Heart Rhythm Society08.06.21
Findings from a new, multi-center clinical trial reveal a novel 4-Dimension (4D) ICE catheter provides a simple, intuitive field of view during catheter ablation and left atrial appendage closure procedures. The results from the first in-human clinical study were presented as a late-breaking clinical trial as part of Heart Rhythm 2021.
Atrial fibrillation increases the risk of stroke, as it can cause blood to pool in the heart and clot—specifically in the upper left chamber. For eligible patients with blood clots in their left atrial appendage (LAA), left atrial procedures are conducted to close off the appendage when medications are ineffective. Currently, most of these procedures are guided by two-dimensional ultrasound to view the patient’s anatomy. The new 4D catheter (NuVision, Biosense Webster Inc.) is designed to allow multiplanar visualization of target cardiac structures with intuitive, minimal catheter manipulation.
The prospective, non-randomized, multicenter study evaluated the diagnostic value of the 4D ICE catheter during left atrial procedures in 28 patients. Nine operators at two European clinical sites used the 4D ICE catheter to guide either LAA closure (two patients; one each - Watchman-Flx and Amulet) or catheter ablation of AF (8 cryoballoon patients; 12 radiofrequency ablation patients) or other arrhythmias (six patients). Patients enrolled were aged 44-74 and 75 percent were male. The primary and secondary safety endpoints were absent of unanticipated adverse events (AE) or ICE-procedure/device related AEs, and all device-related AEs. Primary and secondary performance endpoints included the device’s ability to provide adequate imaging to complete the procedure.
The findings show the 4D ICE catheter met all safety and performance endpoints in all patients, suggesting the device is a safe and effective visualization tool for a variety of electrophysiology procedures using multiplanar imaging. The catheter effectively guided transeptal puncture to create a small transeptal passage in all attempts. In the majority of patients (82 percent), operators rated image quality and catheter performance as very good.
“Our data support a growing shift in the electrophysiology field toward multiplanar imaging catheters that can offer operators a clearer look at a patient’s heart and enhance their field of view when performing life-saving procedures,” said Vivek Y. Reddy, M.D., director of Cardiac Arrhythmia Services for The Mount Sinai Hospital and lead author of the study. “For patients, this technology provides the most comprehensive look at their heart, helping to ensure their physician can provide optimal outcomes.”
The authors note that the 4D ICE catheter is approved by the U.S. Food and Drug Administration, and further studies are necessary to understand the optimal way to use the device.
Atrial fibrillation increases the risk of stroke, as it can cause blood to pool in the heart and clot—specifically in the upper left chamber. For eligible patients with blood clots in their left atrial appendage (LAA), left atrial procedures are conducted to close off the appendage when medications are ineffective. Currently, most of these procedures are guided by two-dimensional ultrasound to view the patient’s anatomy. The new 4D catheter (NuVision, Biosense Webster Inc.) is designed to allow multiplanar visualization of target cardiac structures with intuitive, minimal catheter manipulation.
The prospective, non-randomized, multicenter study evaluated the diagnostic value of the 4D ICE catheter during left atrial procedures in 28 patients. Nine operators at two European clinical sites used the 4D ICE catheter to guide either LAA closure (two patients; one each - Watchman-Flx and Amulet) or catheter ablation of AF (8 cryoballoon patients; 12 radiofrequency ablation patients) or other arrhythmias (six patients). Patients enrolled were aged 44-74 and 75 percent were male. The primary and secondary safety endpoints were absent of unanticipated adverse events (AE) or ICE-procedure/device related AEs, and all device-related AEs. Primary and secondary performance endpoints included the device’s ability to provide adequate imaging to complete the procedure.
The findings show the 4D ICE catheter met all safety and performance endpoints in all patients, suggesting the device is a safe and effective visualization tool for a variety of electrophysiology procedures using multiplanar imaging. The catheter effectively guided transeptal puncture to create a small transeptal passage in all attempts. In the majority of patients (82 percent), operators rated image quality and catheter performance as very good.
“Our data support a growing shift in the electrophysiology field toward multiplanar imaging catheters that can offer operators a clearer look at a patient’s heart and enhance their field of view when performing life-saving procedures,” said Vivek Y. Reddy, M.D., director of Cardiac Arrhythmia Services for The Mount Sinai Hospital and lead author of the study. “For patients, this technology provides the most comprehensive look at their heart, helping to ensure their physician can provide optimal outcomes.”
The authors note that the 4D ICE catheter is approved by the U.S. Food and Drug Administration, and further studies are necessary to understand the optimal way to use the device.