FDA Radiology AI Devices

EndoNaut is a medical imaging software system that helps doctors during endovascular procedures by overlaying three-dimensional vessel images from preoperative scans onto real-time two-dimensional fluoroscopy images. This assists clinicians in accurately positioning catheters, guidewires, and stents within blood vessels in areas like the thorax, abdomen, pelvis, and lower limbs, improving procedural outcomes and patient care.

RBknee is an AI-powered software that automatically analyzes knee X-ray images to measure joint space width and assess signs of knee osteoarthritis. It provides objective measurements and standardized grading to help medical professionals in evaluating knee osteoarthritis severity, supporting diagnosis and treatment decisions.

The Discovery MI Gen2 is a PET/CT imaging system by GE Medical Systems designed to produce detailed attenuation-corrected PET images combined with CT scans. It helps clinicians by providing anatomically localized images of radiopharmaceutical distribution, aiding diagnosis, treatment planning, and monitoring of diseases such as cancer, neurological disorders, and cardiac conditions across various body regions.

The TruSPECT Radiological Image Processing Station is a nuclear medicine imaging software system designed to process and display SPECT images alongside CT/MR scans for enhanced clinical diagnosis, including attenuation correction and quantitative assessment. It supports AI-based attenuation correction to improve image quality and aids clinicians, particularly for cardiac imaging and other clinical applications, by providing advanced visualization, segmentation, and quantitative tools.

InferRead CT Stroke.AI is an AI-powered software that helps hospitals and radiologists prioritize head CT scans by flagging suspected intracranial hemorrhage cases. It analyzes CT images using a deep learning algorithm and highlights potential emergency cases on a worklist, assisting clinicians in faster triage. The software operates alongside standard radiology workflows without altering images or removing cases, improving efficiency in detecting brain hemorrhages.

The uCT ATLAS with uWS-CT-Dual Energy Analysis is a multi-slice CT scanner designed for producing cross-sectional images of the whole body and specific organs using advanced imaging technology. It features fast scanning with high spatial and temporal resolution, low radiation dose, and AI-based enhancements for image quality and patient positioning. Its dual energy analysis software helps differentiate tissue composition using CT images acquired at different energy levels, aiding diagnostic insights.

Kosmos is a handheld diagnostic ultrasound system combined with ECG and digital auscultation capabilities. It helps healthcare professionals perform clinical assessments across multiple body regions such as cardiac, thoracic, abdominal, vascular, and musculoskeletal areas by providing synchronized ultrasound images, ECG rhythms, and auscultation sounds. The device supports various ultrasound modes including B-mode, Doppler, and harmonic imaging, enhancing diagnostic capabilities in a single portable platform.

The Vereos PET/CT is an advanced diagnostic imaging device that integrates PET and CT technologies to produce detailed anatomical and functional images of the whole body and major organs. It helps clinicians detect, localize, diagnose, and monitor diseases in oncology, cardiology, and neurology with improved image quality by employing an AI-powered adaptive reconstruction algorithm, enhancing diagnostic confidence and treatment planning.

breastscape v1.0 is an advanced software tool used with Olea Sphere 3.0 to assist breast imaging physicians and MRI technologists in analyzing breast MRI data. It provides visualization, semi-automatic lesion segmentation, kinetic curve analysis, and planning assistance for MR-guided breast biopsy procedures, helping clinicians detect and characterize breast lesions and plan interventions more effectively.

qER-Quant is an AI-powered software that processes non-contrast head CT scans to automatically identify and quantify key brain structures such as intracranial hyperdensities, lateral ventricles, and midline shift. It helps clinicians by providing volumetric data and visual overlays to aid in diagnosis and monitoring brain conditions over time.