Department of Speech-Language and Hearing Sciences, University of Minnesota, 164 Pillsbury Drive SE, Minneapolis, MN, 55455, USA.
Department of Otolaryngology, Boston Children's Hospital, Boston, MA, USA.
Pediatr Radiol. 2020 Feb;50(2):199-206. doi: 10.1007/s00247-019-04527-w. Epub 2019 Oct 18.
Infant videofluoroscopic swallow studies (VFSSs) require clinicians to make determinations about swallowing deficits based on a limited number of fluoroscopically observed swallows. Although airway protection is known to decline throughout a bottle-feed, the paucity of data regarding the timing of this degradation has limited the development of procedural protocols that maximize diagnostic validity.
We tested the stability of key components of swallow physiology and airway protection at four standardized timepoints throughout the VFSS.
Thirty bottle-fed infants with clinical signs of swallow dysfunction underwent VFSS. Fluoroscopy was turned on to allow visualization of five swallows at 0:00, 0:30, 1:30 and 2:30 (minutes:seconds [min:s]). We evaluated swallows for components of swallow physiology (oral bolus hold, initiation of pharyngeal swallow, timing of swallow initiation) and airway protection (penetration, aspiration). We used model-based linear contrasts to test differences in the percentage of swallows with low function component attributes.
All components of swallow physiology exhibited a change throughout the VFSS (P≤0.0005). Changes were characterized by an increase in the number of sucks per swallow (P<0.0001), percentage of swallows with incomplete bolus hold (P=0.0005), delayed initiation of pharyngeal swallow (P<0.0001), delayed timing of swallow initiation (P=0.0004) and bolus airway entry (P<0.0001). These findings demonstrate that infants with dysphagia exhibit a change in swallow physiology throughout the videofluoroscopic swallow exam.
Fluoroscopic visualization that is confined to the initial swallows of the bottle feed limit the exam's diagnostic validity. Developing evidence-based procedural guidelines for infant VFSS execution is crucial for maximizing the exam's diagnostic and treatment yield.
婴儿视频荧光吞咽研究(VFSS)要求临床医生根据有限数量的荧光观察吞咽来确定吞咽缺陷。尽管已知在奶瓶喂养过程中气道保护会逐渐下降,但由于缺乏关于这种退化时间的数据,限制了制定最大限度提高诊断有效性的程序协议。
我们在 VFSS 过程中的四个标准化时间点测试了吞咽生理学和气道保护的关键组成部分的稳定性。
30 名有吞咽功能障碍临床症状的奶瓶喂养婴儿接受了 VFSS。透视仪打开,允许在 0:00、0:30、1:30 和 2:30(分钟:秒 [min:s])观察 5 次吞咽。我们评估了吞咽的吞咽生理学成分(口腔食团保持、咽吞咽开始、吞咽开始时间)和气道保护(渗透、吸入)。我们使用基于模型的线性对比来测试低功能成分属性的吞咽次数百分比的差异。
整个 VFSS 期间,所有吞咽生理学成分都发生了变化(P≤0.0005)。这些变化的特征是每口吞咽的吸吮次数增加(P<0.0001)、不完全食团保持的吞咽百分比增加(P=0.0005)、咽吞咽开始延迟(P<0.0001)、吞咽开始时间延迟(P=0.0004)和食团气道进入延迟(P<0.0001)。这些发现表明,有吞咽困难的婴儿在视频荧光吞咽检查过程中表现出吞咽生理学的变化。
限制在奶瓶喂养初始吞咽的荧光可视化限制了检查的诊断有效性。为婴儿 VFSS 执行制定基于证据的程序指南对于最大限度地提高检查的诊断和治疗效果至关重要。