Successful radio frequency (RF) cardiac catheter ablation requires the creation of lesions by delivering energy while maintaining adequate catheter contact with the endocardium. Unfortunately, it is difficult to identify contact intraoperatively as a typical RF ablation catheter lacks clear indications of contact. We propose to use the Boston Scientific IntellaTip MiFi catheter to explore whether characteristics of the electrograms produced by the mini-electrodes on the ablation tip could help confirm tissue contact. Using an ultrasound catheter to define instances of clear contact and non-contact, we will determine whether the micro-electrodes produce sufficient information to confirm catheter contact. We propose that the MiFi catheter produces sufficient signal characteristics that can be used as an effective surrogate for adequate tissue contact.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
20
All enrolled patients are clinically indicated for an atrial flutter ablation. The patients who consent for this study will have additional electrocardiograms taken during their procedure for future review, as well as ultrasound images form inside their heart. This will lengthen the ablation by approximately 10 minutes, but is not a separate procedure.
Emory Saint Joseph's Hospital
Atlanta, Georgia, United States
Emory University Hospital Midtown
Atlanta, Georgia, United States
Correlation between catheter contact and micro electrode signals
The known contact state of the ablation catheter will be compared in a blinded fashion to the signals from the microelectrodes to determine if a relationship exits.
Time frame: During Procedure
Document the electrogram signatures that help demonstrate catheter tip contact
Time frame: During Procedure
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