支气管肺发育不良新生儿咳嗽激发和咳嗽缓解的机制
Mechanisms of cough provocation and cough resolution in neonates with bronchopulmonary dysplasia.
作者信息
Jadcherla Sudarshan R, Hasenstab Kathryn A, Shaker Reza, Castile Robert G
机构信息
The Neonatal and Infant Feeding Disorders Program, Center for Perinatal Research, Nationwide Children's Hospital Research Institute, Columbus, Ohio.
The Neonatal Aerodigestive Pulmonary Program, Nationwide Children's Hospital, Columbus, Ohio.
出版信息
Pediatr Res. 2015 Oct;78(4):462-9. doi: 10.1038/pr.2015.131. Epub 2015 Jul 7.
BACKGROUND
Cough and deglutition are protective mechanisms that defend against aspiration. We identified mechanisms associated with cough provocation as well as those associated with cough resolution in infants with bronchopulmonary dysplasia (BPD).
METHODS
Manometry signatures of cough were recognized in 16 premature infants with BPD undergoing concurrent esophageal manometry, respiratory inductance plethysmography, and nasal air flow measurements. Pretussive and post-tussive pharyngo-esophageal motility changes were analyzed. Mechanisms associated with cough and mechanisms that restored respiratory and esophageal normalcy were analyzed.
RESULTS
We analyzed 312 cough events during 88 cough clusters; 97% were associated with recognizable manometric patterns. Initial mechanisms related with coughing included nonpropagating swallow (59%), upper esophageal sphincter (UES) reflex contraction (18%), and lower esophageal sphincter (LES) relaxation (14%). UES and LES dysfunction was present in 69% of nonpropagating swallow-associated cough clusters. Mechanisms restoring post-tussive normalcy included primary peristalsis (84%), secondary peristalsis (8%), and none recognized (8%). UES contraction reflex was associated with cough clusters more frequently in infants on nasal continuous positive airway pressure (NCPAP) (OR = 9.13, 95% CI = 1.88-44.24).
CONCLUSION
Cough clusters in infants with BPD had identifiable etiologies associated with esophageal events; common initial mechanisms were of upper aerodigestive origin, while common clearing mechanisms were peristaltic reflexes.
背景
咳嗽和吞咽是防止误吸的保护机制。我们确定了支气管肺发育不良(BPD)婴儿中与咳嗽激发相关的机制以及与咳嗽缓解相关的机制。
方法
在16名接受同步食管测压、呼吸感应体积描记法和鼻气流测量的BPD早产儿中识别咳嗽的测压特征。分析咳嗽前和咳嗽后咽食管运动变化。分析与咳嗽相关的机制以及恢复呼吸和食管正常状态的机制。
结果
我们在88个咳嗽簇中分析了312次咳嗽事件;97%与可识别的测压模式相关。与咳嗽相关的初始机制包括非传播性吞咽(59%)、食管上括约肌(UES)反射性收缩(18%)和食管下括约肌(LES)松弛(14%)。69%的非传播性吞咽相关咳嗽簇存在UES和LES功能障碍。恢复咳嗽后正常状态的机制包括原发性蠕动(84%)、继发性蠕动(8%)和未识别出机制(8%)。在接受鼻持续气道正压通气(NCPAP)的婴儿中,UES收缩反射与咳嗽簇的关联更频繁(OR = 9.13,95%CI = 1.88 - 44.24)。
结论
BPD婴儿的咳嗽簇有与食管事件相关的可识别病因;常见的初始机制源于上消化道,而常见的清除机制是蠕动反射。
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