Intuitively engineered construction combined with our trusted BLAZER™ Catheter platform provides an ablation catheter designed to function as a physical extension of your hand. Manipulation of the handle translates predictably into movement of the catheter tip. Control and durability provide procedural confidence.
Exceptional Clinical Results
The BLAZER Open Irrigated Catheter, with its Total Tip Cooling™ design, provides an elegant cooling platform with the robust handling capabilities of the historical BLAZER platform to provide performance and efficacy.
Combining the proven performance of the BLAZER™ platform with a navigation-enabled 4 mm tip, the INTELLANAV™ ST Ablation Catheter offers smaller, more precise ablation for increased accuracy, efficiency and performance in RHYTHMIA HDx™ Mapping System procedures.
The INTELLANAV™ XP and INTELLANAV MIFI™ XP catheters encompass the proven performance of the BLAZER™ XP platform and the unparalleled clarity of MiFi technology in our magnetically tracked ablation catheters. These catheters unlock the magnetic tracking performance of the RHYTHMIA™ Mapping System, enabling increased accuracy, clarity, and performance.1
The INTELLANAV™ OPEN-IRRIGATED catheter encompasses the elegant Total Tip Cooling™ design and the familiarity and proven performance of the Blazer platform, now enhanced with INTELLANAV magnetic tracking technology for cool performance and confident navigation in RHYTHMIA Mapping System procedures.
The INTELLATIP MIFI™ OI Ablation Catheter combines Boston Scientific’s proprietary MicroFidelity (MiFi) mini-electrode sensor technology for Unparalleled Clarity with our open-irrigated Total Tip Cooling™ design for Cool Performance.
The INTELLATIP MIFI XP, with MicroFidelity (MiFi) sensor technology, introduces a new generation of high-resolution ablation catheters. INTELLATIP MIFI XP technology, only from Boston Scientific, is engineered to deliver highly localized electrical information of unparalleled clarity to allow you to see the critical information you need in real-time.