FDA Radiology AI Devices

The Swoop® Portable MR Imaging® System (V2) by Hyperfine, Inc. is a portable, ultra-low field MRI device designed to image the internal structure of the head. It is intended for use in clinical settings where full diagnostic MRI exams may not be practical, providing clinicians with images that aid in diagnosis. The system features advanced image reconstruction using deep learning to optimize image quality, enhancing visualization while being convenient and fast to deploy at the point of care.

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.

TAIMedImg DeepMets is a software tool that uses artificial intelligence to assist medical professionals by automatically outlining brain metastases on MRI scans. This helps speed up the workflow for planning radiation therapy treatment in patients with diagnosed brain metastases, ensuring accurate contours that clinicians can verify and adjust as needed.

The Swoop® Portable MR Imaging® System is a portable, ultra-low field MRI device that produces images of the internal structure of the head. It incorporates a deep learning-based image reconstruction algorithm to enhance image quality, helping healthcare providers diagnose patients at the point of care, especially where full diagnostic exams are not practical.

GBrain MRI is a software tool that automatically segments, quantifies, and reports the volume of signal hyperintensities in brain MR FLAIR images. It helps radiologists by providing quantitative measurements to support the evaluation of brain MRI scans, enhancing clinical assessment without replacing the physician's judgment.

syngo.CT LVO Detection is an AI-powered post-processing software that analyzes CT angiography images of the brain to help clinicians prioritize cases by detecting suspected large vessel occlusions in specific brain vessels. It aids in triage but is not used for standalone diagnosis or altering images, thereby assisting medical professionals in managing stroke patients more efficiently.

DeepFoqus-Accelerate is an AI-driven software solution designed to improve brain MRI scans by reconstructing accelerated MRI data up to 4 times faster, producing clinical-quality images from undersampled data. It helps radiologists and technologists by enhancing non-contrast brain MRI images from 1.5T or 3T Siemens and GE scanners, making MRI scanning more efficient while maintaining image quality.

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.

Brainomix 360 e-ASPECTS is an AI-based software that analyzes non-contrast CT brain scans to help clinicians assess ischemic brain tissue injury and calculate an ASPECTS score, which reflects the extent of stroke-related brain damage. It uses automated image processing and machine learning to highlight affected brain regions, providing decision support for stroke diagnosis and treatment.

Rapid Neuro3D is an AI-powered medical software that processes CT angiography scans to provide 3D and 2D visualizations of the brain's arterial blood vessels. It helps physicians confirm the presence or absence of identified lesions and assists in evaluation and treatment planning by simplifying image interpretation.