Transthoracic echocardiography monitoring during atrial septal defect and ventricular septal defect device closures using a three-dimensional printed transducer holder.

Transthoracic echocardiography (TTE) is noninvasive but can only be performed intermittently during fluoroscopy. In a prior study, we created a transducer holder device to allow for hemodynamic monitoring in the intensive care unit. The current study is the first instance of the use of a three-dimensional (3D)-printed TTE transducer holder, which is easily customized and personalized to a previous transducer holder at relatively low cost and short production time, to enable continuous TTE monitoring during device closure of an atrial septal defect (ASD) and ventricular septal defect (VSD). There were 14 ASD patients and 9 VSD patients scheduled to undergo device closure. The study's real-time TTE monitoring was performed by using a 3D-printed transducer holder over the course of the entire implantation procedure. There were 23 patients who successfully underwent septal closures using the 3D-printed holder that enabled real-time images over the entire procedure. The median duration for real-time TTE guidance was 15 minutes for the ASD and 36 minutes for the VSD and the median fluoroscopy time was 11 minutes for the ASD and 30 minutes for the VSD. One migrating VSD occluder and one case of aortic regurgitation after occluder deployment were noted by real-time TTE monitoring during the procedure. Our novel 3D-printed transducer holder can provide transesophageal echocardiography-like real-time imaging during device closure of an ASD and a VSD and may become a new alternative method in ASD and VSD closures. It can also prevent radiation exposure for the intervention team who would otherwise need to perform TTE during live fluoroscopy.

Transthoracic echocardiography monitoring during ASD closure using an artificial hand system.

AIM: Continuous real-time echocardiographic monitoring is essential for guidance during ASD closure. However, transthoracic echocardiography (TTE) can only be implemented intermittently during fluoroscopy. We evaluate a novel approach to provide real-time imaging during the entire procedure. FINDING: We developed a custom-made TTE monitoring apparatus using artificial hand (AH-TTE) that enables real-time TTE images during atrial septal defect (ASD) closure. Thirty-two patients underwent successful device implantation using AH-TTE monitoring without complications. The median duration for real-time AH-TTE monitoring was 22 min and the median fluoroscopy time was 7.2 min. One case of pericardial effusion and one of transient bradycardia event due to air embolism was detected. All patients had uneventful recoveries. CONCLUSIONS: Our simple and novel monitoring technique with AH-TTE provides TEE-like monitoring and may be a new alternative method for ASD closure. It gives real-time stable TTE images and minimizes radiation exposure for the interventional team during fluoroscopy.