Mark Yew-Hoong Chow1, Meng-Huat Goh, Lian-Kah Ti. 1. Department of Anaesthesia and Surgical Intensive Care Unit, Singapore General Hospital, Singapore. markchow@bigfoot.com
Abstract
OBJECTIVE: To analyze the parameters that predict the depth of insertion of a left-sided double-lumen tube (DLT) and to assess the accuracy of the parameters after intubation. DESIGN: Prospective. SETTING: Tertiary-care hospital. PARTICIPANTS: Patients undergoing 1-lung ventilation for thoracic surgery (n = 240). INTERVENTIONS: In the first 121 patients, the ideal depth of insertion was verified using fiberoptic bronchoscopy in the lateral position. Multiple regression analysis was used to find the correlation of this depth of insertion to the patients' height, weight, age, and the clavicular-to-carinal distance of the trachea measured from the chest radiograph. Another 119 patients were studied in whom the DLT was inserted blindly using the best regression line. The accuracy of the technique was assessed by fiberoptic bronchoscopy. MEASUREMENTS AND MAIN RESULTS: The depth of DLT insertion correlated significantly (p < 0.05) only with the height and clavicular-to-carinal distance of the trachea of the patients with the best regression line: Depth of insertion (cm) = 0.75 x clavicular-to-carinal distance of trachea (cm) + 0.112 x height (cm) + 6 with R(2) = 0.62 and p < 0.001. Using this best regression line, the DLT was placed in an acceptable position in 93 patients in the lateral position (positive predictive value of 78.2%) without further intraoperative adjustments. CONCLUSION: The ideal depth of insertion of the left-sided DLT correlated significantly with patients' height and clavicular-to-carinal distance of the trachea. The best regression line enabled the left-sided DLT to be placed in an acceptable position without complications nearly 80% of the time. Copyright 2002, Elsevier Science (USA). All rights reserved.
OBJECTIVE: To analyze the parameters that predict the depth of insertion of a left-sided double-lumen tube (DLT) and to assess the accuracy of the parameters after intubation. DESIGN: Prospective. SETTING: Tertiary-care hospital. PARTICIPANTS: Patients undergoing 1-lung ventilation for thoracic surgery (n = 240). INTERVENTIONS: In the first 121 patients, the ideal depth of insertion was verified using fiberoptic bronchoscopy in the lateral position. Multiple regression analysis was used to find the correlation of this depth of insertion to the patients' height, weight, age, and the clavicular-to-carinal distance of the trachea measured from the chest radiograph. Another 119 patients were studied in whom the DLT was inserted blindly using the best regression line. The accuracy of the technique was assessed by fiberoptic bronchoscopy. MEASUREMENTS AND MAIN RESULTS: The depth of DLT insertion correlated significantly (p < 0.05) only with the height and clavicular-to-carinal distance of the trachea of the patients with the best regression line: Depth of insertion (cm) = 0.75 x clavicular-to-carinal distance of trachea (cm) + 0.112 x height (cm) + 6 with R(2) = 0.62 and p < 0.001. Using this best regression line, the DLT was placed in an acceptable position in 93 patients in the lateral position (positive predictive value of 78.2%) without further intraoperative adjustments. CONCLUSION: The ideal depth of insertion of the left-sided DLT correlated significantly with patients' height and clavicular-to-carinal distance of the trachea. The best regression line enabled the left-sided DLT to be placed in an acceptable position without complications nearly 80% of the time. Copyright 2002, Elsevier Science (USA). All rights reserved.