FDA Radiology AI Devices

The EnSite™ X EP System is a computerized diagnostic tool that helps visualize and map the electrical activity of the heart during electrophysiological procedures. It displays the 3D position of catheters inside the heart and creates detailed maps of cardiac chambers to aid clinicians in diagnosing and treating heart rhythm disorders.

The Globe Pulsed Field System is a catheter-based system designed for cardiac anatomical and electrophysiological mapping and stimulation. It helps clinicians visualize and assess electrical activity in the heart to diagnose and treat cardiac conditions more effectively by creating detailed 3D electroanatomical maps and guiding stimulation therapy.

The PhysCade System is a specialized AI-driven software and hardware platform designed to analyze and visualize intra-cardiac electrophysiological data collected during heart rhythm studies. It helps clinicians by providing detailed maps identifying early activation sites and other features of interest in the heart during arrhythmia procedures. This assists physicians to make more informed clinical decisions during electrophysiology procedures, improving patient care for those with heart rhythm disorders.

The OptiMap™ System is a medical device used during electrophysiology procedures to help physicians analyze and visualize complex cardiac arrhythmias. It uses a 64-electrode basket catheter to capture electrogram signals within the heart, which are processed with proprietary algorithms to create detailed maps of electrical flow and activation pathways. This assists clinicians in diagnosing and understanding heart rhythm disorders more effectively.

DeepRhythmAI is a cloud-based AI software that automatically analyzes ECG data from one or two leads to detect cardiac arrhythmias. It supports integration with various ECG recording devices and systems, providing clinicians with supportive analysis to aid in diagnosis, improving cardiac rhythm assessment accessibility and efficiency.

The Volta AF-Xplorer is a medical device that uses machine and deep learning algorithms to help clinicians annotate 3D anatomical and electrical maps of the human heart in real-time. It primarily assists in identifying regions within the atria that exhibit abnormal electrical activity during atrial fibrillation or atrial tachycardia, which can guide targeted catheter ablation procedures, improving patient outcomes.

VitalRhythm is a cloud-based AI software that continuously analyzes ECG signals to detect various cardiac arrhythmias. It works with a wearable biosensor (VitalPatch) and displays results to healthcare professionals for non-urgent clinical decision-making in outpatient and non-critical care settings. It helps clinicians monitor heart rhythms remotely and efficiently, assisting in diagnosis without replacing clinical judgment.

The Intra-Operative Positioning System (IOPS®) is a surgical navigation tool that helps clinicians navigate catheters and guidewires during endovascular procedures. It uses pre-acquired 3D vascular imaging data combined with real-time electromagnetic tracking to display precise tip positioning, serving as an adjunct to fluoroscopy. This technology enhances procedural accuracy without making direct diagnoses.

The Affera Integrated Mapping System is a software and hardware system designed to help cardiologists map the heart's electrical activity during catheter-based procedures. It uses magnetic and electromagnetic tracking to visualize catheters inside the heart in real time, records electrical signals from the heart, and displays 3D cardiac maps. This assists clinicians in diagnosing and treating heart rhythm disorders with improved accuracy and guidance.

Mac-Lab (AltiX AI.i), CardioLab (AltiX AI.i), ComboLab (AltiX AI.i), and MLCL Client Software (AltiX AI.i) are hemodynamic and electrophysiology recording systems developed by GE Healthcare. These systems record and display physiological data during cardiovascular procedures, allowing clinicians to analyze hemodynamic and electrophysiology signals in real time. The MLCL Client Software allows additional data analysis and remote viewing. These tools help doctors monitor and analyze patients' cardiovascular function during interventional procedures.