FDA Radiology AI Devices

MICSI-RMT is a software medical device designed to improve head MRI images by reducing noise, enhancing image quality to assist radiologists. It processes functional and diffusion MRI images without a user interface, outputting enhanced images for better visualization of brain structures and activation maps, aiding in clinical MRI interpretation.

SubtleSYNTH (1.x) is an AI-based software that synthesizes STIR contrast images from T1- and T2-weighted spine MRI sequences. It uses a convolutional neural network to generate synthetic images that can be reviewed alongside traditional MRI scans, helping radiologists by providing additional image contrast information without additional scanning time or patient burden.

SMART Bun-Yo-Matic X-Ray is a software tool that uses X-ray images of the foot and ankle to create 3D mathematical models, provide radiographic measurements, and assist orthopedic healthcare professionals in diagnosis and surgical planning. The software visualizes patient anatomy and orthopedic fixation devices, enabling precise pre-surgical planning to improve treatment outcomes for foot and ankle conditions such as hallux valgus.

Syngo Carbon Enterprise Access (VA40A) is a software-only medical device developed by Siemens Healthcare GmbH for use in healthcare institutions. It provides an enterprise-wide web application to display and render DICOM and non-DICOM medical data, supporting image and result distribution for diagnostic use by trained medical professionals. The software facilitates standardized data access without controlling image acquisition and enhances clinical workflows with a user-friendly interface. It does not include automated diagnostic functions but supports quality display and management of medical images and documents.

YSIO X.pree is a digital stationary X-ray system designed to create X-ray images of various body parts including the skull, chest, abdomen, and extremities. It helps medical professionals visualize anatomical structures to support diagnosis and treatment. The system features updated software, new wireless detectors, and AI-based functions like auto-cropping and automatic collimation to improve image quality and ease of use.

The ECHELON Synergy V10.0 MRI system by Fujifilm Healthcare Americas Corporation is an advanced magnetic resonance imaging device that produces detailed cross-sectional images of the body using non-ionizing magnetic fields. It helps physicians diagnose various conditions by providing high-quality images reflecting tissue properties such as proton density and relaxation times. This system includes updated software features with AI-powered image processing to improve image quality and workflow efficiency, benefiting both clinicians and patients.

True Enhance DL is a deep learning-based software from GE Healthcare Japan Corporation that enhances contrast in standard 120 kVp CT images of the body, making details clearer without requiring changes to acquisition parameters. It is intended to assist clinicians by providing improved image contrast to aid diagnosis and is suitable for patients of all ages.

The uMR 680 is a 1.5T superconducting magnetic resonance imaging device that produces detailed anatomical and functional images to assist physicians in diagnosis. It includes components such as magnets, RF coils, and software for imaging the head, body, and extremities, helping clinicians with diagnostic imaging using MRI technology.

The SOMATOM go. Platform and SOMATOM X. Platform CT scanners, produced by Siemens Medical Solutions USA, Inc., are advanced computed tomography systems designed to generate detailed cross-sectional images of patients. These devices aid healthcare professionals in diagnosis, treatment planning, and radiation therapy across a variety of clinical scenarios, including lung cancer screening. The systems feature a fan-beam CT technology, sophisticated software for image reconstruction and optional AI-assisted workflow enhancements such as automated needle detection for intervention procedures, and innovative camera-based patient positioning workflows. They improve clinical accuracy and efficiency while ensuring patient comfort and safety.

The uMR Omega is a 3.0 Tesla superconducting MRI system designed for producing high-quality cross-sectional images and spectroscopic images of the head, body, and extremities. It helps clinicians diagnose by providing detailed anatomical and functional images that can be interpreted by trained physicians. This device is designed to meet industry imaging standards and includes advanced components such as RF coils and gradient amplifiers to ensure high image quality.