Appropriate depth of placement of oral endotracheal tube and its possible determinants in Indian adult patients

We consecutively and prospectively studied 219 critically ill patients to evaluate the accuracy of the physical examination in assessing ETT position and the appropriateness of taking routine chest x-ray films after intubation in the ICU. As a result of x-ray findings, 14 percent of the patients required ETT repositioning, and 5 percent had main-stem intubations. Endobronchial intubation was more common in females than in males, and frequently occurred after emergency intubations. Sixty percent of the main-stem intubations occurred despite the presence of equal breath sounds on examination. Techniques to minimize the risk of tube malposition, such as cuff ballottement in the suprasternal notch and referencing the ETT centimeter markings, were not completely reliable. This study confirms the unreliability of the physical examination to assess ETT position. Chest x-ray films after intubation are indicated to verify tube position, particularly after emergency intubations. Other techniques such as use of a lighted stylet require evaluation to determine whether they are more cost-effective in verifying ETT placement in patients who have no other indication for postintubation x-ray films.

True vocal cord paralysis may follow endotracheal intubation and be the result of peripheral nerve damage. This damage can occur as the result of compressing the nerve between an inflated endotracheal tube cuff and the overlying thyroid cartilage. A series of anatomic dissections defined the likely site of injury to be at the junction of the vocal process of the arytenoid cartilage and the membranous true vocal cord approximately 6 to 10 mm below the level of the cord. Cuff pressures were monitored during anesthetics. Analysis of the results indicated that nitrous oxide diffuses into endotracheal tube cuffs causing a substantial increase in the intracuff pressure. We have concluded that true vocal cord paralysis which follows endotracheal intubation is usually temporary. The solution to the problem lies in its prevention and several methods are described whereby it may be avoided.

The tracheas of 20 ASA grade 1 and 2 patients were each consecutively intubated with an oral and nasal cuffed tracheal tube. Measurements of tube movement, as the position of the head and neck altered, were made with a fibreoptic bronchoscope. Both oral and nasal tubes moved an average distance of 15 mm towards the carina with head and neck flexion and 8.5 mm away with head and neck extension. Movement in both directions occurred with lateral rotation of the head. Optimal placement of tracheal tubes can be aided with a single guide mark placed 3 cm proximal to the cuff and 8 cm proximal to the distal end, which may reduce complications arising from this movement. This is a better method in women than inserting a pre-determined length of tracheal tube measured from the lips or nares. However, current guide marks vary in their position relative to the cuff and tip of the tube.