OBJECTIVE: To evaluate the ability of preoperative variables to identify patients at increased risk for complications after lung resection and the usefulness of predicted postoperative FEV1 as a marker of risk for adverse outcomes. DESIGN: Prospective analysis of a cohort of patients undergoing pulmonary resection. Complication rates were analyzed according to preoperative pulmonary variables, demographic variables, procedure performed, and predicted postoperative FEV1. Predicted postoperative FEV1 was calculated using a formula estimating the decline in preoperative FEV1 based on the number of bronchopulmonary segments removed during surgery. SETTING: A major teaching hospital and tertiary referral center. PATIENTS: A consecutive series of patients undergoing pulmonary resection. MEASUREMENTS AND MAIN RESULTS: Medical complications were recorded as part of an ongoing clinical database. The overall complication rate was low (17 percent rate of any complication, 1 percent death rate). Univariate predictors of complications included age > or = 60, male sex, history of smoking, a pneumonectomy procedure, and a low predicted postoperative FEV1. Hypercarbia (> or = 45 mm Hg) on preoperative arterial blood gas analysis, desaturation on exercise oximetry (< or = 90 percent), and a preoperative FEV1 less than 1 L were not predictive of complications. When the effect of these variables was controlled for in a multivariate analysis, a low predicted postoperative FEV1 remained the only significant independent predictor of complications. For each 0.2 L decrease in predicted FEV1, the odds ratio for complications was 1.46 (95 percent confidence interval [CI] 1.2 to 1.8). CONCLUSIONS: A low predicted postoperative FEV1 appears to be the best indicator of patients at high risk for complications, and it was the only significant correlate of complications when the effect of other potential risk factors was controlled for in a multivariate analysis. Pulmonary resection should not be denied on the basis of traditionally cited preoperative pulmonary variables, and a prediction of postoperative pulmonary function by a technique of simple calculation may be useful to identify patients at increased risk for medical complications.
OBJECTIVE: To evaluate the ability of preoperative variables to identify patients at increased risk for complications after lung resection and the usefulness of predicted postoperative FEV1 as a marker of risk for adverse outcomes. DESIGN: Prospective analysis of a cohort of patients undergoing pulmonary resection. Complication rates were analyzed according to preoperative pulmonary variables, demographic variables, procedure performed, and predicted postoperative FEV1. Predicted postoperative FEV1 was calculated using a formula estimating the decline in preoperative FEV1 based on the number of bronchopulmonary segments removed during surgery. SETTING: A major teaching hospital and tertiary referral center. PATIENTS: A consecutive series of patients undergoing pulmonary resection. MEASUREMENTS AND MAIN RESULTS: Medical complications were recorded as part of an ongoing clinical database. The overall complication rate was low (17 percent rate of any complication, 1 percent death rate). Univariate predictors of complications included age > or = 60, male sex, history of smoking, a pneumonectomy procedure, and a low predicted postoperative FEV1. Hypercarbia (> or = 45 mm Hg) on preoperative arterial blood gas analysis, desaturation on exercise oximetry (< or = 90 percent), and a preoperative FEV1 less than 1 L were not predictive of complications. When the effect of these variables was controlled for in a multivariate analysis, a low predicted postoperative FEV1 remained the only significant independent predictor of complications. For each 0.2 L decrease in predicted FEV1, the odds ratio for complications was 1.46 (95 percent confidence interval [CI] 1.2 to 1.8). CONCLUSIONS: A low predicted postoperative FEV1 appears to be the best indicator of patients at high risk for complications, and it was the only significant correlate of complications when the effect of other potential risk factors was controlled for in a multivariate analysis. Pulmonary resection should not be denied on the basis of traditionally cited preoperative pulmonary variables, and a prediction of postoperative pulmonary function by a technique of simple calculation may be useful to identify patients at increased risk for medical complications.
Authors: Mark F Berry; Mark W Onaitis; Betty C Tong; David H Harpole; Thomas A D'Amico Journal: Eur J Cardiothorac Surg Date: 2011-01-26 Impact factor: 4.191
Authors: Mark F Berry; Nestor R Villamizar-Ortiz; Betty C Tong; William R Burfeind; David H Harpole; Thomas A D'Amico; Mark W Onaitis Journal: Ann Thorac Surg Date: 2010-04 Impact factor: 4.330
Authors: Farbod N Rahaghi; Daniel Lazea; Saba Dihya; Raúl San José Estépar; Raphael Bueno; David Sugarbaker; Gyorgy Frendl; George R Washko Journal: Acad Radiol Date: 2014-06 Impact factor: 3.173
Authors: Giuseppe Cardillo; Lorenzo Spaggiari; Domenico Galetta; Francesco Carleo; Luigi Carbone; Aldo Morrone; Alberto Ricci; Francesco Facciolo; Massimo Martelli Journal: Interact Cardiovasc Thorac Surg Date: 2013-03-25
Authors: Ellie S Powell; Adrian C Pearce; David Cook; Paul Davies; Ehab Bishay; Geoffrey M R Bowler; Fang Gao Journal: J Cardiothorac Surg Date: 2009-07-30 Impact factor: 1.637