FDA Radiology AI Devices

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.

uOmnispace is a medical image post-processing software solution that supports viewing, manipulation, annotation, and communication of various medical images from multiple modalities including CT, MRI, PET and DR. It includes AI-based segmentation tools like rib segmentation, and enables remote multi-user access and integration with medical imaging systems. It helps clinicians efficiently analyze and report on diagnostic images.

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.

Spine CAMP™ (1.1) is an automated software that analyzes X-ray images of the lumbar and cervical spine to generate measurements and visualizations of spinal alignment, stability, degeneration, and motion. It supports healthcare professionals in clinical decisions related to spinal health by producing detailed reports from radiographic data.

Axial3D Insight is a cloud-based service that processes medical imaging DICOM data to create detailed 3D digital files or physical 3D printed models. These models assist clinicians in treatment planning and diagnosis across orthopedic trauma, maxillofacial, and cardiovascular applications, improving surgical preparation and outcomes.

Bladder AI is a software designed to assist healthcare providers in measuring bladder volume from ultrasound images using machine learning. It supports image-based assessment, landmark placement, and report generation for patients aged 2 years and older, improving workflow efficiency and accuracy in bladder volume quantification.

DeepCatch is software that analyzes whole-body CT scans to automatically identify and measure various anatomical structures like skin, muscle, fat, internal organs, and the central nervous system. It produces 3D models and quantitative data to help doctors better understand the patient's body composition and anatomy, aiding clinical decisions by providing accurate volume and proportion measurements.

IB Lab LAMA is a software tool that automatically analyzes full leg X-rays to measure discrepancies in limb length and assess knee alignment. It uses AI deep learning technology to provide precise geometric measurements to assist healthcare professionals in evaluating leg deformities and alignment issues, thereby supporting diagnosis and treatment planning.

FEops HEARTguide™ ALPACA is an AI-enabled medical imaging software system that helps clinicians visualize and measure detailed heart and vessel structures from CT images. It aids in planning minimally invasive heart procedures by providing automated segmentation, 3D visualization, measuring tools, and reporting. This software supports better procedural decisions by combining anatomical insights with clinical evaluation.