Department of Otorhinolaryngology-Head and Neck Surgery, Inha University School of Medicine, Incheon, Korea.
Otolaryngol Head Neck Surg. 2012 Sep;147(3):515-21. doi: 10.1177/0194599812446913. Epub 2012 May 17.
To compare the rheological characteristics of structurally different hyaluronic acid (HA)-based biomaterials that are presently used for phonosurgery and to investigate their influence on the viscoelastic properties of vocal folds after implantation in an in vivo rabbit model.
In vitro and in vivo rheometric investigation.
Experimental laboratory, Inha and Seoul National Universities.
Viscoelastic shear properties of 3 HA-based biomaterials (Rofilan, Restylane, and Reviderm) were measured with a strain-controlled rheometer. These biomaterials were injected into the deep layers of rabbit vocal folds, and viscoelastic moduli of the injected vocal folds were determined 2 months after the injection. The vocal fold specimens were observed using a light microscope and a transmission electron microscope.
All HA-based biomaterials showed similar levels of shear viscosity, which were slightly higher than that of human vocal folds reported in previous studies. Compared with noninjected control vocal folds, there were no significant differences in the magnitudes of both elastic shear modulus (G') and viscous modulus (G") of injected vocal folds among all of the materials. Light microscopic images showed that all materials were observed in the deep layers of vocal folds and electron scanning images revealed that injected HA particles were homogeneously distributed in regions of collagenous fibers.
HA-based biomaterials could preserve the viscoelastic properties of the vocal folds, when they were injected into vocal folds in an in vivo rabbit model. However, further studies on the influence of the biomaterials on the viscoelasticity of human vocal folds in ECM surroundings are still needed.
比较目前用于嗓音外科的结构不同的透明质酸(HA)基生物材料的流变特性,并研究它们在体内兔模型中植入后对声带粘弹性的影响。
体外和体内流变学研究。
实验实验室,仁荷大学和首尔国立大学。
使用应变控制流变仪测量 3 种基于 HA 的生物材料(Rofilan、Restylane 和 Reviderm)的粘弹性剪切特性。将这些生物材料注入兔声带的深层,并在注射后 2 个月确定注入声带的粘弹性模量。用光显微镜和透射电子显微镜观察声带标本。
所有基于 HA 的生物材料均表现出相似的剪切粘度水平,略高于先前研究中报道的人声带。与未注射的对照声带相比,所有材料的弹性剪切模量(G')和粘性模量(G")的大小在注入的声带之间均无显着差异。光镜图像显示所有材料均观察到在声带的深层,电子扫描图像显示注入的 HA 颗粒均匀分布在胶原纤维区域。
当将基于 HA 的生物材料注入体内兔模型的声带中时,它们可以保留声带的粘弹性。然而,仍需要进一步研究生物材料对 ECM 环境中人类声带粘弹性的影响。
