FDA Radiology AI Devices

BriefCase-Triage by Aidoc Medical, Ltd. is an AI-powered software designed to assist radiologists by analyzing CT chest and abdomen scans and flagging cases with suspected aortic dissection. It helps medical specialists prioritize urgent cases by sending notifications and preview images, improving workflow efficiency without altering the original medical images or replacing diagnostic interpretation.

Rapid MLS is an AI-powered software that analyzes non-contrast CT scans to measure and visually display brain midline shifts. This helps clinicians assess conditions like intracranial hemorrhage and traumatic brain injury by providing quantitative and annotated images, supporting but not replacing clinical decision-making.

Clever One is dental imaging software designed to acquire, process, view, and analyze 2D and 3D medical images from dental CT, panoramic, cephalometric, and intraoral imaging devices. It helps clinicians by providing advanced visualization and analytic tools such as bone density analysis, implant planning, and multi-planar reconstructions, facilitating more accurate diagnostics and treatment plans.

Second Opinion® 3D is an AI-powered software that helps dental professionals by automatically identifying and marking important anatomical structures in dental CBCT (Cone Beam Computed Tomography) radiographs. It highlights areas such as dentition, maxilla, mandible, and other key dental anatomical features, supporting clinicians to review images more efficiently and accurately. The software acts as a concurrent and second reader for patients aged 12 years or older, assisting in dental evaluation without replacing full clinical patient assessment.

SMARTDent is a software solution developed by RAY Co., Ltd. that helps dental professionals manage and analyze various types of dental imaging, including CT, panoramic, cephalometric, and intraoral X-rays. It streamlines image management and provides tools that support diagnosis, thereby assisting clinicians in dental care.

SCENARIA View Phase 5.0 is a multi-slice CT system that acquires axial volumes of the whole body in various scan modes. It includes AI-based features such as AutoPose that automatically recognizes and sets scan ranges for body parts, improving workflow and scan accuracy. The system supports high-quality imaging with motion correction and provides enhanced post-processing capabilities to assist clinicians in diagnosis and interventional guidance.

MapRT is a software system used by radiotherapy professionals during the CT simulation and treatment planning stages to model 3D patient and equipment geometry. It helps to avoid collisions between the treatment machine, patient, and accessories, and facilitates dose optimization by providing a clearance map for various gantry and couch angles. This improves treatment safety and planning efficiency.

Mobius3D (4.1) is a software tool designed for radiation therapy clinics to perform quality assurance, treatment plan verification, and patient alignment analysis. It calculates three-dimensional radiation dose distributions based on treatment plans and imaging data, helping clinicians verify and ensure accurate radiation therapy without directly interacting with the delivery system or patients.

The uCT ATLAS Astound with uWS-CT-Dual Energy Analysis and uCT ATLAS with uWS-CT-Dual Energy Analysis are advanced CT imaging systems that produce cross-sectional whole-body images using X-rays. They incorporate AI-based technologies to enhance image reconstruction, reduce artifacts, and improve diagnostic quality, particularly for cardiac imaging and lung cancer screening. The systems support low dose CT for early lung nodule detection and use dual energy imaging for detailed tissue characterization.

OTS Hip is an orthopedic surgical system designed to aid surgeons in preoperative planning and intraoperative navigation of hip replacement surgeries. It uses CT and X-ray medical imaging data and combines software and hardware components to create a 3D model of the patient's unique anatomy, guiding surgical instrument and prosthetic placement in real-time. This helps improve the accuracy and safety of total hip arthroplasty procedures.