Department of Mechanical Engineering, Brigham Young University, Provo, Utah.
Department of Mechanical Engineering, Brigham Young University, Provo, Utah.
J Voice. 2014 Mar;28(2):133-43. doi: 10.1016/j.jvoice.2013.10.014. Epub 2014 Jan 27.
To design and evaluate a platform for studying the mechanical effects of augmentation injections using synthetic, self-oscillating vocal fold models.
Basic science.
Life-sized, synthetic, multilayer, self-oscillating vocal fold models were created that simulated bowing via volumetric reduction of the body layer relative to that of a normal, unbowed model. Material properties of the layers were unchanged. Models with varying degrees of bowing were created and paired with normal models. Following initial acquisition of data (onset pressure, vibration frequency, flow rate, and high-speed image sequences), bowed models were injected with silicone that had material properties similar to those used in augmentation procedures. Three different silicone injection quantities were tested: sufficient to close the glottal gap, insufficient to close the glottal gap, and excess silicone to create convex bowing of the bowed model. The above-mentioned metrics were again taken and compared. Pre- and post-injection high-speed image sequences were acquired using a hemilarynx setup, from which medial surface dynamics were quantified.
The models vibrated with mucosal wave-like motion and at onset pressures and frequencies typical of human phonation. The models successfully exhibited various degrees of bowing which were then mitigated by injecting filler material. The models showed general pre- to post-injection decreases in onset pressure, flow rate, and open quotient and a corresponding increase in vibration frequency.
The model may be useful in further explorations of the mechanical consequences of augmentation injections.
设计并评估一个平台,用于研究使用合成的、自激的声带模型来增强注射的机械效果。
基础科学。
创建了与真人大小相同的、多层的、自激的声带模型,通过相对于正常未弯曲模型的体层体积减小来模拟弯曲。层的材料特性保持不变。创建了具有不同弯曲程度的模型,并与正常模型配对。在获得初始数据(起始压力、振动频率、流速和高速图像序列)之后,将硅胶注入到弯曲模型中,硅胶的材料特性与增强手术中使用的相似。测试了三种不同的硅胶注射量:足以关闭声门间隙、不足以关闭声门间隙以及多余的硅胶以创建弯曲模型的凸弯。再次测量并比较了上述指标。使用半喉设置获取注射前后的高速图像序列,并从这些序列中量化黏膜表面动力学。
模型以黏膜波样运动和人发声时的起始压力和频率振动。模型成功地展示了各种程度的弯曲,然后通过注射填充材料来减轻弯曲。模型显示出一般的注射前到注射后的起始压力、流速和开口率降低,以及相应的振动频率增加。
该模型可能有助于进一步探索增强注射的机械后果。