Department of Surgery/Division of Otolaryngology-Head and Neck Surgery , University of Wisconsin School of Medicine and Public Health, Madison, Wisconsin, USA.
Laryngoscope. 2011 Feb;121 Suppl 3(Suppl 3):S37-60. doi: 10.1002/lary.21186.
OBJECTIVES/HYPOTHESIS: The purpose of this study is to describe and test a novel surgical strategy for augmentation of Reinke's space using vascularized flaps: a thyroid ala perichondrium flap (TAP) and a composite thyroid ala perichondrium flap (CTAP) from the anterior larynx. We hypothesized that these specially designed vascularized flaps would remain viable once inset into the lamina propria, and that they would not disrupt rheologic, biomechanical, and histologic properties of the native vocal fold.
Experimental. In vivo canine model.
The length and volume of test flaps harvested in six adult human cadaveric larynges were analyzed to determine suitability for use in augmentation in the lamina propria. Also, 12 beagles randomly underwent unilateral placement of either TAP or CTAP, which were designed in accordance with the human adult cadaveric experiments. Flap perfusion was measured before and after harvest with laser Doppler. After 1 month, the beagles were humanely sacrificed and their larynges subjected to aerodynamic and acoustic evaluation using an excised larynx apparatus. The vocal fold lamina propria of four larynges--two TAP and two CTAP--underwent rheologic evaluation using a simple-shear rheometer. The remaining eight larynges underwent quantitative histologic and immunohistochemical evaluation. The survival and complication (swallowing, airway, local wound) rates of all dogs were noted.
Initial studies with adult human cadaveric larynges established that TAP and CTAP possessed length and volume greater than native lamina propria. In the canine experiments, the perfusion change in the flaps was similar between flap groups. The damping ratio (ζ), dynamic viscosity (η'), elastic shear modulus (G'), and viscous shear modulus (G″) of treated and untreated native vocal folds were not statistically different. The glottic function measures of vocal efficiency, laryngeal resistance, jitter, shimmer, and harmonics-to-noise ratio (HNR) of treated and normal larynges were not statistically different. Similarly, the values for collagen, elastin, and glycosaminoglycans (GAGs) in treated and untreated vocal folds were not statistically different. Also, neither neochrondrogenesis nor neoosteogenesis was detected in any treated vocal fold. The values for vascular and cellular proliferation in treated and untreated vocal folds were not statistically different. All test dogs survived and had no complications related to swallowing, airway distress, or the local wound.
The test flaps described and tested in this study appear to have conceptually attractive features for augmentation of Reinke's space. When placed in an in vivo setting TAP and CTAP did not reveal unfavorable vascular, rheologic, aerodynamic, acoustic, or histologic characteristics. There was no unanticipated morbidity or mortality to the test animals. Long-term viability of these flaps is unknown. TAP and CTAP may open novel pathways for correction of glottic defects and may offer crossover opportunities with tissue engineering techniques.
目的/假设:本研究的目的是描述和测试一种使用血管化皮瓣增强 Reinke 空间的新手术策略:甲状腺翼状软骨膜瓣(TAP)和来自前喉部的复合甲状腺翼状软骨膜瓣(CTAP)。我们假设这些专门设计的血管化皮瓣一旦嵌入固有层仍能保持存活,并且不会破坏声带的流变性、生物力学和组织学特性。
实验。体内犬模型。
分析六个成人尸体喉部中采集的测试瓣的长度和体积,以确定其在固有层增强中的适用性。此外,12 只比格犬随机接受单侧 TAP 或 CTAP 放置,根据成人尸体实验设计。使用激光多普勒术在采集前和采集后测量瓣的灌注。1 个月后,安乐死比格犬并使用离体喉仪器对其进行气动和声评估。将四个喉中的两个 TAP 和两个 CTAP 的声带固有层用简单剪切流变仪进行流变学评估。其余 8 个喉进行定量组织学和免疫组织化学评估。注意所有犬的存活率和并发症(吞咽、气道、局部伤口)发生率。
成人尸体喉部的初步研究表明,TAP 和 CTAP 的长度和体积均大于固有层。在犬实验中,瓣组之间的灌注变化相似。处理和未处理的天然声带的阻尼比(ζ)、动态粘度(η')、弹性剪切模量(G')和粘性剪切模量(G″)没有统计学差异。处理和正常喉的嗓音效率、喉阻力、抖动、闪烁和谐波噪声比(HNR)的声门功能测量值没有统计学差异。同样,处理和未处理声带中的胶原蛋白、弹性蛋白和糖胺聚糖(GAG)值也没有统计学差异。此外,在任何处理过的声带中均未检测到新软骨生成或新骨生成。处理和未处理声带中的血管和细胞增殖值没有统计学差异。所有受试犬均存活,无吞咽、气道窘迫或局部伤口相关并发症。
本研究中描述和测试的试验瓣在增强 Reinke 空间方面具有概念上的吸引力。当置于体内环境中时,TAP 和 CTAP 并未显示出不利的血管、流变学、气动、声学或组织学特征。试验动物没有意外的发病率或死亡率。这些皮瓣的长期存活情况尚不清楚。TAP 和 CTAP 可能为声门缺陷的矫正开辟新途径,并可能为组织工程技术提供交叉机会。
