FDA Radiology AI Devices

AVA (Augmented Vascular Analysis) by See-Mode Technologies is a software that uses artificial intelligence to analyze vascular ultrasound images from carotid and lower limb arteries. It segments vessel walls, measures carotid intima-media thickness, reads Doppler velocities, and generates detailed vascular ultrasound reports to aid clinicians like physicians and medical technicians in assessing cardiovascular health. The software runs on standard computers or cloud platforms and supports quality control by qualified clinicians to ensure accuracy.

The Vivid iq is a high-performance compact diagnostic ultrasound system made by GE Medical Systems Ultrasound. It supports a wide range of clinical applications including cardiovascular, abdominal, fetal, musculoskeletal, and more. The system enables automatic AI-based cardiac measurements and spectrum recognition to assist clinicians in analysis and diagnosis. It is intended for use by trained healthcare professionals in hospitals and private medical offices.

The Vivid T8 and Vivid T9 are advanced ultrasound imaging systems designed primarily for cardiac imaging but also applicable to vascular and general radiology. These systems provide high-quality ultrasound imaging with various transducer options and include AI-based features that assist clinicians by semi-automating measurements and recognizing Doppler spectra. They support multiple clinical applications in hospital and private settings and enhance diagnostic accuracy and efficiency through AI integration.

The Vivid E80, Vivid E90, and Vivid E95 are advanced diagnostic ultrasound systems specialized for cardiac imaging but also capable of vascular and general radiology applications. Featuring AI-driven tools for cardiac image analysis, these systems enable clinicians to perform automated measurements and enhanced visualization to improve efficiency and reduce variability. They support various clinical settings including hospitals and private offices with a range of imaging modes and transducers.

The Caption Interpretation Automated Ejection Fraction Software uses AI to analyze transthoracic cardiac ultrasound images and automatically estimate the left ventricular ejection fraction. This helps clinicians in cardiac evaluations by providing a consistent and efficient measurement of heart function, aiding diagnosis and treatment decisions.

The Vivid S60N and Vivid S70N are advanced general-purpose ultrasound imaging systems by GE Healthcare, specialized for cardiac imaging but also supporting a broad range of diagnostic ultrasound applications across the human body. These systems facilitate ultrasound imaging, measurement, display, and analysis to assist physicians in clinical environments such as hospitals and private offices, enhancing diagnostic accuracy and workflow efficiency through digital acquisition, processing, and semi-automated AI-based measurement features.

LVivo Software Application is an AI-powered ultrasound image analysis platform that automatically calculates important medical parameters related to cardiac and bladder function. It helps clinicians assess heart ventricles and bladder volume using processed ultrasound images, thereby improving diagnostic efficiency and accuracy.

The Auto 3D Bladder Volume Tool by Butterfly Network is a software application integrated with Butterfly Network ultrasound systems. It uses machine learning (U-Net convolutional neural network) to automatically segment and measure bladder volume from ultrasound images, providing clinicians with noninvasive quantitative data to support diagnosis in adult patients.

MEDO ARIA is a cloud-based medical imaging software that uses machine learning to help clinicians view, quantify, and generate reports from ultrasound images of infant hips. It supports diagnosis of developmental hip dysplasia (DDH) in newborns and infants up to 12 months, assisting radiologists by automating some image analysis tasks and improving workflow efficiency.

QLAB Advanced Quantification Software is a software application that assists clinicians by providing advanced tools to view and quantify ultrasound image data, specifically for cardiac assessment including mitral valve quantification, helping improve diagnosis and treatment planning.