FDA Radiology AI Devices

MuscleView is an AI-powered software that automatically segments muscles and bones in MRI scans of the lower limbs. It calculates useful metrics such as muscle and bone volume, fat infiltration, and asymmetry to assist physicians in analyzing musculoskeletal health. The segmentations need to be reviewed and edited by trained clinicians. This tool helps improve the efficiency and accuracy of muscle and bone analysis from MRI images but is not intended for diagnostic use of diseases.

CINA-CSpine by Avicenna.AI is a radiological computer-assisted triage and notification software that uses AI algorithms to analyze cervical spine CT scans for suspected acute fractures. It helps hospital networks and trained physicians by flagging potential fracture cases and prioritizing image review, enabling faster and more efficient diagnosis and patient care. It operates alongside the standard care workflow without altering original images, providing notifications with preview images for informational purposes.

CoLumbo is a software tool that helps radiologists and spine surgeons analyze MRI images of the lumbar spine by automatically segmenting anatomical features and measuring spine structures. It identifies out-of-range measurements and assists users in documenting findings, streamlining the review and reporting process without making any medical diagnosis.

The Precision AI Surgical Planning System (PAI-SPS) is a software and hardware system designed to assist surgeons in preoperative planning and intraoperative guidance for shoulder replacement surgeries. It creates a 3D model of the patient's shoulder joint from CT scans, allowing surgeons to visualize and plan implant placement precisely. Custom surgical guides are also produced to help accurately position shoulder implant components during surgery, enhancing surgical outcomes.

Rayvolve by AZmed SAS is an AI-powered software designed to assist radiologists and emergency physicians in detecting fractures from X-ray images of various musculoskeletal regions in adults and children aged 2 years and older. It enhances fracture diagnosis by automatically highlighting potential fractures on standard radiographic views, improving diagnostic accuracy and workflow efficiency.

Acorn 3D Software is an advanced medical imaging software that processes CT and CTA scans to visualize, segment, and create detailed 3D digital models of musculoskeletal and craniomaxillofacial anatomy, including spine regions. It offers machine learning-based automatic segmentation for certain vertebrae and semi-automatic/manual tools for other bones. Clinicians can use these digital models for measurement, treatment planning, and can also produce physical 3D printed replicas for diagnostic purposes, enhancing surgical planning and patient care.

SMART Bun-Yo-Matic X-Ray is a software tool that uses X-ray images of the foot and ankle to create 3D mathematical models, provide radiographic measurements, and assist orthopedic healthcare professionals in diagnosis and surgical planning. The software visualizes patient anatomy and orthopedic fixation devices, enabling precise pre-surgical planning to improve treatment outcomes for foot and ankle conditions such as hallux valgus.

VEA Align and spineEOS are cloud-based medical imaging software products by EOS imaging designed to assist healthcare professionals. VEA Align helps assess spinal and lower limb alignment using 2D X-rays with AI-generated anatomical landmarks for precise angle and length measurements. spineEOS facilitates preoperative planning for spine surgeries with access to 3D spine datasets and clinical measurements, enabling tailored surgical strategies. Both tools support clinicians by improving diagnostic accuracy and surgical planning through advanced image analysis and AI.

The O-arm O2 Imaging System by Medtronic Navigation, Inc is a mobile X-ray device designed to provide detailed 2D and 3D imaging of patients' bony anatomy and metallic objects, mainly used during image-guided surgeries. It includes advanced software features such as metal artifact reduction and dose reduction using machine learning, helping clinicians obtain clearer images with lower radiation exposure for improved surgical navigation and patient safety.

SMART Bun-Yo-Matic CT is an AI-based software tool that helps orthopedic healthcare professionals by automatically segmenting foot and ankle bones from CT images, creating 3D anatomical models, measuring structures, and providing surgical planning visualizations. This supports diagnosis and treatment planning, especially for conditions like hallux valgus, through detailed, interactive reports and templates.