The Boston Scientific INTELLAMAP ORION High Resolution Electrophysiology Mapping Diagnostic Catheter (REF M0042001205) is a multi-electrode basket-style diagnostic catheter engineered for high-density, high-resolution intracardiac electroanatomic mapping. It is intended to be used together with the RHYTHMIA HDx Mapping System to acquire detailed activation, voltage and propagation maps of cardiac chambers during electrophysiology procedures.
Key Features
- Mini-basket distal assembly with 64 low-profile printed mini-electrodes arranged on 8 splines for high spatial resolution mapping.
- Small, closely spaced electrodes designed to support sharper, higher-fidelity electrograms and improved signal-to-noise compared with conventional diagnostic catheters.
- Adjustable basket diameter to facilitate wall contact across chambers of varying anatomy.
- Bidirectional deflection of the distal shaft for navigation and chamber access.
- Magnetic and impedance-based localization compatible with the RHYTHMIA HDx Mapping System for automated, beat-acceptance-driven map acquisition.
- Single-use, sterile, packaged for hospital electrophysiology lab workflows.
Clinical Applications
- High-density electroanatomic mapping of the atria and ventricles during diagnostic electrophysiology studies.
- Mapping of complex atrial arrhythmias, including atrial tachycardia and atrial fibrillation substrate characterization.
- Ventricular tachycardia substrate and activation mapping in structurally abnormal hearts.
- Identification of low-voltage areas, scar borders and conduction channels to support ablation strategy planning.
Product Information
Brand: Boston Scientific
Product Family: INTELLAMAP ORION
Category: EP Diagnostic Catheters
REF / UPN: M0042001205
Electrode Configuration: 64 mini-electrodes on 8 splines (mini-basket)
Compatible Mapping System: Boston Scientific RHYTHMIA HDx Mapping System
Deflection: Bidirectional
Usage: Single-use, sterile
Shaft size, usable length, sheath compatibility and detailed electrode spacing: Not specified in the located sources.