Late Permissive Hypercapnia for Mechanically Ventilated Preterm Infants: A Randomized Trial.

IF 2.7 3区医学 Q1 PEDIATRICS

Pediatric Pulmonology Pub Date : 2025-06-01 DOI:10.1002/ppul.71165

Colm P Travers, Samuel J Gentle, Vivek V Shukla, Inmaculada Aban, Aaron J Yee, Kimberly M Armstead, Rachel L Benz, Deborah Laney, Namasivayam Ambalavanan, Waldemar A Carlo

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引用次数: 0

Abstract

Objective: To determine if targeting higher levels of pH-controlled permissive hypercapnia beyond postnatal day 7-14 reduces mechanical ventilation duration in preterm infants.

Methods: Single-center randomized clinical trial with a 1:1 parallel allocation including infants from 22-36 weeks' gestation mechanically ventilated for respiratory distress syndrome on postnatal day 7-14. We targeted higher levels of pH-controlled permissive hypercapnia (60-75 mmHg and pH ≥ 7.20) or lower levels of pH-controlled permissive hypercapnia (40-55 mmHg and pH ≥ 7.25) for 28 days after randomization. The primary outcome was the number of days alive and ventilator-free in the 28 days after randomization.

Results: We enrolled 130 infants with a gestational age (mean ± SD) of 24 weeks and 5 days ± 2 weeks and 0 days and birth weight of 657 ± 198 grams from December 2015 to May 2021. Infants randomized to higher levels of pH-controlled permissive hypercapnia had more alive ventilator-free days than infants randomized to lower levels of pH-controlled permissive hypercapnia (11 ± 10 vs. 6 ± 8; p = 0.009). Grade 2-3 bronchopulmonary dysplasia or death before discharge was not significantly lower in the higher carbon dioxide (PCO₂) group (30/62 (44%) vs. 45/68 (59%); adjusted odds ratio (aOR) 0.54, 95% confidence intervals (CI) 0.27-1.08; p = 0.08). Grade 2-3 bronchopulmonary dysplasia among survivors at 36 weeks' postmenstrual age did not differ significantly (higher PCO₂ 19/53 (35%) vs. lower PCO₂ 28/53 (50%); aOR 0.56, 95% CI 0.27-1.13; p = 0.12).

Conclusions: Targeting higher levels of permissive hypercapnia from postnatal day 7-14 increased the number of days alive and ventilator-free and may be lung protective compared with targeting lower levels.

Trial registration: Clinicaltrials.gov (identifier number NCT02799875). The first infant was enrolled in December 2015 and the trial was not registered until June 2016. The authors confirm that there were no changes made to the Institutional Review Board (IRB) approved trial protocol (dated 10/20/2015) or any amendments made after recruitment started, between the date of first enrollment and the date of clinicaltrials.gov registration, or between study commencement and completion. Furthermore, the authors confirm that the data were not unblinded until after the last infant had been enrolled (March 2021) and discharged from the hospital (August 2021). Study Details | Late Permissive Hypercapnia for Intubated and Ventilated Preterm Infants | ClinicalTrials.gov.

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机械通气早产儿晚期允许性高碳酸血症：一项随机试验。

目的：确定超过出生后7-14天的更高水平的ph控制的允许性高碳酸血症是否会减少早产儿的机械通气时间。方法：采用单中心随机临床试验，1:1平行分配，纳入22-36周妊娠婴儿，在出生后7-14天机械通气治疗呼吸窘迫综合征。我们的目标是在随机分组后28天内达到较高水平的pH控制的容许性高碳酸血症（60-75 mmHg, pH≥7.20）或较低水平的pH控制的容许性高碳酸血症（40-55 mmHg, pH≥7.25）。主要终点是随机分组后28天内存活和无呼吸机的天数。结果：2015年12月至2021年5月，我们纳入了130例胎龄（平均±SD）为24周零5天±2周零0天、出生体重657±198克的婴儿。随机分到较高水平ph控制的容许性高碳酸血症组的婴儿比随机分到较低水平ph控制的容许性高碳酸血症组的婴儿无呼吸机存活天数更长(11±10∶6±8；p = 0.009)。高二氧化碳（PCO2）组2-3级支气管肺发育不良或出院前死亡发生率无显著降低(30/62 (44%)vs. 45/68 (59%)；校正优势比（aOR） 0.54, 95%置信区间（CI） 0.27-1.08；p = 0.08)。经后36周幸存者中2-3级支气管肺发育不良无显著差异(PCO2升高19/53 (35%)vs. PCO2降低28/53 (50%)；aOR 0.56, 95% CI 0.27-1.13；p = 0.12)。结论：在出生后7-14天靶向较高水平的允许性高碳酸血症可增加存活和无呼吸机的天数，与靶向较低水平的高碳酸血症相比，可能具有肺保护作用。试验注册：Clinicaltrials.gov（识别码NCT02799875）。第一名婴儿于2015年12月入组，试验直到2016年6月才注册。作者确认，机构审查委员会（IRB）批准的试验方案（日期为2015年10月20日）没有任何变化，招募开始后，首次入组日期至clinicaltrials.gov注册日期之间，或研究开始和完成之间没有任何修改。此外，提交人确认，直到最后一名婴儿登记（2021年3月）和出院（2021年8月）之后，这些数据才被解盲。研究细节插管和通气早产儿晚期允许性高碳酸血症临床试验。

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来源期刊

Pediatric Pulmonology 医学-呼吸系统

CiteScore

6.00

自引率

12.90%

发文量

468

审稿时长

3-8 weeks

期刊介绍： Pediatric Pulmonology (PPUL) is the foremost global journal studying the respiratory system in disease and in health as it develops from intrauterine life though adolescence to adulthood. Combining explicit and informative analysis of clinical as well as basic scientific research, PPUL provides a look at the many facets of respiratory system disorders in infants and children, ranging from pathological anatomy, developmental issues, and pathophysiology to infectious disease, asthma, cystic fibrosis, and airborne toxins. Focused attention is given to the reporting of diagnostic and therapeutic methods for neonates, preschool children, and adolescents, the enduring effects of childhood respiratory diseases, and newly described infectious diseases. PPUL concentrates on subject matters of crucial interest to specialists preparing for the Pediatric Subspecialty Examinations in the United States and other countries. With its attentive coverage and extensive clinical data, this journal is a principle source for pediatricians in practice and in training and a must have for all pediatric pulmonologists.