FDA Radiology AI Devices

LVivo IQS is a software application that processes ultrasound images of the heart to detect, measure, and calculate key medical parameters for patients with suspected cardiac disease. It provides real-time quality score feedback on image quality, helping clinicians ensure the accuracy and usefulness of cardiac ultrasound scans, particularly the left ventricle function from the 4 chamber apical view. This tool assists clinicians by improving the reliability of echocardiographic assessments.

Clarius AI is software integrated with the Clarius Ultrasound Scanner that uses artificial intelligence to semi-automatically measure tendon thickness on ultrasound images of musculoskeletal structures such as the Achilles’ tendon and patellar tendon. It helps healthcare professionals by segmenting ultrasound images and automatically placing measurement calipers, streamlining the quantification process while allowing manual adjustment by trained clinicians.

AVIEW is a medical imaging software by Coreline Soft that helps clinicians analyze CT scans of the lungs and heart. It automatically segments lung structures, characterizes lung nodules with detailed measurements, and provides calcium scoring of coronary arteries to assess cardiovascular risk. It integrates with AI-based CAD tools and offers cloud and mobile access, making it easier and faster for doctors to diagnose lung and heart conditions.

Saige-Density is a medical software that uses AI deep learning techniques to analyze digital mammograms, producing breast density categories based on ACR BI-RADS guidelines. It helps radiologists assess breast tissue composition by providing adjunctive information, improving breast cancer risk assessment and screening interpretation.

BrainInsight is an automated software that processes low-field MRI brain images to provide automatic labeling, spatial measurement, and volumetric quantification of brain structures. It produces annotated and segmented brain images with color overlays and detailed reports, helping clinicians assess brain anatomy and abnormalities efficiently, particularly using low-field MRIs.

The SIS System version 5.6.0 is a medical imaging software that helps surgeons, neurologists, and radiologists visualize specific brain structures in 3D to assist with planning neurological surgeries such as deep brain stimulation. It uses advanced image processing and machine learning techniques to create patient-specific anatomical models from MRI and CT images, improving precision during surgical interventions.

BoneMRI v1.4 is an image processing software that analyzes 3D gradient echo MRI scans to enhance visualization of bone structures in the pelvic and lumbar spine regions. It uses a convolutional neural network algorithm to generate images with improved bone contrast compared to surrounding soft tissue, helping clinicians better assess bone morphology and density without the need for CT scans. It is intended for use by radiologists and orthopedic surgeons to aid in image interpretation, but not for tumor diagnosis.

Syngo Dynamics (Version VA40F) is a software medical device from Siemens designed to assist healthcare professionals in reviewing and analyzing medical images for disease detection and patient management. It supports multiple imaging modalities including ultrasound, x-ray angiography, CT, MR, nuclear medicine, and others, with applications primarily focused on cardiology, vascular, and fetal imaging. The software offers advanced image processing tools and semi-automated measurement capabilities such as left ventricular ejection fraction estimation, helping clinicians interpret complex imaging data efficiently within healthcare networks.

Spine CAMP™ is a fully-automated software that analyzes X-ray images of the spine to measure and assess spinal parameters, such as alignment, stability, and motion. It helps healthcare professionals by providing quantitative metrics and visualizations, improving clinical decision-making regarding spinal health and treatments.

QIR Suite is a software tool designed to help medical professionals analyze cardiovascular magnetic resonance images. It uses standard and deep learning algorithms to automate measurements like heart chamber function and blood flow, aiding diagnosis and treatment planning for adult patients with heart conditions.