FDA Radiology AI Devices

BriefCase-Quantification is an AI-powered software that automatically measures brain midline shift in non-contrast head CT scans, assisting medical specialists by automating a typically manual measurement process. It provides quantitative analysis and comparative reports over time to help clinicians monitor patients, without altering original images or serving as a standalone diagnostic tool.

AI-Rad Companion Brain MR is a software tool that helps clinicians by automatically analyzing MRI brain images. It segments and measures brain structures and white matter hyperintensities, compares these measurements with healthy reference data, and visually presents the results. This assists in evaluating brain changes over time, improving diagnostic workflow and patient monitoring in neurological conditions.

VUNO Med-DeepBrain is an AI-powered medical software designed to automatically label, quantify, and visualize brain structures and lesions from MR images. It helps clinicians by automating manual brain segmentation processes, providing volumetric data along with visual color maps and reports, facilitating brain diagnosis and tracking over time in a clinical environment.

ANDI is a software tool that processes diffusion-weighted MRI brain scans to create 3D maps of white matter tracts. It helps neurologists and radiologists by providing detailed visualization and measurements of brain white matter structures, serving as an adjunct tool for patient assessment without making diagnoses.

OptimMRI is a software tool that helps medical professionals analyze pre-operative brain MRI images by generating 3D annotated models. It supports neurosurgical planning by localizing key brain regions, helping doctors visualize and plan treatments more precisely.

Brainlab Elements is a suite of software applications that process and analyze medical image data from various modalities to assist clinicians in planning surgeries and radiation treatments. It offers tools for image registration (fusion), segmentation (contouring), diffusion tensor imaging (fibertracking), blood oxygen level dependent MRI analysis (BOLD MRI mapping), and cerebrovascular image fusion (Image Fusion Angio). These capabilities help improve precision and understanding of patient anatomy and function during clinical procedures.

The SIS System is a software tool that uses advanced machine learning and image processing to help surgeons, neurologists, and radiologists visualize critical brain structures in 3D. It assists in planning neurological procedures such as Deep Brain Stimulation by creating detailed anatomical models from MRI images and localizing implanted leads on post-operative CT images, improving accuracy and surgical outcomes.

CerebralGo Plus is a software package designed for trained medical professionals to view and process CT Angiography images of the head and neck. It helps visualize large vessels from adult CTA scans to support clinical decisions, although it is not intended for primary diagnostic use. The software integrates with standard DICOM-compliant imaging devices and hospital systems to facilitate image management and processing.

BrainInsight is an automated software that processes low-field MRI brain images to provide automatic labeling, spatial measurement, and volumetric quantification of brain structures. It produces annotated and segmented brain images with color overlays and detailed reports, helping clinicians assess brain anatomy and abnormalities efficiently, particularly using low-field MRIs.

The SIS System version 5.6.0 is a medical imaging software that helps surgeons, neurologists, and radiologists visualize specific brain structures in 3D to assist with planning neurological surgeries such as deep brain stimulation. It uses advanced image processing and machine learning techniques to create patient-specific anatomical models from MRI and CT images, improving precision during surgical interventions.