FDA Radiology AI Devices

SureWave Elastography is an accessory device for Siemens MRI systems that generates shear wave vibrations during MRI scans to create images showing tissue stiffness. This advanced imaging helps physicians diagnose tissue abnormalities by providing detailed stiffness maps alongside traditional MRI images.

AspenView is a software designed to assist radiologists and radiology technicians in annotating, processing, and managing general radiographic X-ray images. It supports standard medical image formats and provides functions such as image stitching, storage, and transmission, helping clinicians handle and review X-ray images efficiently.

The Etiometry Platform is a software solution designed for use in intensive care settings to help healthcare professionals monitor and assess cardiovascular and respiratory conditions in adult, pediatric, and neonatal patients. It collects real-time physiological and laboratory data remotely from various bedside devices, displays this data, and calculates risk indices like oxygen delivery adequacy and ventilation status. This assists clinicians in timely clinical decision-making without requiring new hardware.

The NAEOTOM Alpha series by Siemens is a computed tomography (CT) scanner system that produces detailed cross-sectional images using X-rays. These images aid clinicians in diagnosis, treatment, radiation therapy planning, and interventions, including low-dose lung cancer screening for high-risk populations. The system uses advanced software for image reconstruction and supports various post-processing applications to deliver clear and precise imaging for multiple clinical uses.

SubtleHD (1.x) is an AI-based image processing software designed to enhance MRI images from any body part. It improves image quality by reducing noise and increasing sharpness, helping radiologists obtain clearer images without changing the original scan process. This facilitates improved diagnostic confidence and visualization of anatomical structures.

The V8 Diagnostic Ultrasound System and its variants are advanced ultrasound imaging devices designed to capture and analyze ultrasound images, including 2D, Doppler modes, and 3D/4D images. They assist healthcare professionals in diagnosing a wide range of medical conditions across various body regions by providing real-time imaging and measurement capabilities with AI-supported features such as nerve tracking and cardiac strain analysis.

The Vivid iq is a high-performance compact diagnostic ultrasound system designed primarily for cardiovascular and shared services imaging, but also applicable to various clinical areas such as fetal, abdominal, pediatric, musculoskeletal, and vascular imaging. It supports multiple ultrasound modes including Doppler and real-time 3D imaging. The system aids healthcare professionals by providing advanced ultrasound imaging and analysis capabilities for better diagnosis and patient care.

The Vivid T9/Vivid T8 is a diagnostic ultrasound system primarily intended for cardiac imaging but also supports vascular and general radiology applications. It provides digital acquisition, processing, measurement, display, and analysis of ultrasound images using various transducers and imaging modes. The system supports a range of clinical applications including fetal, abdominal, cardiac, musculoskeletal, and vascular imaging, helping healthcare professionals in hospitals and clinics obtain real-time detailed images for diagnostic purposes.

Ultrasound Workspace (UWS 6.0) is a clinical software package from Philips designed for analyzing and quantifying ultrasound images of cardiovascular, fetal, and abdominal structures. Using AI and machine learning, it supports physicians in diagnosing conditions by automating the measurement of heart functions, valve anatomy, and blood flow dynamics. This helps improve efficiency and accuracy in interpreting ultrasound exams, particularly in adult cardiac applications.

Identify (4.0) is a medical device by Varian Medical Systems designed to monitor patient motion and respiratory patterns during radiotherapy treatment simulation and delivery. Using high precision surface guided radiation therapy cameras, it helps clinicians accurately position patients and detect motion during treatment, enhancing patient safety and treatment accuracy by synchronizing imaging and radiation delivery with patient motion data.