FDA Radiology AI Devices

The FlowTriever2 Catheter is a medical device designed for the non-surgical removal of blood clots (emboli and thrombi) from peripheral blood vessels, particularly for the treatment of pulmonary embolism. It uses fluoroscopic visualization aided by radiopaque markers to guide the device through blood vessels, capturing and extracting clots to restore normal blood flow. This device helps clinicians perform thrombectomy procedures with precision, facilitating minimally invasive treatment of embolic conditions in peripheral and pulmonary vasculature.

The Medline ReNewal Reprocessed Siemens ACUSON AcuNav 10F Ultrasound Catheter is a reprocessed ultrasound catheter designed for imaging inside the heart and great vessels of adult patients. It assists clinicians by providing intracardiac and intraluminal visualization using the ultrasound modality. The catheter is intended for imaging guidance during cardiac interventional procedures, improving visualization of cardiac anatomy and device placement without treatment delivery.

The Intra-Operative Positioning System (IOPS®) is a surgical navigation tool that helps clinicians navigate catheters and guidewires during endovascular procedures. It uses pre-acquired 3D vascular imaging data combined with real-time electromagnetic tracking to display precise tip positioning, serving as an adjunct to fluoroscopy. This technology enhances procedural accuracy without making direct diagnoses.

The Makoto Intravascular Imaging System™ is a medical imaging device that uses near-infrared spectroscopy combined with intravascular ultrasound to examine coronary and peripheral arteries. It helps clinicians detect lipid-core plaques, assess coronary artery lipid burden, and identify patients at risk of cardiac events by providing detailed images and compositional information of blood vessels. The device includes software that automatically identifies vessel borders and guide catheter locations, aiding in precise and efficient vascular assessment during invasive angiographic procedures.

The Pilot TLS system helps healthcare providers accurately position central venous catheters by real-time monitoring of the patient's cardiac electrical signals. This serves as an alternative to traditional chest X-ray or fluoroscopy confirmation methods, potentially reducing radiation exposure and speeding up catheter placement.

Loss of Pulse Detection is a software application from Fitbit designed to analyze pulse data collected by consumer wrist-worn devices to detect possible loss of pulse events. When such events are detected, it alerts the user with audio, visual, and haptic signals, and can prompt an emergency call if the user does not respond. This helps in early identification of critical cardiac events, improving patient safety by notifying potential emergencies.

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 Gentuity® HF-OCT Imaging System with Vis-Rx Prime® Micro-Imaging Catheter is a medical imaging device designed to provide high-resolution, real-time images of coronary arteries in patients undergoing transluminal interventional procedures. It uses near-infrared light delivered via a fiber-optic catheter to visualize coronary tissue, aiding clinicians in diagnosis and treatment planning.

The Affera Integrated Mapping System is a software and hardware system designed to help cardiologists map the heart's electrical activity during catheter-based procedures. It uses magnetic and electromagnetic tracking to visualize catheters inside the heart in real time, records electrical signals from the heart, and displays 3D cardiac maps. This assists clinicians in diagnosing and treating heart rhythm disorders with improved accuracy and guidance.

PanopticAI Vital Signs is a medical software application that uses AI algorithms to measure pulse rate non-invasively by analyzing color changes in facial video captured from an iPhone or iPad camera. It helps healthcare professionals monitor a patient's pulse rate remotely, providing a convenient tool to complement traditional vital sign assessments.