Ensite Precision Cardiac Mapping System

EnSite Precision cardiac mapping system not integrated with EnSite Array balloon mapping catheter. The 64-pole non-contact EnSite Array catheter (Abbott) is a great tool to map tachycardias with just one beat. It is also beneficial for mapping conduction velocity or conduction direction of atrial fibrillation. However, this tool is still not.

Ensite precision cardiac mapping system. 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** INTUITIVE AUTOMATION 1. With the EnSite Precision cardiac mapping system, you can decrease mapping time using intelligent automation tools. 1* With the system, you. The EnSite Precision cardiac mapping system introduces new solutions, including the EnSite™ AutoMap Module, which enables the electrophysiologist to more quickly perform morphology matching that identifies the source of the irregular heartbeat. The EnSite AutoMap Module includes the new TurboMap feature, which allows the physician to build a. EnSite Precision™ Cardiac Mapping System with software version 2.2 is a catheter navigation and mapping system capable of displaying the three-dimensional (3D) position of conventional electrophysiology catheters, as well as displaying cardiac electrical activity as waveform traces and as dynamic 3-D Built on a foundation of the St. Jude Medical™ cardiac mapping technology utilized in more than 2,000 electrophysiology labs around the world, the new EnSite Precision cardiac mapping system is.

The EnSite Precision cardiac mapping system from, developed by St. Jude Medical, now a division of Abbott, has been launched in the U.S., along with the matching Advisor FL Circular Mapping Catheter. The new EnSite Precision cardiac mapping system is the latest addition to the company’s electrophysiology portfolio, and is designed to provide automation, flexibility and precision in cardiac mapping during the treatment of patients with abnormal heart rhythms (cardiac arrhythmias). Conducted at the Abbott Advanced Technology Centre (ATC) in Brussels, this two-day course provides individuals who have limited experience with the EnSite Precision™ cardiac mapping system, hands-on education utilising state-of-the-art virtual reality technology. The new EnSite Precision cardiac mapping system is the latest addition to the company’s electrophysiology portfolio, and is designed to provide automation, flexibility and precision in cardiac mapping during the treatment of patients with cardiac arrhythmias. The system received CE mark in January 2016.

The Advisor HD grid mapping was then used as a high density catheter in conjunction with the EnSite Precision system to create left atrial (LA) geometry and voltage map using the HD wave algorithm. St. Jude Medical won FDA clearance for its EnSite Precision cardiac mapping system and the Advisor FL Circular Mapping Catheter, Sensor Enabled. The electrophysiology system is intended to help. The EnSite Velocity™ Cardiac Mapping System is a non-fluoroscopic mapping and catheter navigation system. The System creates three dimensional (3D) models that are based on the anatomy of the patient’s own cardiac chamber. "The TactiCath Contact Force Ablation Catheter, Sensor Enabled along with the EnSite Precision cardiac mapping system create a powerful combination for more precisely treating patients with cardiac arrhythmias," said Martin Lowe, M.D., clinical director of cardiac electrophysiology at Bart's Heart Centre at St. Bartholomew's Hospital in London.

The ensite precision cardiac mapping system introduces new solutions, including the ensite automap module, which enables the electrophysiologist to more quickly perform morphology matching that identifies the source of the irregular heartbeat. The ensite automap module includes the new turbomap feature, which allows the physician to build a map. 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** INTUITIVE AUTOMATION 1. With the EnSite Precision cardiac mapping system, you can decrease mapping time using intelligent automation tools. 1* With the system, you. JUDE MEDICAL PRECISION ENSITE MAPPING SYSTEM. PtaszekLM, et al. Rapid High-Density Automated ElectroanatomicalMapping Using Multiple Catheter Types. Poster Session PO097 APHRS 2015. 3. Based on approximate mapping speed of 491 pts / minute in the right atrium in 5 swine USING THE BOSTON SCIENTIFIC RHYTHMIA MAPPING & NAVIGATION SYSTEM. For those with a well-developed understanding of cardiac electrophysiology and some previous exposure to the EnSite Precision™ cardiac mapping system methodology, the EnSite Precision™ system Expert Insight one-day session, held at the Abbott training facility in Solihull, provides further exposure to advanced features on the EnSite Precision™ cardiac mapping system.

The EnSite Precision™ Cardiac Mapping System is a newly developed system that introduces features such as Delayed Enhancement Magnetic Resonance Imaging (DE-MRI) image integration, lesion marking automaticity, automatic mapping, and workflow flexibility to aid in the success of complex ablation procedures. Next-Generation Cardiac Mapping System Enables Tailored Treatment for Patients with Cardiac Arrhythmias. AUSTIN, TEXAS—On December 20, 2016, the Texas Cardiac Arrhythmia Institute (TCAI) at St. David’s Medical Center became the first facility in the nation to use the EnSite Precision™ cardiac mapping system to treat Ventricular Tachycardia (VT) and Supraventricular Tachycardia (SVT. Abstract: Impact of medical technologies and its use in electrophysiology was shown in this paper. New launched EnSite™ Precision (St. Jude Medical) three-dimensional cardiac mapping system was. “The new EnSite Precision cardiac mapping system allows more mapping data to be collected in a shorter amount of time compared to today’s technologies,” John D. Day, MD, FHRS, medical.

The EnSite Precision™ System is a 3-D cardiac mapping system that uniquely combines impedance and magnetic field technology to enable precise navigation and accurate tracking of conventional and St. Jude Medical ™ Sensor Enabled electrophysiology catheters during the creation of three-dimensional maps based on the anatomy