FDA Radiology AI Devices

HeartFocus (V.1.1.1) is an AI-powered software accessory designed to help healthcare professionals acquire high-quality 2D cardiac ultrasound images. It guides users in real-time to position the ultrasound probe correctly and detects when images meet diagnostic quality. This assists both experienced sonographers and less trained medical professionals in capturing standardized heart views, improving the quality and consistency of cardiac ultrasound exams.

Philips VSC-MEDlib is a software library intended to automatically and contactlessly measure respiration rate by analyzing video streams of a patient's torso during virtual consults or health screenings. It uses camera-captured images to detect torso motion and calculate breathing frequency, providing clinicians with an additional vital sign measurement to support patient assessment. It is designed for use in clinical or home environments under healthcare professional supervision.

V5med Lung AI is an AI-powered software that helps radiologists detect pulmonary nodules in chest CT images. It automatically analyzes scans and highlights areas with suspected nodules between 4 and 30 mm, acting as a supportive tool to improve accuracy and reduce missed findings. The system integrates easily with clinical imaging workflows and has been clinically validated to improve radiologist performance and reduce reading time.

Rayvolve LN is an AI-powered software that helps radiologists detect and highlight suspected pulmonary nodules on frontal chest X-rays. By serving as a second reader, it aids in reviewing digital radiographs for patients 18 years or older, enhancing diagnostic accuracy without replacing the original chest images.

SnapshotGLO is a handheld, point-of-care imaging device that helps clinicians visualize and document skin wounds using autofluorescence technology. It captures images of wounds under excitation light to highlight areas with bacterial presence, enhancing wound assessment alongside clinical signs and symptoms. It is intended as an adjunct tool to aid in wound diagnosis and monitoring but does not itself diagnose or treat wounds.

The Philips Holter Analysis System is a standalone software designed to analyze ambulatory ECG recordings collected over extended periods (typically 24 hours to 7 days). It automatically processes ECG data to detect heart rhythm disturbances, arrhythmias, pacemaker function, and myocardial ischemia-related symptoms, providing reports to assist clinicians in evaluating cardiac health. The system enhances arrhythmia detection algorithms and heart rate variability analysis and integrates with clinical information systems for streamlined ECG data management.

QP-Prostate® CAD is an artificial intelligence-based software that helps doctors detect and identify suspicious lesions in the prostate gland using bi-parametric prostate MRI. It highlights areas of concern on the images to assist physicians during their interpretation but should be used alongside other clinical information. It seamlessly integrates with existing DICOM imaging systems and PACS, improving the diagnostic workflow for prostate cancer detection.

Radlink GPS Pro Imaging is an advanced image processing software that assists orthopedic surgeons in hip procedures by measuring the acetabulum’s position relative to bone structures seen in radiological images. The software overlays digital annotations on images and offers measurement tools to help surgeons plan and execute hip, knee, and trauma component positioning more precisely, improving procedural accuracy and outcomes.

The LVivo Software Application is an AI-based software platform that automates the analysis of ultrasound images, primarily to evaluate heart-left ventricle function and bladder volume. It helps clinicians by automatically detecting and calculating important medical parameters, improving diagnostic accuracy and efficiency in cardiology and related fields.

Ziehm Vision FD is a mobile fluoroscopic X-ray system designed to provide continuous and pulsed fluoroscopic imaging during diagnostic, interventional, and surgical procedures. It helps clinicians visualize complex anatomical structures such as vascular, cardiac, and neurologic areas in real-time to better localize and treat pathological regions, improving accuracy in surgical and critical care settings. The system offers high-resolution flat panel displays, motorized and manual movement axes for precise positioning, and supports multiple peripheral interfaces, enhancing surgical workflow and patient care.