FDA Radiology AI Devices

The Navient Image Guide Navigation System is a computerized surgical navigation system designed to assist surgeons in precisely locating anatomical structures during neurosurgical procedures. It helps surgeons plan and navigate in real time using CT or MR images, improving accuracy and safety in cranial operations such as tumor resection and biopsies.

MyShoulder Planner is a software tool designed for surgeons to plan total shoulder replacement surgeries. It processes CT scans to create 3D models of the patient's shoulder anatomy using machine learning algorithms, helping surgeons decide implant size and positioning before surgery. It also generates patient-specific reports and allows ordering of patient-matched guides to assist in surgery.

Bunkerhill AVC is a medical software designed to automatically detect and quantify calcium deposits on the aortic valve using non-contrast chest CT scans. It helps physicians by providing a region of interest and an estimated calcium score to assist during case review, improving the identification and assessment of aortic valve calcification in adult patients.

TeraRecon Aorta.CT is a software that automatically segments and labels key anatomical landmarks of the aorta from contrast CT Angiography scans. It helps trained medical professionals by providing 3D visualizations and measurements to assist in patient management and procedure planning, without altering the original scan data or providing diagnosis.

The MONARCH™ Platform is a robotic bronchoscopy system that provides physicians with precise, image-guided navigation and visualization of patient airways. It integrates electromagnetic tracking with real-time video from a flexible bronchoscope and can optionally update navigation using live imaging from Cone Beam CT scans. This aids clinicians in diagnosing and treating lung conditions with improved accuracy and control.

Rapid Neuro3D is an AI-powered medical software that processes CT angiography scans to provide 3D and 2D visualizations of the brain's arterial blood vessels. It helps physicians confirm the presence or absence of identified lesions and assists in evaluation and treatment planning by simplifying image interpretation.

The Precision AI Surgical Planning System (PAI-SPS) is an AI-enhanced medical device that assists surgeons in planning and performing shoulder joint replacements. It uses CT scan images to create a 3D model of the patient's shoulder, helps surgeons simulate and optimize implant positioning, and can produce custom surgical guides for use during the procedure. This system helps improve surgical accuracy and outcomes for shoulder arthroplasty patients.

The uCT 550 is a computed tomography (CT) X-ray system designed to produce detailed cross-sectional images of the whole body, including head, neck, cardiac, and vascular regions. It uses advanced AI-based deep learning algorithms to enhance image quality, reduce noise, and allow for dose reduction. This system helps clinicians with better diagnostic imaging across multiple body regions with improved accuracy and efficiency.

The ARVIS® Shoulder is an AI-powered computer navigation system designed for shoulder replacement surgery. It helps surgeons accurately position implants by using preoperative CT imaging and provides augmented reality visual guidance during the procedure, enhancing surgical precision and patient outcomes.

The SpotLight/SpotLight Duo with Low Dose Lung Cancer Screening Option is a computed tomography (CT) X-ray system developed by Arineta Ltd. It produces detailed cross-sectional images of the body, especially of the cardiovascular and thoracic areas, enabling clinicians to screen and diagnose lung cancer using low-dose CT protocols. This device helps physicians detect lung nodules and other thoracic abnormalities with reduced radiation exposure, supporting effective lung cancer screening programs following clinical guidelines.