FDA Radiology AI Devices

NS-HGlio is a software tool that assists clinicians in analyzing MRI images of patients with high-grade brain gliomas by automatically labeling and measuring tumor regions. It supports doctors by providing volumetric data and visual overlays to help monitor tumor progression or treatment response, but it is not intended for primary diagnosis.

The syngo.via RT Image Suite by Siemens is advanced software that helps clinicians visualize and manipulate 3D and 4D medical images from multiple modalities like CT, MRI, PET, and CBCT. It supports contouring tumors and organs at risk, image registration, and creating simple treatment plans, aiding radiation therapy preparation. The software includes AI-based deep learning for lung lobe segmentation to calculate lung ventilation, improving the accuracy and efficiency of radiation therapy planning.

LiverMultiScan v5 is software that helps clinicians assess liver health by analyzing MRI scans to generate detailed images and quantitative maps of liver tissue properties such as fat content, iron concentration, and T1 relaxation times. It aids doctors in diagnosis by providing automated liver segmentation and measurements that enhance non-invasive liver assessment.

AutoContour RADAC V2 is a software tool that helps radiation treatment planners by automatically outlining anatomical structures in CT and MR images to assist in radiation therapy treatment planning. It uses machine learning models trained on large datasets to generate these contours and allows clinicians to review and modify them before exporting for use in treatment.

The HS40 Diagnostic Ultrasound System by Samsung Medison is a general-purpose, mobile ultrasound device designed to acquire and display ultrasound images and analyze body fluids. It supports multiple imaging modes including 2D, 3D/4D, Doppler, and elastography, and incorporates AI-based features such as NerveTrack for nerve detection and UterineAssist for uterus segmentations to aid clinicians in diagnosis and procedural guidance.

TeraRecon Neuro is an AI-powered image processing software that analyzes brain perfusion data from CT or MRI scans. It helps healthcare professionals visualize blood flow and other key parameters in the brain to aid diagnosis, treatment planning, and post-treatment evaluation by providing detailed parametric maps and 3D visualizations of brain tissues and vessels.

AI-Rad Companion (Pulmonary) is AI-powered software that analyzes chest CT scans to help radiologists and clinicians identify and measure lung structures and lesions. It segments lungs and lung lobes, detects lung nodules, compares current images to prior scans for lesion follow-up, and quantifies pulmonary density. These features support the clinical assessment and monitoring of lung diseases, improving workflow efficiency and diagnostic accuracy.

ClearPoint Maestro Brain Model is a software tool that uses AI to automatically identify, label, and measure the volume and shape of various brain structures from MRI scans. This helps clinicians by simplifying and speeding up the process of brain image analysis, supporting diagnosis and treatment planning in neurological conditions.

Customize is a prescription-use software tool designed to assist clinicians in planning ankle arthroplasty surgeries. It uses CT and X-ray images to generate 3D models and helps visualize and modify surgical treatment plans. The software incorporates AI to segment anatomical structures, improving preoperative planning and communication of treatment options.

ABMD Software is an AI-powered application that measures bone mineral density from existing CT scans by analyzing the trabecular region of vertebral bones. It assists clinicians by providing retrospective assessment of bone density without the need for additional dedicated scans, thereby avoiding extra radiation exposure. It supports healthcare providers by offering BMD, Z-scores, and T-scores for evaluation, serving as a supplementary diagnostic tool rather than replacing standard DXA scans.