Effective Tidal Volume for Normocapnia in Very-Low-Birth-Weight Infants Using High-Frequency Oscillatory Ventilation

• Published in: Yonsei medical journal Vol. 59; no. 1; pp. 101 - 106
• Main Authors: Lee, Seul Mi, Namgung, Ran, Eun, Ho Sun, Lee, Soon Min, Park, Min Soo, Park, Kook In
• Format: Journal Article
• Language: English
• Published: Korea (South) Yonsei University College of Medicine 01.01.2018; 연세대학교의과대학
• Subjects: Original; 의학일반; ventilation, normocapnia, high frequency oscillatory ventilation; infant, very low birth weight; Tidal volume
• ISSN: 0513-5796; 1976-2437; 1976-2437
• DOI: 10.3349/ymj.2018.59.1.101

Removal of CO₂ is much efficient during high-frequency oscillatory ventilation (HFOV) for preterm infants. However, an optimal carbon dioxide diffusion coefficient (DCO₂) and tidal volume (VT) have not yet been established due to much individual variance. This study aimed to analyze DCO₂ values, VT, and minute volume in very-low-birth-weight (VLBW) infants using HFOV and correlates with plasma CO₂ (pCO₂). Daily respiratory mechanics and ventilator settings from twenty VLBW infants and their two hundred seventeen results of blood gas analysis were collected. Patients were treated with the Dräger Babylog VN500 ventilator (Drägerwerk Ag & Co.) in HFOV mode. The normocapnia was indicated as pCO₂ ranging from 45 mm Hg to 55 mm Hg. The measured VT was 1.7 mL/kg, minute volume was 0.7 mL/kg, and DCO₂ was 43.5 mL²/s. Mean results of the blood gas test were as follows: pH, 7.31; pCO₂, 52.6 mm Hg; and SpO₂, 90.5%. In normocapnic state, the mean VT was significantly higher than in hypercapnic state (2.1±0.5 mL/kg vs. 1.6±0.3 mL/kg), and the mean DCO₂ showed significant difference (68.4±32.7 mL²/s vs. 32.4±15.7 mL²/s). The DCO₂ was significantly correlated with the pCO₂ (p=0.024). In the receiver operating curve analysis, the estimated optimal cut-off point to predict the remaining normocapnic status was a VT of 1.75 mL/kg (sensitivity 73%, specificity 80%). In VLBW infants treated with HFOV, VT of 1.75 mL/kg is recommended for maintaining proper ventilation.