Application of a novel magnetic anchoring and traction technique in thoracoscopic esophagectomy: a swine experiment

BACKGROUND: Effective traction and dissection of the esophagus are key steps during thoracoscopic esophagectomy. In traditional methods, a separate trocar for the traction instruments or thoracic punctures are adopted to externally retract the esophageal loop. However, both methods bring about chest wall damage that is associated with increased morbidity and mortality. The magnetic anchoring and traction system can not only achieve exposure and pulling multi-directional flexible but also reduce the number of transthoracic ports and trocars used, and then avoid the chopstick effect in surgery. We aimed to verify the feasibility and safety of a self-designed magnetic anchoring and traction system in assisted thoracoscopic esophagectomy. METHODS: Ten healthy pigs were used as the experimental objects. A magnetic anchoring and traction system composed of an external unit and internal unit was designed, then the requirements and stress characteristics of esophageal pulling and exposure during thoracoscopic esophagectomy were analyzed. The internal unit was introduced through the 5th intercostal space port and was secured to the right wall of the esophagus, the external unit was placed on the surface of the chest wall to allow pairing with the internal unit. The external unit was moved on the chest wall to help exposing operative field. RESULTS: Ten pigs underwent a 3-port thoracoscopic esophagectomy using a magnetic anchoring and traction technique, and all operations were successful. The system provided adequate traction force to pull the esophagus. The external unit could move freely outside the chest wall, enabling suitable positioning of the esophagus for dissection. CONCLUSIONS: The novel magnetic anchoring and traction system in thoracoscopic esophagectomy is safe and feasible, and has the potential for clinical application.