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UnknownNCT05229848

ICE Based Atrial Flutter Ablation Vs Conventional Fluoroscopy/Anatomical Mapping Based Ablation - ICE Flutter Study

Prospective Comparison of ICE Based Atrial Flutter Ablation Vs Conventional Fluoroscopy/Anatomical Mapping Based Ablation

Status
Unknown
Phase
N/A
Study type
Interventional
Enrollment
60 (estimated)
Sponsor
Kansas City Heart Rhythm Research Foundation · Academic / Other
Sex
All
Age
18 Years
Healthy volunteers
Not accepted

Summary

Intracardiac echocardiography (ICE), has been an essential component of Radiofrequency (RF) ablations for AF given its association with decreased fluoroscopy time and complication rates, and therefore it is logical that this can be applied to CTI ablations for AFL as well. There are however no studies to date that directly focused on the benefits of adding ICE during CTI dependent AFL ablation. Currently it is not required that operators use ICE in every case of AFL ablation. Investigators intended to study the routine use of ICE in such cases and to see if there is a significant benefit in routine use of ICE.

Detailed description

Atrial flutter (AFL) is a re-entrant tachyarrhythmia that involves the atria that leads to both rapid ventricular rates as well as a loss of effective contractility of the atrial making them vulnerable to formation of thrombi similar to atrial fibrillation (AF). Incidence rates ranges between 5/100,000 in those \<50 years old to 587/100,000 in subjects older than 80. AFL often coexists or precedes AF. In a longitudinal study, 56% of patients with lone AFL eventually developed AF. A variety of atrial flutters have been described apart from the classic cavotricuspid isthmus (CTI) dependent flutters. These include left atrial flutters and scar based reentry flutters. Atrial flutter is often a persistent rhythm that requires electrical cardioversion or radiofrequency catheter ablation for termination. While AFL may recur after cardioversion with or without antiarrhythmic therapy, ablation offers a more curative approach for this rather intolerant arrhythmia. 3D electroanatomical mapping in combination with fluoroscopy has been traditionally used in conventional CTI ablation for AFL. However, there are instances when ablation of the CTI is challenging as a result of various factors including a thick Eustachian ridge, presence of a sub-Eustachian pouch, or prominent pectinate muscles. Isthmus anatomy has been shown to affect the parameters of ablation procedure. 3D mapping to overcome difficult anatomy may not be the answer for difficult situations as shown by some operators . These anatomical challenges can not only lengthen procedural times but also lead to increased risk of complications such as perforation, effusion, or cardiac tamponade. Intracardiac echocardiography (ICE), has been an essential component of Radiofrequency (RF) ablations for AF given its association with decreased fluoroscopy time and complication rates, and therefore it is logical that this can be applied to CTI ablations for AFL as well. There are however no studies to date that directly focused on the benefits of adding ICE during CTI dependent AFL ablation. Currently it is not required that operators use ICE in every case of AFL ablation. Investigators intend to study the routine use of ICE in such cases and to see if there is a significant benefit in routine use of ICE.

Conditions

Interventions

TypeNameDescription
PROCEDURE3D electroanatomical mapping alone guided CTI ablation3D electroanatomical mapping in combination with fluoroscopy has been traditionally used in conventional CTI ablation for AFL.
PROCEDUREICE plus 3D electroanatomical mapping guided CTI ablationICE imaging catheter is typically introduced through an 11-F hemostatic sheath and positioned under fluoroscopic guidance in the right atrium. After catheter coupling to the imaging platform, imaging frequency is optimized by the operator using adjunctive gain, depth, and focal length controls to define anatomic structures and minimize noise. Imaging is performed at different levels in the right atrium, if needed. Imaging targets included the right atrium, coronary sinus orifice, fossa ovalis, interatrial septum (IAS), tricuspid valve, left atrium, left atrial appendage, orifice of all pulmonary veins, mitral valve, papillary muscles, aortic and pulmonary valve leaflets, right ventricle, RVOT, pericardial space, esophagus, aorta and adjoining left ventricular and right ventricular myocardium.

Timeline

Start date
2022-02-01
Primary completion
2022-04-01
Completion
2022-04-01
First posted
2022-02-08
Last updated
2022-02-08

Locations

3 sites across 1 country: United States

Source: ClinicalTrials.gov record NCT05229848. Inclusion in this directory is not an endorsement.