Abstract

We investigated the safety and feasibility of CT-guided transthoracic pulmonary artery catheterization (TPAC) in a porcine model. Procedures were conducted on ten mature Bama miniature pigs. After anesthesia, chest CT was performed in the left lateral decubitus position to determine the puncture route. Under the guidance of multiple CT scans, the introducer sheath was inserted from the right chest wall of the pig into the right pulmonary artery using the Seldinger technique. Then, a catheter connected with a transducer was inserted into the sheath to measure the pulmonary artery pressure. Finally, an active approximator was used to close the puncture site on the pulmonary artery. The pigs were followed up for 8weeks to evaluate the operation-related complications and survival. Ten of 11 CT-guided TPAC procedures were successfully performed on ten pigs, rendering a technical success rate of 90.9%. One pig had hemoptysis while the needle was being inserted during the first operation, and a second procedure was successfully conducted 17days later. Other complications, including pulmonary bleeding along the needle track (3 of 11; 27.3%), unclosed pulmonary artery puncture sites (3 of 10; 30%), pneumothorax (1 of 11; 9.1%), and hemopericardium (1 of 11; 9.1%), spontaneously resolved without complication-specific treatment. The mean pulmonary arterial pressure was 32 ± 17.6mmHg. All animals survived the procedure and reached the end of the follow-up period. CT-guided TPAC is feasible and safe in a porcine model, serving as a potential alternative pathway for pulmonary artery intervention. • TPAC is feasible and safe in a porcine model, serving as a potential alternative pathway for pulmonary artery intervention. • This novel approach allows for faster access to the pulmonary artery, and it might be easier to operate the tip of the catheter to super-select the intent branch of the pulmonary artery. • TPAC can be an alternative pulmonary artery intervention pathway in patients with mechanical right-heart valves, great-vessel transposition, and other obstacles.

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