Effect of high-frequency oscillatory ventilation with intermittent sigh breaths on carbon dioxide levels in neonates

Effect of high-frequency oscillatory ventilation with intermittent sigh breaths on carbon dioxide levels in neonates

Background High-frequency oscillatory ventilation (HFOV) minimizes ventilator-induced lung injuries. Spontaneous sigh breathing may augment the functional residual capacity, increase lung compliance, and recruit atelectatic alveoli. Purpose To evaluate the difference in the partial pressure of carbo...

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Main Authors: Kulthida Baingam, Anucha Thatrimontrichai, Manapat Praditaukrit, Gunlawadee Maneenil, Supaporn Dissaneevate
Format: Article
Language:English
Published: The Korean Pediatric Society 2025-02-01
Series:Clinical and Experimental Pediatrics
Subjects:
blood gas analysis
carbon dioxide
high-frequency oscillation ventilation
intermittent positive-pressure ventilation
neonatal intensive care unit
newborn
Online Access:http://www.e-cep.org/upload/pdf/cep-2024-01011.pdf
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Summary:Background High-frequency oscillatory ventilation (HFOV) minimizes ventilator-induced lung injuries. Spontaneous sigh breathing may augment the functional residual capacity, increase lung compliance, and recruit atelectatic alveoli. Purpose To evaluate the difference in the partial pressure of carbon dioxide (PaCO2) in neonates receiving invasive HFOV as the primary mode of respiratory support before versus after sigh breaths (Sighs). Methods This prospective study was conducted between January and December 2023. Intubated preterm and term neonates who underwent HFOV with an available arterial line were enrolled in this study after informed parental consent was obtained. Sighs were set at a frequency of 3 breaths/min and pressure of 5 cmH2O above the mean airway pressure for 2 hours. Arterial blood gas was collected before and after Sighs and analyzed using 2 dependent tests. Results Thirty neonates with a mean gestational age of 33.6±4.1 weeks and median date of intervention of 1.88 days (interquartile range, 0.87–3.79 days) were enrolled. The mean PaCO2 level was significantly lower in the HFOV with Sighs group (45.2±6.6 mmHg) versus the HFOV alone group (48.8±3.1 mmHg) with a mean difference (MD) of -3.6 mmHg (95% confidence interval [CI], -6.3 to -0.9; P=0.01). Subgroup analyses indicated the ability of Sighs to reduce the PaCO2 level in neonates with respiratory distress syndrome (n=15; MD [95% CI]=-4.2 [-8.2 to -0.2] mmHg; P= 0.04). Conclusion Sighing can reduce PaCO2 levels in neonates ventilated with HFOV, particularly those with respiratory distress syndrome.
ISSN:2713-4148

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