children with cADHD compared with typically developing children. Cerebellar dysfunction in patients with ADHD has been well documented in the literature, and our findings of cVEMP and rotary chair tests for these children showed impaired vestibular function in these children, based on increased VOR gain values and decreased fixation capabilities. Because VOR gain is mediated through the inferior olive and controlled by the cerebellum, our results suggest that central inhibition of vestibular function may be deficient in children with cADHD, resulting in higher VOR gains. Also, there is general agreement that failure of fixation suppression indicates a central lesion. The lesion can originate from the parietal-occipital cortex, the pons, or the cerebellum. However, failure of fixation suppression is most prominent in lesions involving the midline cerebellum that could be counted for children with cADHD. We believe that this contribution is theoretically and practically relevant as high VOR gains and decreased suppression capabilities may result in symptoms of reading and writing difficulties, learning disabilities, vertigo, and motion sickness in these children. Therefore, assessment of vestibular function in children with cADHD at a young age must be considered when developing rehabilitation protocols for these children.
儿童前庭功能障碍会对其发育过程产生重大影响。有报道称,与正常发育的同龄人相比,患有注意缺陷多动障碍(ADHD)的儿童平衡功能较差。由于现有证据存在矛盾,并且关于儿童注意力缺陷多动障碍(cADHD)患者前庭功能的研究很少,因此我们设计了这项年龄匹配的研究,以评估 cADHD 儿童的前庭功能。
我们招募了 30 名正常发育的儿童(15 名男孩和 15 名女孩;平均年龄 9 岁 6 个月;年龄范围 7 至 12 岁)和 33 名患有 cADHD 的儿童(19 名男孩和 14 名女孩;平均年龄 9 岁 0 个月;年龄范围 7 至 12 岁),这些儿童均由我们的研究精神科医生诊断为 cADHD。正常发育的对照组用于获得前庭测试的正常参考数据,并检查年龄对前庭反应参数的影响,然后将这些结果与 cADHD 组进行比较。所有儿童均接受了旋转椅测试的正弦谐波加速度亚型(0.01、0.02、0.08、0.16 和 0.32 Hz)和颈性前庭诱发肌源性电位(cVEMP)测试。
在正弦谐波加速度测试的所有五个频率下,正常发育儿童的前庭眼反射(VOR)增益、相位、不对称性和固定指数与年龄均无显著相关性。此外,对照组右耳和左耳的 cVEMP 参数,如 p1 和 n1 潜伏期、振幅、阈值和振幅比与年龄均无显著相关性。与对照组相比,患有 cADHD 的儿童在 0.01(p = 0.001)、0.08(p < 0.001)、0.16(p = 0.001)和 0.32(p = 0.003)Hz 的频率下 VOR 增益明显更高。此外,与对照组相比,cADHD 组在 0.16(p < 0.001)和 0.32(p < 0.001)Hz 的固定能力明显较低。两组之间的 cVEMP 参数没有显著差异。
与正常发育的儿童相比,患有 cADHD 的儿童的 VOR 增益更高,固定能力更差。ADHD 患者的小脑功能障碍在文献中已有充分记载,我们对这些儿童进行的 cVEMP 和旋转椅测试的结果显示,这些儿童的前庭功能受损,表现为 VOR 增益值增加和固定能力下降。由于 VOR 增益是通过下橄榄核介导的,并受小脑控制,因此我们的结果表明,cADHD 儿童的前庭功能中枢抑制可能不足,导致 VOR 增益增加。此外,一般认为固定抑制失败表明存在中枢病变。病变可能起源于顶枕叶皮质、脑桥或小脑。然而,在涉及中线小脑的病变中,固定抑制失败最为明显,这可能与患有 cADHD 的儿童有关。我们认为,这一贡献在理论和实践上都是相关的,因为高 VOR 增益和降低的抑制能力可能导致这些儿童出现阅读和写作困难、学习障碍、眩晕和晕车等症状。因此,在制定这些儿童的康复方案时,必须考虑对患有 cADHD 的儿童进行前庭功能评估。
