FDA Radiology AI Devices

Broncholab is a software tool that helps doctors analyze CT scans of the lungs by providing detailed quantitative information about lung volume, airway volume, lung density, and other pulmonary tissue characteristics. It assists in the diagnosis and follow-up of lung abnormalities by creating 3D models and measurements from CT images, supporting clinical decision-making.

AccuContour is a standalone software designed for radiation oncology departments. It uses AI-based deep learning to automatically contour organs at risk on non-contrast CT images and to register multimodality medical images. This helps clinicians in treatment planning, evaluation, and adaptation, improving workflow efficiency and accuracy in radiation therapy.

The Behold.ai Red Dot device is an AI-powered software platform that assists radiologists by automatically analyzing adult chest X-ray images to identify suspected pneumothorax cases. It integrates into clinical workflows by notifying radiologists through PACS or workstation systems to prioritize these cases for faster review. It is intended to support, but not replace, clinical decision-making.

icobrain-ctp is a software package designed to analyze CT perfusion scans of the brain. It processes imaging data to calculate brain tissue perfusion parameters and volumes affected by abnormalities, providing detailed reports to aid clinicians in stroke and brain blood flow assessment. The tool supports image export in DICOM format and integrates with standard radiological viewing platforms, helping healthcare professionals make informed decisions efficiently.

The Aquilion Prime SP V10.2 with AiCE-i is an advanced CT imaging system that uses artificial intelligence through Deep Convolutional Neural Networks to reduce image noise and improve image clarity. This system helps clinicians capture better quality whole-body CT scans, including the head, optimizing image quality and potentially reducing radiation dose for patients.

Densitas densityai is a software application that analyzes digital mammography and breast tomosynthesis images to automatically assess breast tissue density. It provides a Breast Density Grade according to the American College of Radiology's BI-RADS 5th Edition to assist physicians in evaluating breast composition. This adjunctive tool helps interpret breast density consistently and efficiently, enhancing clinical decision-making in breast cancer screening.

The Biograph Vision and Biograph mCT PET/CT systems from Siemens are advanced imaging machines that combine CT and PET technologies to produce high-resolution images showing both anatomical structures and physiological functions. These systems help healthcare professionals detect, localize, diagnose, and stage various diseases including cancer, cardiovascular, and neurological disorders, and also assist with radiotherapy and interventional procedures.

The Aquilion ONE (TSX-306A/3) V10.0 with Spectral Imaging System is a whole-body multi-slice helical CT scanner. It captures high-quality cross-sectional volume images of whole organs in a single rotation. It includes advanced AI algorithms—AiCE for noise reduction using Deep Convolutional Neural Networks and FIRST iterative reconstruction to improve image quality and reduce radiation dose. It supports spectral imaging with rapid kV switching to differentiate material composition in tissues, aiding clinicians in diagnosis and treatment planning.

The Biograph Horizon is a medical imaging system that combines positron emission tomography (PET) and computed tomography (CT) to provide detailed metabolic and anatomical images of the body. It helps clinicians in detecting, diagnosing, and monitoring diseases such as cancer, cardiovascular, and neurological disorders by fusing high-resolution functional and anatomical data, thereby improving treatment planning and clinical decision-making.

Ethos Treatment Management, Ethos Treatment Planning, Ethos Radiotherapy System, and Halcyon are integrated tools designed to help clinicians manage, plan, and deliver radiation therapy treatment. The software supports radiation therapy plan management and adaptive treatment planning, while the radiotherapy systems deliver precise radiation treatment using image guidance to treat lesions and tumors anywhere in the body. These tools aim to improve the accuracy and effectiveness of radiotherapy for patients, including adults and pediatric patients.