FDA Radiology AI Devices

The WHOOP ECG (electrocardiogram) Feature is a mobile application software used with the WHOOP Strap wearable device to record and analyze a single-channel ECG signal similar to a Lead I ECG. It helps users detect atrial fibrillation, normal sinus rhythm, and abnormal heart rates by providing informational ECG data and rhythm classification, aiding users and clinicians in heart rhythm monitoring without replacing traditional diagnosis methods.

Masimo W1 is a wearable watch device that continuously records, displays, and transfers single-channel ECG rhythms and pulse oximetry parameters. It includes software for automated classification of atrial fibrillation to aid in heart rhythm identification, designed for adults in clinical and home settings to support healthcare professionals and patients in monitoring heart conditions.

Salix Central is a cloud-based software that helps cardiologists and radiologists analyze cardiac CT scans. It assists in identifying coronary plaques, stenosis, and performing calcium scoring, supporting clinical decision-making in assessing heart disease.

The VERAFEYE System by Luma Vision Limited is an advanced ultrasound imaging tool designed for real-time visualization inside the heart and great vessels during cardiac procedures. It includes a sterile catheter and an imaging console that creates 2D and 3D ultrasound images to help clinicians see cardiac anatomy and physiology, guiding interventions safely and accurately.

The Philips Holter Analysis System is a standalone software designed to analyze ambulatory ECG recordings collected over extended periods (typically 24 hours to 7 days). It automatically processes ECG data to detect heart rhythm disturbances, arrhythmias, pacemaker function, and myocardial ischemia-related symptoms, providing reports to assist clinicians in evaluating cardiac health. The system enhances arrhythmia detection algorithms and heart rate variability analysis and integrates with clinical information systems for streamlined ECG data management.

The Starlight Imaging Catheter is a sterile, single-use catheter designed for imaging coronary arteries in patients undergoing transluminal interventional procedures. It uses near-infrared light and an internal rotating fiber optic core to capture detailed cross-sectional images inside vessels, helping clinicians assess vessel condition and guide interventions safely and effectively.

The LVivo Software Application is an AI-based software platform that automates the analysis of ultrasound images, primarily to evaluate heart-left ventricle function and bladder volume. It helps clinicians by automatically detecting and calculating important medical parameters, improving diagnostic accuracy and efficiency in cardiology and related fields.

The Medline ReNewal Reprocessed Siemens ACUSON AcuNav 10F Ultrasound Catheter is a reprocessed ultrasound catheter designed for imaging inside the heart and great vessels of adult patients. It assists clinicians by providing intracardiac and intraluminal visualization using the ultrasound modality. The catheter is intended for imaging guidance during cardiac interventional procedures, improving visualization of cardiac anatomy and device placement without treatment delivery.

Cleerly LABS (v2.0) is a web-based software tool designed to help trained medical professionals analyze cardiac computed tomography (CT) images from Coronary CT Angiography (CCTA) scans. It uses machine learning to segment and label coronary arteries, assess plaques, stenosis, and vessel measurements, improving the efficiency and accuracy of coronary artery disease (CAD) assessment. The software enhances medical imaging workflows by automating complex, time-consuming tasks while providing interactive 2D and 3D visualizations.

LVivo Seamless is a software platform designed to automatically process echocardiogram ultrasound images to detect, measure, and calculate important cardiac medical parameters. It helps clinicians by selecting the appropriate image clips and activating AI modules to evaluate ejection fraction (EF) and global longitudinal strain (GLS), improving workflow and providing quantitative cardiac function data for better diagnosis and monitoring.