FDA Radiology AI Devices

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.

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.

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.

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.

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.

Ceevra Reveal 3 is a software medical device designed for processing, reviewing, and analyzing 3D images created from CT and MR scans. It helps clinicians with preoperative surgical planning and intraoperative image display, including interacting with 3D visualizations using mobile or desktop viewers, and even VR headsets. By using AI-driven algorithms, it generates preliminary segmentations of normal anatomical structures to assist healthcare professionals in their clinical decisions for adult patients.

ViewFinder Software Version 1.1 by Elaitra Ltd is a specialized software tool designed for clinicians to review digital breast tomosynthesis images. It dynamically matches tissue across different breast views using AI to reduce cognitive load, helping radiologists to compare images more efficiently and accurately during breast cancer screening and diagnosis.

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.

Formus Hip is a preoperative planning software designed to assist orthopedic surgeons by automatically generating 3D models of the hip from CT scans and overlaying digital representations of hip implants. It uses AI algorithms for image segmentation and statistical shape modeling, helping clinicians plan hip replacement surgeries more effectively by customizing implant fitting interactively and producing printable surgical plans.

RadioLens v1.0 by Synapsica is a medical image management and processing system that allows radiologists and medical practitioners to view, analyze, and report on DICOM-format radiology images. The software includes an AI module called SpindleX for automated analysis and measurement of spinal ligament injuries in digital stress X-rays of the cervical and lumbar spine. This helps clinicians by providing quantitative measurements and detailed reports, enhancing diagnostic accuracy and efficiency in spinal injury assessment.