Introduction: Surgical resection with minimally invasive approach is the gold standard for both definitive diagnosis and treatment of solitary pulmonary nodules (SPNs); however, it can be difficult to pinpoint small, deep, or subsolid nodes without palpating lung parenchyma. The primary endpoint of this study is showing that radioguided surgery is a cost-effective strategy to improve the effectiveness of video-thoracoscopic localization/resection of SPNs/ground-glass opacities (GGOs). Secondary endpoints are analyzing the morbidity of this technique and tips and tricks to better manage this method.
Methods: SPN smaller than 20 mm and/or with a distance from the visceral pleura ≥5 mm underwent minimally invasive resection after computed tomography-guided injection of a solution composed of 0.1/0.2 mL of 99Tc-labeled human serum albumin microspheres and 0.1 mL of nonionic contrast. In the operating theater, a collimated probe connected to a gamma ray detector allowed localization of the target area.
Results: Between 1997 and 2018, a total of 451 patients with SPN/GGO underwent minimally invasive surgery with a radioguided technique at our hospital. The mean SPN diameter was 13 mm (range, 5-20 mm), and the mean distance from the visceral pleura was 15 mm (range, 6-29 mm). The mean time to a localizing nodule was 3 minutes (range, 1-5 minutes). No significant injection-related complications were reported; only 3.3% of patients (15 of 451) developed pneumothorax. Both 30- to 60-day and 90-day mortality were 0%. The rate of postoperative complications was 2.53% (prolonged air leak). The conversion rate to thoracotomy was 1.55% (7 of 451).
Conclusions: Our 20-year experience shows that radioguided thoracoscopic surgery is a safe and feasible strategy to treat suspicious SPN/GGO, with a success rate of 98%.
Keywords: Ground-glass opacity; Localizing technique; Lung nodule; Minimally invasive surgery; Radiotracer; VATS.
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