EP-TRACER 70 included in the stationary system setup. The EP-TRACER system is a
EP-TRACER 70 included in the stationary system setup. The EP-TRACER system is a computerized electrophysiology measurement system designed for both regular and experimental EP studies.The EP-TRACER System is an electrophysiology measurement system used to acquire, filter, digitize, amplify, display, and record signals obtained during electrophysiological studies and related procedures. The system allows the user to monitor, display and record the signals. The system incorporates a stimulator intended to be used for diagnostic cardiac stimulation during electrophysiological testing of the heart.
EP-TRACER 38 included in the portable system setup. The EP-TRACER system is a co
EP-TRACER 38 included in the portable system setup. The EP-TRACER system is a computerized electrophysiology measurement system designed for both regular and experimental EP studies.The EP-TRACER System is an electrophysiology measurement system used to acquire, filter, digitize, amplify, display, and record signals obtained during electrophysiological studies and related procedures. The system allows the user to monitor, display and record the signals. The system incorporates a stimulator intended to be used for diagnostic cardiac stimulation during electrophysiological testing of the heart.
The IOPS (Intra-Operative Positioning System) is intended for the evaluation of
The IOPS (Intra-Operative Positioning System) is intended for the evaluation of vascular anatomy as captured using 3D modeling from previously acquired scan data. It is intended for real-time tip positioning and navigation using sensor-equipped, compatible catheters and guidewires used in endovascular interventions in the descending aorta. After the patient is placed on the OR table, a cone beam CT (CBCT) is acquired using fluoroscopy with a flat panel detector (FPD). The scan is uploaded to the hospital’s PACS. The CBCT is registered to the initial CT using the IOPS software and the 3D renderings. The system is indicated for use as an adjunct to fluoroscopy. The IOPS does not make a diagnosis.
The IOPS (Intra-Operative Positioning System) is intended for the evaluation of
The IOPS (Intra-Operative Positioning System) is intended for the evaluation of vascular anatomy as captured using 3D modeling from previously acquired scan data. It is intended for real-time tip positioning and navigation using sensor-equipped, compatible catheters and guidewires used in endovascular interventions in the descending aorta. After the patient is placed on the OR table, a cone beam CT (CBCT) is acquired using fluoroscopy with a flat panel detector (FPD). The scan is uploaded to the hospital’s PACS. The CBCT is registered to the initial CT using the IOPS software and the 3D renderings. The system is indicated for use as an adjunct to fluoroscopy. The IOPS does not make a diagnosis.