Sara Ricciardi1, Federico Davini2, Gianpiero Manca3, Annalisa De Liperi4, Gaetano Romano2, Carmelina Cristina Zirafa2, Franca Melfi2. 1. Minimally Invasive and Robotic Thoracic Surgery, Robotic Multispecialty Center for Surgery, University Hospital of Pisa, Pisa, Italy. Electronic address: ricciardi.sara87@gmail.com. 2. Minimally Invasive and Robotic Thoracic Surgery, Robotic Multispecialty Center for Surgery, University Hospital of Pisa, Pisa, Italy. 3. Regional Center of Nuclear Medicine, University Hospital of Pisa, Pisa, Italy. 4. Second Radiology Unit, University Hospital of Pisa, Pisa, Italy.
Abstract
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%.
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%.