Surgical power devices generate surgical smoke that may contain infectious components. Various technologies have been developed to improve surgical smoke management, but comparative performance data from human studies are limited. A prospective, single-centre study was performed for evaluating three smoke management technologies - continuous passive filtration (CPF), electrostatic precipitation (ESP), and continuous active filtration (CAF) - during laparoscopic sleeve gastrectomy in 15 bariatric patients. Surgical smoke concentration was monitored by condensation particle counting and single particle light scattering. Efficiency of intraoperative smoke clearance was assessed by the concentration half-life (T1/2). Secondary outcomes included total CO2 consumption, intraoperative pressure stability, and intraoperative visibility. ESP showed the highest smoke clearance efficiency (T1/2 = 7.2 s), followed by CAF (18.3 s) and CPF (20.6 s) with significant differences. Total CO2 consumption was highest for CAF (452.0 L) compared CPF (242.0 L) and ESP (80.1 L). All groups maintained a stable capnoperitoneal pressure and a good/very good intraoperative visibility. Electrostatic precipitation showed the lowest CO2 consumption and significantly higher smoke particle removal efficiency compared to continuous active/passive filtration. All technologies provided good/very good intraoperative visibility and capnoperitoneal pressure stability.
Demtröder et al. (Mon,) studied this question.
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