Rosen Sarah P, Abdelhalim Suzan M, Jones Corinne A, McCulloch Timothy M
Division of Otolaryngology-Head and Neck Surgery, Department of Surgery, University of Wisconsin-Madison, Madison, WI, USA.
Department of Communication Sciences and Disorders, University of Wisconsin-Madison, Madison, WI, USA.
Dysphagia. 2018 Jun;33(3):389-398. doi: 10.1007/s00455-017-9866-3. Epub 2017 Dec 7.
The effect of body position and gravitational pull on the complex pressure-driven process of pharyngeal swallowing remains unknown. Using high-resolution manometry (HRM), this study aims to identify positional adaptations of pharyngeal physiology by evaluating swallowing pressure patterns in a series of inverted body positions. Ten healthy adults each underwent swallowing tasks with pharyngeal HRM at six body positions using an inversion table (0°[upright], 45°, 90°[supine], 110°, 135°, and 180°[fully inverted]). Repeated measures ANOVA was used to assess impact of position on pressure parameters, and pharyngeal-UES pressure gradients translate. Velopharyngeal pressures varied by position (P < 0.001), with significantly higher pressures generated with inversion ≥90°, compared with upright and 45°. Change in position did not significantly affect common mesopharyngeal pressures or swallowing pressure durations. UES valving mechanisms were preserved during inversion, with subtle variations observed in integral pressures (P = 0.011). Pharyngeal-UES pressure gradients changed with position (P < 0.01), increasing with inversion > 90° compared to upright and 45°. Mechanisms of deglutition may differ with position and relative direction of gravity, particularly when at > 45° inclination. Increased palatal pressure is generated in the upside-down position to achieve nasopharyngeal closure and prevent regurgitation. While other classically measured pressures may not consistently differ with positioning, many individuals exhibit adaptations in pressure gradients when inverted, likely due to a combination of changes in pharyngeal driving force and UES opening mechanisms. Identification of these changes, relative to position, further builds on our understanding of the adaptability of the pharyngeal swallowing system.
身体位置和重力对咽部吞咽复杂的压力驱动过程的影响尚不清楚。本研究使用高分辨率测压法(HRM),旨在通过评估一系列倒置身体位置下的吞咽压力模式,来确定咽部生理的位置适应性。十名健康成年人使用倒置台在六个身体位置(0°[直立]、45°、90°[仰卧]、110°、135°和180°[完全倒置])下进行咽部HRM吞咽任务。采用重复测量方差分析来评估位置对压力参数的影响,并对咽-上食管括约肌压力梯度进行转化。腭咽压力因位置而异(P<0.001),与直立和45°相比,倒置≥90°时产生的压力明显更高。位置变化对中咽常见压力或吞咽压力持续时间没有显著影响。在倒置过程中,上食管括约肌的瓣膜机制得以保留,积分压力存在细微变化(P=0.011)。咽-上食管括约肌压力梯度随位置变化(P<0.01),与直立和45°相比,倒置>90°时压力梯度增加。吞咽机制可能因位置和重力的相对方向而异,尤其是当倾斜度>45°时。在倒置位置会产生更高的腭部压力,以实现鼻咽闭合并防止反流。虽然其他经典测量的压力可能不会因位置而持续不同,但许多人在倒置时压力梯度会出现适应性变化,这可能是由于咽部驱动力和上食管括约肌开放机制的综合变化所致。相对于位置识别这些变化,进一步加深了我们对咽部吞咽系统适应性的理解。