FDA Radiology AI Devices

StrokeViewer Perfusion is a software package designed to analyze dynamic brain CT perfusion scans to provide quantitative information about blood flow and volume in brain tissue. It aids medical professionals by visualizing perfusion maps and numerical data to assist in the evaluation of suspected ischemic stroke patients. The software supports clinicians by generating additional imaging data to inform diagnosis and treatment decisions without replacing clinical judgment.

QP-Brain® is an AI-powered medical imaging software that automatically segments and measures brain structures and white matter hyperintensities from MRI scans. It assists clinicians by providing volumetric data and comparison to normative references, supporting assessment of brain MRIs in adults and adolescents.

Bonelogic is a software used by orthopedic healthcare professionals to assist in diagnosis and surgical planning of foot and ankle conditions using CT scan data. It provides semi-automatic segmentation of bones, creates 3D models, and offers measurement tools to support clinical decision-making and treatment planning.

Ceevra Reveal 3+ is a software medical imaging system that processes CT and MRI scans to generate detailed three-dimensional images. It uses machine learning algorithms to assist clinicians in segmenting and visualizing normal anatomy to support preoperative surgical planning and intraoperative display. This helps healthcare professionals better review, analyze, and plan treatment by interacting with 3D images on computers, mobile devices, or VR headsets.

The EPIQ Series Diagnostic Ultrasound System by Philips is a diagnostic ultrasound imaging device that provides detailed ultrasound images and fluid flow analysis to assist clinicians in diagnosing a wide range of medical conditions across multiple body regions. It supports advanced modes such as transesophageal cardiac imaging and works in different clinical environments including hospitals and clinics. The system integrates with Philips EchoNavigator to aid in cardiovascular interventions by providing live ultrasound and X-ray guidance, enhancing the precision of treatments.

The 6440 MyLabX90 by Esaote is an advanced multifunctional ultrasound scanner that supports real-time imaging and analysis during diagnostic ultrasound procedures. It integrates AI features like automated endocardial border detection for cardiac function assessment and lesion contouring for breast exams, helping clinicians improve diagnostic accuracy and efficiency across multiple body regions.

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.

ClearPoint System (Software Version 2.2) is a medical software device designed to assist clinicians during neurological procedures by providing MRI-guided stereotactic guidance for the placement and operation of instruments like biopsy needles or deep brain stimulation leads. It integrates advanced automatic segmentation and visualization of brain structures from MRI scans, enhancing planning and intraoperative navigation. This helps improve surgical accuracy and patient outcomes in brain interventions.

Axial3D Insight is a cloud-based image segmentation and 3D modeling service that converts medical imaging data into digital files or 3D printed physical models. These outputs assist clinicians in treatment planning and diagnosis for trauma, orthopedic, maxillofacial, and cardiovascular conditions, improving clinical decision-making.

Clarius Bladder AI is a software application integrated into the Clarius Ultrasound Scanner system that uses artificial intelligence to assist healthcare professionals in semi-automatically measuring bladder volume using ultrasound images. It automates bladder detection and measurement in both sagittal and transverse views but allows users to manually adjust results, facilitating efficient and accurate bladder volume assessment in adult patients.