Percutaneous computed tomography-guided biopsy performed by thoracic surgeons in 955 patients: A paradigm shift in image-guided thoracic procedures.

ABSTRACT

OBJECTIVES: Computed tomography-guided fine needle aspiration (CT-FNA) biopsy is a well-established diagnostic technique in the evaluation of lung nodules that is performed by radiologists in most centers. In this series, we analyzed the diagnostic and perioperative outcomes following CT-FNA performed by a dedicated group of thoracic surgeons. METHODS: We conducted a retrospective analysis of 955 patients undergoing CT-FNA by the thoracic surgery service. Primary outcome variables included diagnostic yield and accuracy, number of needle passes, complication rates, and adequacy of specimen for molecular testing. RESULTS: A satisfactory diagnostic specimen was obtained in 94.1% of cases. The average number of needle passes was 3.2 ± 1.5 (range, 1-10 passes). Diagnostic yield was significantly improved by increasing the number of passes from 1 to 2 to 3 passes (P = .0003). CT-FNA diagnostic accuracy was 88.8%. Diagnostic accuracy did not significantly improve with ≥4 passes (P = .20). Molecular testing was successful in 43.1%, and did not improve with ≥4 passes (P = .5). Molecular testing success did improve with the addition of core needle biopsy (P = .005). The pneumothorax rate for CT-FNA alone was 26.4%, and increased with ≥4 passes (P = .009). The median length of stay for CT-FNA alone was 0 days (range, 0-74 days), with same-day discharge in 67.5% of patients. CONCLUSIONS: Thoracic surgeons can perform CT-FNA with excellent diagnostic yield and accuracy. Diagnostic yield, accuracy, and success in molecular testing do not improve with ≥4 CT-FNA passes. Pneumothorax rates do increase with ≥4 passes. The addition of core needle biopsy enhances success with molecular testing.