PURPOSE: To prospectively evaluate the local efficacy of radiofrequency (RF) ablation of lung neoplasms, with a minimum follow-up period of 1 year. MATERIALS AND METHODS: Sixty patients (34 men and 26 women; age range, 27-81 years; mean age, 66 years) with 100 lung tumors gave written informed consent to be enrolled in a prospective study that was approved by the local ethics committee. There were five or fewer tumors per patient, each with a diameter of less than 40 mm (mean +/- standard deviation, 17 mm +/- 10). RF ablation was performed in tumors by using computed tomographic (CT) guidance. Follow-up CT studies were obtained within 48 hours after treatment and at 2, 4, 6, 9, and 12 months thereafter to evaluate treatment outcome and complications. Lung spirometry measurements were obtained before and 4 weeks after RF ablation. RESULTS: Ninety-seven of 100 targeted tumors were treated and required 163 RF ablations (1.68 per tumor), each lasting 14 minutes +/- 8, delivered during 74 procedures. The 18-month estimated rate of incomplete local treatment at CT was 7% (95% confidence interval: 3%, 14%) per tumor and 12% (95% confidence interval: 5%, 23%) per patient. An ablation area at least four times larger than the initial tumor was predictive of complete ablation treatment (P = .02). There was a trend toward better efficacy for tumors smaller than 2 cm in diameter (P = .066). Overall survival and lung disease-free survival at 18 months were 71% and 34%, respectively. The main adverse event was a pneumothorax, which occurred in 54% of procedures, but a chest tube was required in only 9% of the procedures. No modification of respiratory function was found when spirometry measurements obtained before and within 2 months after RF ablation were compared (P = .51). CONCLUSION: RF ablation has a high local efficacy and is well tolerated. RSNA, 2006
PURPOSE: To prospectively evaluate the local efficacy of radiofrequency (RF) ablation of lung neoplasms, with a minimum follow-up period of 1 year. MATERIALS AND METHODS: Sixty patients (34 men and 26 women; age range, 27-81 years; mean age, 66 years) with 100 lung tumors gave written informed consent to be enrolled in a prospective study that was approved by the local ethics committee. There were five or fewer tumors per patient, each with a diameter of less than 40 mm (mean +/- standard deviation, 17 mm +/- 10). RF ablation was performed in tumors by using computed tomographic (CT) guidance. Follow-up CT studies were obtained within 48 hours after treatment and at 2, 4, 6, 9, and 12 months thereafter to evaluate treatment outcome and complications. Lung spirometry measurements were obtained before and 4 weeks after RF ablation. RESULTS: Ninety-seven of 100 targeted tumors were treated and required 163 RF ablations (1.68 per tumor), each lasting 14 minutes +/- 8, delivered during 74 procedures. The 18-month estimated rate of incomplete local treatment at CT was 7% (95% confidence interval: 3%, 14%) per tumor and 12% (95% confidence interval: 5%, 23%) per patient. An ablation area at least four times larger than the initial tumor was predictive of complete ablation treatment (P = .02). There was a trend toward better efficacy for tumors smaller than 2 cm in diameter (P = .066). Overall survival and lung disease-free survival at 18 months were 71% and 34%, respectively. The main adverse event was a pneumothorax, which occurred in 54% of procedures, but a chest tube was required in only 9% of the procedures. No modification of respiratory function was found when spirometry measurements obtained before and within 2 months after RF ablation were compared (P = .51). CONCLUSION: RF ablation has a high local efficacy and is well tolerated. RSNA, 2006
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