FDA Radiology AI Devices

The Neuro.AI Algorithm by TeraRecon, Inc. is an AI-powered medical imaging software that analyzes brain perfusion images acquired via CT or MRI. It processes dynamic imaging data to generate detailed maps of brain tissue blood flow and vascular structures, helping trained medical professionals assess brain perfusion and vascular health efficiently. The software outputs detailed parametric maps and visualization aids to support clinical diagnosis without replacing physician judgment.

Xeleris V Processing and Review System is a nuclear medicine software platform that helps physicians process, review, and quantify medical images from nuclear medicine, PET, and associated CT or MR scans. It supports multiple clinical applications including detection of brain diseases, lung conditions, coronary artery disease, and bone metastases, using AI-based image analysis such as deep learning for automated segmentation to enhance workflow efficiency and accuracy.

TOMTEC-ARENA is a clinical software package designed for reviewing, quantifying, and reporting medical imaging data primarily related to cardiovascular, fetal, and abdominal structures. It helps clinicians assess structures and functions from various imaging modalities in multiple dimensions, facilitating disease diagnosis through detailed quantifications and advanced visualization tools.

Syngo.via RT Image Suite is a medical imaging software tool that helps clinicians visualize and manipulate 3D and 4D images from multiple modalities like CT, PET, and MRI in preparation for radiation therapy treatments. It provides advanced contouring tools including AI-based automatic organ segmentation, multi-modality image fusion, and supports creating treatment plans to improve accuracy and efficiency in radiation therapy workflows.

AI-Rad Companion Engine is a software platform that supports visualization and post-processing of medical images for diagnostic use, helping clinicians by facilitating measurement, analysis, and data management. It integrates with multiple imaging modalities and PACS systems, providing an interface to add additional AI-driven clinical processing extensions.

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.

MEDIP PRO is a medical imaging software that helps clinicians by processing CT and MRI images. It provides tools for segmenting images, improving image quality, and creating 3D reconstructions that can be exported for 3D printing to aid in preoperative planning. The software is intended to be used alongside other diagnostic tools and clinical judgement to support treatment planning.

Merge PACS is a software system that helps medical professionals view, analyze, and manage images from various medical imaging modalities such as CT, MRI, PET, ultrasound, and mammography. It supports diagnostic reading, reporting, and communication workflows, enabling clinicians to efficiently handle patient imaging studies and related data. It includes advanced image manipulation tools and workflow management features to assist radiologists and other medical staff.

Syngo.Via RT Image Suite is a software tool designed to help clinicians visualize, manipulate, and contour medical images from various imaging modalities such as CT, MRI, and PET. It supports 3D and 4D image visualization and assists with the segmentation of tumors and organs-at-risk to aid in radiation therapy planning and response assessment. The software incorporates AI techniques, including deep learning-based contouring, to improve the accuracy and efficiency of treatment preparation, thereby enhancing patient care in radiation therapy.