FDA Radiology AI Devices

The Xeleris V Processing and Review System by GE Healthcare is a software platform designed for processing, reviewing, and analyzing nuclear medicine and PET imaging data. It supports various clinical applications including brain, lung, cardiac, liver, and bone imaging analyses, aiding physicians in diagnosis and treatment planning by providing enhanced image visualization, quantification, and monitoring of patient radiation doses.

Caption Interpretation Automated Ejection Fraction Software is an AI-powered tool that processes cardiac ultrasound images to automatically estimate the left ventricular ejection fraction, a critical measure of heart function. It helps clinicians quickly and accurately evaluate cardiac health by analyzing ultrasound video clips, selecting the best quality views, and calculating ejection fraction with confidence metrics. This supports clinical decision-making in adult cardiac evaluations.

AVIEW Lung Nodule CAD is an AI-powered software designed to help radiologists detect lung nodules on chest CT scans. It automatically identifies nodules between 3 to 20 mm in diameter, providing an additional review layer to ensure suspicious nodules are not overlooked. This tool integrates with medical imaging systems and has been clinically tested to improve detection accuracy and reduce the time radiologists spend reviewing CT scans, ultimately aiding early diagnosis of lung conditions.

Brainomix 360 e-ASPECTS is an AI-powered software that analyzes non-contrast CT brain scans to assist clinicians in detecting and characterizing ischemic brain tissue injuries, particularly in cases of acute stroke caused by MCA or ICA occlusions. It automatically provides an ASPECTS score, highlights affected brain regions, and visualizes voxel contributions to the score, helping clinicians make timely and more accurate assessments to guide stroke treatment.

The Swoop Portable MR Imaging System by Hyperfine is a bedside portable MRI device designed to produce images of the internal structure of the head. It uses magnetic resonance imaging with advanced image reconstruction algorithms that include deep learning to enhance image quality by reducing noise and blurring. This helps clinicians obtain diagnostic images even when full diagnostic examination is not practical, aiding diagnosis at the point of care in facilities such as emergency and critical care units.

BoneMRI v1.6 is an AI-powered software that enhances MRI images to improve visualization of bone structures in the pelvic and lumbar spine regions. It uses advanced algorithms, including convolutional neural networks, to generate 3D images with enhanced bone contrast. This allows clinicians such as radiologists and orthopedic surgeons to better assess bone morphology and tissue density without the need for CT scans, improving diagnostic capabilities in these regions.

The uMR 680 is a 1.5 Tesla superconducting magnetic resonance imaging (MRI) system designed to produce diagnostic-quality images of the head, body, and extremities. It includes a deep-learning based image processing algorithm called DeepRecon for image denoising and super-resolution, enhancing image quality and assisting clinicians in diagnosis.

The uCT ATLAS Astound with uWS-CT-Dual Energy Analysis is an advanced CT scanner designed to produce cross-sectional images of various body regions, including head, whole body, cardiac, and vascular areas. It integrates deep learning for image reconstruction to enhance image quality and reduce noise, and includes software for dual energy analysis to differentiate tissue types based on their chemical composition. This aids clinicians in lung cancer screening and detailed anatomical evaluation, supporting early diagnosis and treatment.

The SIGNA Victor is a 1.5 Tesla whole body MRI scanner designed to provide high-resolution diagnostic images quickly and with a high signal-to-noise ratio. It produces images in multiple planes and supports imaging of the entire body, including brain, spine, joints, heart, abdomen, and more, aiding clinicians in diagnosing a variety of conditions.

The V8 and V7 Diagnostic Ultrasound Systems by Samsung Medison are advanced ultrasound machines designed for a wide range of clinical applications including fetal, abdominal, musculoskeletal, cardiac, and more. They use various ultrasound imaging modes and AI-based tools to assist healthcare professionals in acquiring and analyzing ultrasound images for improved diagnosis and workflow efficiency.