Cryoballoon Catheters with sensors for treatment of AF

Sammanfattning: Atrial fibrillation is a cardiac condition in which the heart rate is abnormally fast and/or irregular. While not yet proven to be fatal on its own, it severely increases the probability of developing further medical conditions including a five times higher risk of getting stroke. The prevalence has, over the past decades, increased significantly across the world and was in 2014 approximated at roughly 2% in the European population. Though, this number is expected to further increase in the coming years and decades. Therefore, in order to reduce suffering and save lives, it is vital that there is an efficient way of treating this condition. Current treatment methods include medicine, cardioversion, and tissue ablation. This thesis focuses on tissue ablation, more particularly cryoballoon ablation, which is a minimally invasive procedure in which a cryoballoon catheter is guided through a blood vessel (generally accessed through an incision made in the groin area) to the heart. When inside the atrial chambers the balloon can be inflated, put into contact with the faulty tissue and then be injected with liquid nitrous oxide which vaporizes and freezes said tissue isolating the currents causing the irregular heartbeat. This thesis aims to attach flexible electronics to the outside of the cryoballoon, which should then be able to inform the operator that adequate contact has been achieved before freezing, thereby increasing the probability of successful ablation. Three prototypes were created using polyurethane balloons, flexible circuit boards and a biocompatible, flexible cyanoacrylate adhesive. The flexible circuit boards were arranged in different patterns for each prototype to see which configuration would best suit the application. It was found that narrow strips (single trace) aligned axially and spaced evenly along the circumference best accomplished the goal. The traces did, however, not adhere as well to the balloon as was hoped which likely was due to user error during the gluing procedure but a further investigation may be desired to ensure that the materials and adhesive are compatible.