FDA Radiology AI Devices

AI-Rad Companion Organs RT is an AI-powered medical imaging software designed to automatically segment organs from CT and MR scans to assist radiation therapy treatment planning. It uses deep learning algorithms to produce contours of organs-at-risk, which clinicians can review and edit before using them in treatment planning systems. This software saves time and improves the accuracy of radiation therapy preparation by providing automated organ delineation, intended for use by trained medical professionals.

Rapid (6.0) by iSchemaView, Inc. is a medical imaging software designed to process and analyze dynamic and functional imaging data from CT and MRI scans. It aids clinicians by providing advanced visualization, quantification, and analysis tools to help select acute stroke patients for treatment, enhancing diagnostic confidence and workflow efficiency.

The Biograph VK10 is a combined Positron Emission Tomography (PET) and Computed Tomography (CT) scanner that provides fused images of both physiological function and anatomical structure. It assists healthcare providers in detecting, localizing, diagnosing, staging, and restaging various diseases such as cancer, cardiovascular and neurological disorders. The system supports single modality and combined PET/CT imaging and can aid in treatment planning and lung cancer screening in high-risk populations.

ART-Plan is a radiotherapy treatment planning software that assists clinicians by visualizing and fusing multimodal medical images, automatically segmenting organs and lymph nodes using AI, generating synthetic CT images from MR and CBCT scans, computing dose distributions for radiation therapy, and aiding in treatment adaptation decisions. It enhances workflow efficiency and accuracy for trained professionals managing radiotherapy for cancer patients.

uOmnispace.MI is an advanced software platform designed to help healthcare professionals view and analyze medical images from PET, CT, MR, and SPECT scans. It facilitates tasks such as image registration, lesion segmentation, and statistical analysis, supporting clinical workflows in oncology, neurology, and cardiology. The software integrates multiple applications including fusion imaging, dynamic analysis, brain scan quantification, and cardiac function analysis, thereby assisting clinicians in making timely and accurate diagnoses.

Syngo Carbon Clinicals is a software package that provides advanced visualization tools to help healthcare professionals prepare, measure, and analyze medical images from modalities such as CT and MRI. It supports manipulation and communication of clinical data, enabling qualitative and quantitative assessment to assist in diagnosis and treatment planning.

syngo.via MI Workflows, including Scenium and syngo MBF, is software that helps healthcare professionals analyze medical images from multiple modalities such as PET, SPECT, CT, and MR. It aids disease management in oncology, cardiology, neurology, and organ function by providing tools for image viewing, quantification, comparison, and radiotherapy planning. The software integrates advanced AI algorithms for automating organ segmentation and supports new workflows such as tau quantification in brain imaging, thus improving diagnostic and treatment planning efficiency.

aprevo® Digital Segmentation is a software tool designed for trained medical personnel to process medical images of the spine, specifically the lumbar area. It uses AI algorithms to automatically segment the spine from DICOM images and generates a 3D model, aiding in clinical planning or design tasks related to spine anatomy.

Veuron-Brain-pAb3 is advanced software that processes PET and MRI brain images to help clinicians detect and quantify amyloid protein concentration as an aid in diagnosing dementia. It automates image registration, fusion, and calculates standard uptake value ratios (SUVR) to visualize and analyze brain pathologies, improving diagnostic accuracy and workflow efficiency.

The OFIX MIS App is a mobile software application designed to help healthcare professionals view, store, and measure images to plan orthopedic surgeries, specifically for spinal implant procedures. It uses images captured via a mobile phone camera to assist in selecting the correct rod length for pedicle screw spinal systems, aiding surgeons in making precise implant placement decisions.