Iwahashi Toshihiko, Ogawa Makoto, Hosokawa Kiyohito, Kato Chieri, Inohara Hidenori
Department of Otorhinolaryngology - Head and Neck Surgery, Osaka University Graduate School of Medicine, 2-2 Yamadaoka, Suita, Osaka, 565-0871, Japan.
Department of Otorhinolaryngology, Osaka Police Hospital, Osaka, Japan.
Dysphagia. 2017 Oct;32(5):691-702. doi: 10.1007/s00455-017-9815-1. Epub 2017 Jun 13.
The hypotheses of the present study were that the maximum frequency of fluctuation of electroglottographic (EGG) signals in the expiration phase of volitional cough (VC) reflects the cough efficiency and that this EGG parameter is affected by impaired laryngeal closure, expiratory effort strength, and gender. For 20 normal healthy adults and 20 patients diagnosed with unilateral vocal fold paralysis (UVFP), each participant was fitted with EGG electrodes on the neck, had a transnasal laryngo-fiberscope inserted, and was asked to perform weak/strong VC tasks while EGG signals and a high-speed digital image of the larynx were recorded. The maximum frequency was calculated in the EGG fluctuation region coinciding with vigorous vocal fold vibration in the laryngeal HSDIs. In addition, each participant underwent spirometry for measurement of three aerodynamic parameters, including peak expiratory air flow (PEAF), during weak/strong VC tasks. Significant differences were found for both maximum EGG frequency and PEAF between the healthy and UVFP groups and between the weak and strong VC tasks. Among the three cough aerodynamic parameters, PEAF showed the highest positive correlation with the maximum EGG frequency. The correlation coefficients between the maximum EGG frequency and PEAF recorded simultaneously were 0.574 for the whole group, and 0.782/0.717/0.823/0.688 for the male/female/male-healthy/male-UVFP subgroups, respectively. Consequently, the maximum EGG frequency measured in the expiration phase of VC was shown to reflect the velocity of expiratory airflow to some extent and was suggested to be affected by vocal fold physical properties, glottal closure condition, and the expiratory function.
本研究的假设是,在自主咳嗽(VC)呼气阶段,电声门图(EGG)信号的最大波动频率反映咳嗽效率,且该EGG参数受喉关闭不全、呼气努力强度和性别的影响。对于20名正常健康成年人及20名被诊断为单侧声带麻痹(UVFP)的患者,每位参与者在颈部佩戴EGG电极,插入经鼻喉纤维镜,并被要求在记录EGG信号和喉部高速数字图像的同时执行弱/强VC任务。在与喉部高速数字图像中声带剧烈振动一致的EGG波动区域计算最大频率。此外,每位参与者在弱/强VC任务期间接受肺量计检查,以测量包括呼气峰值气流(PEAF)在内的三个空气动力学参数。健康组与UVFP组之间以及弱/强VC任务之间,EGG最大频率和PEAF均存在显著差异。在三个咳嗽空气动力学参数中,PEAF与EGG最大频率的正相关性最高。同时记录的EGG最大频率与PEAF之间的相关系数,全组为0.574,男性/女性/健康男性/UVFP男性亚组分别为0.782/0.717/0.823/0.688。因此,在VC呼气阶段测量的EGG最大频率在一定程度上反映了呼气气流速度,并提示受声带物理特性、声门关闭状况和呼气功能的影响。
