FDA Radiology AI Devices

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.

Ceevra Reveal 3+ is a software medical device that processes 3D images from CT and MR scans, employing machine learning to generate segmentations of normal anatomy. It helps healthcare professionals in preoperative surgical planning and intraoperative visualization to improve patient management. The software runs on computers and mobile devices and provides interactive tools for clinicians to examine anatomical structures in detail.

AVIEW CAC is a software tool designed for healthcare professionals to analyze non-contrast, non-gated Chest CT scans and quantitatively evaluate calcified plaques in coronary arteries. It automatically calculates the Agatston score, segments and evaluates the coronary arteries, and provides risk stratification based on calcium score, gender, and age. It facilitates access to CT data on various platforms, helping clinicians assess coronary artery disease risk using existing CT images.

TeraRecon Aorta.CT is a software that automatically segments and labels key anatomical landmarks of the aorta from contrast CT Angiography scans. It helps trained medical professionals by providing 3D visualizations and measurements to assist in patient management and procedure planning, without altering the original scan data or providing diagnosis.

Rapid Neuro3D is an AI-powered medical software that processes CT angiography scans to provide 3D and 2D visualizations of the brain's arterial blood vessels. It helps physicians confirm the presence or absence of identified lesions and assists in evaluation and treatment planning by simplifying image interpretation.

IRISeg is a software application developed by Intuitive Surgical that utilizes machine learning to assist with the segmentation of contrast-enhanced kidney CT scans and generates 3D models for preoperative surgical planning and intraoperative display. It provides both automatic and manual tools to segment kidney structures, helping clinicians visualize anatomy more efficiently and accurately for better patient management.

DrAid™ for Liver Segmentation is a web-based AI software that assists healthcare professionals in analyzing liver images from CT scans. It generates semi-automated liver segmentation and allows physicians to manually refine these segmentations and identify lesions, aiding in evaluation and treatment planning without providing direct diagnosis.

BriefCase-Quantification is an AI-based software that analyzes contrast-enhanced CT scans to measure aortic diameters at key anatomical landmarks, helping clinicians assess normal and aneurysmal aortas. It processes CT images in a cloud environment, produces measurement results for review, and is intended to assist but not replace radiologist evaluations.

AutoChamber is an AI-powered software tool designed to analyze both non-contrast and contrast-enhanced chest CT scans to automatically measure and report volumes of cardiac chambers including left atrium, left ventricle, right atrium, right ventricle, and left ventricular wall. It assists healthcare providers by providing quantitative imaging data that helps identify conditions such as enlarged heart and left ventricular hypertrophy, thus aiding in further clinical evaluation and management of cardiovascular risk.

LungVision is an AI-powered software system that helps clinicians navigate tools within the lungs during procedures. It combines previously acquired 3D CT images with real-time fluoroscopic X-ray images to provide detailed guidance for targeting lung lesions, thus enhancing the precision of pulmonary interventions.