FDA Radiology AI Devices

Methinks NCCT Stroke is an AI-based software designed to assist clinicians by automatically analyzing non-contrast head CT scans to detect signs of intracranial hemorrhage and large vessel occlusion. It prioritizes and notifies suspected positive cases to improve workflow efficiency and triage in stroke care, offering rapid alerts that support clinical decision-making without replacing standard diagnostic procedures.

Viz Subdural+ is an AI-powered software that automatically analyzes head CT scans to measure subdural collections and midline shift. It helps clinicians by providing automated volume and width measurements of subdural collections, improving efficiency and accuracy in brain injury assessment.

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.

JLK-SDH is an AI-powered software that analyzes non-contrast CT head images to detect suspected subdural hemorrhage (SDH). It assists radiologists by notifying them of potential cases in a parallel workflow to standard care, enabling quicker communication and prioritization for specialist review. This helps clinicians promptly identify and manage patients with SDH, improving workflow efficiency and potentially patient outcomes. The device is intended for notification purposes only and does not replace diagnostic evaluation.

syngo.CT Dual Energy is a post-processing software application for CT scans that uses dual-energy imaging techniques combining low and high energy X-ray spectra to enhance visualization of different materials in the body. It helps clinicians by providing advanced imaging features for better evaluation of anatomical structures and pathologies, including brain hemorrhage visualization, lung perfusion, kidney stone analysis, and more, improving diagnostic accuracy without requiring additional scans.

JLK-ICH is an AI-powered software that analyzes non-contrast CT scans of the head to detect suspected intracranial hemorrhage. It provides automated notifications to clinicians to prioritize review, allowing faster communication and potentially improving patient outcomes. The software works alongside standard care without replacing diagnostic evaluations.

The Infrascanner Model 2500 is a noninvasive medical device designed to help detect traumatic brain hematomas in patients with head injuries. It uses near-infrared light to measure differences in hemoglobin concentration in the brain, which indicate the presence of hematomas. The device aids clinicians in quickly assessing patients for further CT scans, improving early diagnosis and treatment in hospital settings.

NeuroICH is a software tool designed to analyze non-contrast CT scans of the head using artificial intelligence to detect signs of intracranial hemorrhage. It provides notifications to specialist clinicians via a mobile app, helping to prioritize patient care without replacing standard diagnostic procedures.

uAI Easy Triage ICH is an AI-powered software designed to assist radiologists by analyzing non-contrast head CT images to detect suspected intracranial hemorrhage (ICH). It helps prioritize and triage cases by flagging images that show possible bleeding in the brain, ensuring faster notification and workflow efficiency in hospital settings.

LumiNE US is a visualization software designed to help neurosurgeons and medical professionals prepare for surgery by converting 2D MRI and CT images into 3D models using AI-based segmentation. It enables visualization through augmented reality using head-mounted displays, assisting in understanding brain tumors and anatomy before surgery. The software is not intended for diagnostic use but to support surgical planning by providing enhanced image insights.