Introduction: Self-inflating (SI) bags and T-piece resuscitators are used for bag and mask ventilation of neonates. Leaks between face and mask occur frequently. Little is known about the effects of mask leak on applied pressure and volume. We investigated these effects in an in-vitro study. Method: A lung model (compliance 0.7ml/kPa) was ventilated with a mechanically operated SI-bag (Mark IV Baby Resuscitator® plus Ambu-10-PEEP valve, Ambu, Denmark) and a manually operated T-piece resuscitator (Neopuff®, Fisher measurements were repeated 5 times. Results: Simulated leaks at a RR of 60/min were 22% 1, 46% 2, 69% 3 and 87% 4. With the SI-bag mean (SD) PIP fell from 20 (0.0) to 16.0 (0.0) cmH2O, PEEP from 4.8 (0.4) to 0.2 (0.4) cmH2O (p<0.001). The pressure difference (PIP–PEEP; Δp) increased and Vt increased from 9.1 (0.6) to 11.2 (0.8) cmH2O (p<0.001). Using the T-piece PIP fell from 20 (0.0) to 18.6 (0.5) cmH2O. PEEP, Δp and Vt were stable. Increasing RR from 40 to 80/min lead to a significant decrease in leak with both devices and increase of PIP and PEEP with the bag. With the T-piece pressures were constant and Vt did not change significantly. Conclusion: During bag ventilation mask leak has a significant impact on applied pressures and Vt, while the T-piece resuscitator keeps pressures and volumes constant in a wide range of leaks.
Hartung et al. (Thu,) studied this question.