Deflationary phenomenon of the nitrous oxide-filled endotracheal tube cuff after cessation of nitrous oxide administration

After cessation of nitrous oxide (N(2)O) administration, intracuff pressure of the endotracheal tube may decrease through rediffusion of N(2)O. There may then be an increased risk for air leaks, aspiration of gastric contents, or both. In this study, the time required for intracuff pressure to decrease by 50% (T(1/2)) after substituting oxygen for N(2)O inspired was estimated with the least-squares method. Fifty patients were randomly assigned to five groups, and their tracheas were intubated with the Hi-Contour, Sheridan, Rush, Reinforce, or Profile Soft-Seal Cuff endotracheal tubes. Cuffs were inflated with 40% N(2)O, and cuff pressure was measured during anesthesia with 67% N(2)O. After 120 min, N(2)O inspired was replaced with 100% oxygen, and cuff pressure was measured until the cuff pressure decreased by about 30%. In the five groups, stable cuff pressures were achieved during 120 min of anesthesia with N(2)O. The cuff pressures at 120 min were not different among groups (P = 0.098). After cessation of N(2)O administration, the intracuff pressure decreased exponentially. T(1/2) in the Hi-Contour group was 27.8 +/- 8.5 min, which was significantly shorter than in the Profile Soft-Seal Cuff group (49.7 +/- 18.5 min; P < 0.01). Therefore, our results demonstrate that pressure of the N(2)O-filled cuff decreases quickly when N(2)O-inspired concentrations are reduced, and we suggest that intracuff pressure should be checked frequently to avoid air leaks or aspiration of gastric contents during delayed extubation or transportation of patients with tracheal intubations. Implications: A recently developed method for maintaining stable cuff pressure (N(2)O-filled cuffs) enables us to assess the decrease in cuff pressure after cessation of N(2)O administration. Our results confirm the limitations of N(2)O-filled cuffs when N(2)O-inspired concentrations are reduced.     

The future of the cuffed endotracheal tube

It has been traditionally taught that only uncuffed endotracheal tubes (ETTs) should be used for intubation in children younger than 8, or even 10, years old. However, recent literature suggests that the advantages of using uncuffed ETTs in children may be just another myth of paediatric anaesthesia. Using an uncuffed ETT does allow a tube of larger internal diameter to be used, minimizing resistance to airflow and the work of breathing in the patient who is breathing spontaneously. However, this advantage does not hold for ventilated patients, for whom ventilator settings can be adjusted to provide optimal airflow. Longer duration of intubation and a poorly fitted ETT are risk factors for mucosal damage, whether the ETT is cuffed or uncuffed. Furthermore, a properly sized, positioned, and inflated modern (low-pressure, high-volume) cuffed ETT can offer many advantages over an uncuffed ETT, including greater ease of intubation, better control of air leakage, lower rate and better control of flow of anaesthetic gases, and decreased risk of aspiration and infection.     

Verification of the endotracheal tube placement]

Verification of the correct position of the endotracheal tube is a daily routine task of every anaesthesiologist. Accidental intubation of the oesophagus is a very rare complication in absolute terms but still the most frequent preventable anaesthetic mishap with fatal outcome. Even the most experienced anaesthetist is not immune to this complication. Only vigilance on the part of the anaesthetist protects the patient. There is no absolutely reliable gold standard to diagnose the correct position of the tracheal tube. Visualization of the endotracheal tube between the vocal cords and a typical CO2 excretion waveform are two of the best practical signs. After every change of position of the patient, especially after flexion or extension of the head, the position of the tube must be checked again. The old aphorism is still valid: When in doubt, take it out.