TRACHEAL GAS INSUFFLATION DURING PRESSURE-CONTROL VENTILATION - EFFECT OF CATHETER POSITION, DIAMETER, AND FLOW-RATE

In the setting of acute lung injury, ventilatory strategies that adjust minute ventilation (VE) to achieve eucapnia often lead to alveolar rupture or damage. Tracheal gas insufflation (TGI) reduces the VE requirements of conventional mechanical ventilation by decreasing the effective dead-space fraction (VD/VT) of each breath. We studied the effect of catheter flow rate (Vcath) and position as well as catheter tip diameter and configuration on CO2 elimination during TGI-augmented pressure-controlled ventilation (PCV) in normal dogs. We studied three catheter positions (1, 5, and 10 cm above the carina) at Vcath of 2, 5, and 10 L/min (n = 6). When the catheter tip was positioned 1 cm above the carina, Pa(CO2) decreased significantly from a baseline (PCV alone) of 67 +/- 10 mm Hg to 52 +/- 11, 43 +/- 9, and 32 +/- 7 mm Hg (p < 0.05) at Vcath of 2, 5, and 10 L/min, respectively. For the same Vcath values, positioning the catheter tip 10 cm above the carina increased Pa(CO2) to 54 +/- 15, 46 +/- 12, and 40 +/- 11 mm Hg. Advancing the catheter tip 2 cm below the carina did not improve Pa(CO2) significantly (n = 3). At a catheter position of 1 cm above the carina and a Vcath of 10 L/min, changing the luminal inner diameter (1.5 versus 3.0 mm) or tip configuration (open tip versus occluded tip with two side holes) of the catheter did not change Pa(CO2). Mean airway opening pressure and airway opening pressure at the initiation of inspiratory flow increased slightly during TGI-augmented PCV, suggesting that TGI increased end-expiratory lung volume. Our date confirm that TGI can effectively augment alveolar ventilation during PCV. This effect depended strongly on Vcath; catheter tip position was not crucial, so long as it was placed within a few centimeters of the main carina.