EnSite Precision

Cardiac Mapping System

 EnSite Precision

About

The EnSite Precision™ Cardiac Mapping System offers next-generation technology that allows for a high level of automation, flexibility and precision to help you diagnose a wide range of arrhythmias.1,2*

EnSite Precision Cardiac Map of Impedance-Field Flexibility
EnSite Precision Cardiac Map of Magnetic-Field Precision

Automated. Flexible. Precise. Transform Procedures with Intuitive Automation1

Advanced mapping is complex. You need precise information quickly to make sound decisions. The EnSite Precision Cardiac Mapping System helps you decrease mapping time using intelligent automation tools.1**

The system:

  • Enhances VT mapping with automated, advanced morphology matching capability when using the EnSite™ AutoMap module and TurboMap feature.1
  • Lets you automatically reject catheter ectopy
  • Features new timing detection algorithms including Last Deflection
  • Offers two new map types: Fractionation Map and Score Map

 

Map the Most Complex Cases1

The EnSite Precision Cardiac Mapping System is designed to help you map even the most complex arrhythmia cases through a high level of automation, flexibility and precision.1,2*

 

EnSite Precision Cardiac Mapping System

Drs. Gerhard Hindricks and Philipp Sommer of the University of Leipzig Heart Center reflect on their use of the EnSite Precision Cardiac Mapping System, and discuss key features and benefits while showing the system in action.

EnSite Precision Cardiac Mapping System

EnSite™ Automap Module with Automated Morphology Matching Capability

Expand Procedural Options Using Superior Flexibility.1*

The EnSite Precision Cardiac Mapping System is designed to help you customize your procedures to address the circumstances of each case.

  • Map any chamber with any catheter.***
  • Create faster high-density maps using any catheter.1***
EnSite Precision Automap Module Line

Effectively Manage Patients Through Greater Precision2****

The EnSite Precision Cardiac Mapping System uniquely combines impedance and magnetics, so you can enhance model creation.2

EnSite Automap Mapping Display

Optimize New and Existing Advanced Technology

Built on an open platform, the EnSite Precision Cardiac Mapping System lets you choose the diagnostic and ablation catheters that best meet the needs of your patients. The EnSite Precision Cardiac Mapping System allows you to:

  • Choose contact or noncontact mapping
  • Improve model accuracy by reducing the “tenting” effect when creating a model with the ablation catheter, and minimize variation in voltage amplitude during mapping with the EnSite™ contact force module3
  • Achieve fast, real-time contact force measurements using the TactiCath™ Ablation Catheter, Sensor Enabled™
  • Use EnSite Automap module with OneModel and OneMap in one system, achieving 54% faster, real-time model creation with the OneMap tool for precise anatomic modeling4,5
EnSite Precision Automap Module Line
EnSite Precision Link, Sensor Enabled
EnSite Precision Automap Module Line
EnSite Precision Field Frame with Field Frame Mounting Bracket and Field Frame Cable
Manuals & Resources

Manuals & Resources

Cardiovascular Products

Cardiovascular Products

Customer Service

Customer Service

References

* The open-platform feature of the EnSite Precision™ cardiac mapping system allows for use of almost any catheter for 3D data collection, thus offering superior flexibility as compared to Biosense Webster’s Cartosystem, which limits 3D data collection to Biosense Webstercatheters only.

** Comparison is versus manual mapping with EnSite Precision mapping module or manual lesion marking.

*** In accordance with catheter indication for use.

**** Greater precision based on improvement in accuracy of impedance model with magnetic field scaling applied via robot testing vs. EnSite Velocity v4.0.2.

  1. Ptaszek LM, Moon B, Rozen G, Mahapatra S, Mansour M. (2018). Novel automated point collection software facilitates rapid, high-density electroanatomic mapping with multiple catheter types. J Cardiovasc Electrophysiol, 29(1), 186-195. https://doi.org/10.1111/jce.13368.
  2. St. Jude Medical. Data on file, Report 90237452.
  3. St. Jude Medical. Data on file, Report 90214738.
  4. Heist, E. K., Danik, S., Chalhoub, F., Koci, F., Barrett, C., Perna, F., … Mansour, M. (2011). Human and animal feasibility study of investigational 3D geometry acquisition software. Heart Rhythm, 8, S241, https://dx.doi.org/10.1016/j.hrthm.2011.03.027
  5. Abbott. Data on File. Report 90212729.

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