FDA Radiology AI Devices

The NuVasive Pulse System is a medical device that helps surgeons precisely locate anatomical structures during spinal surgeries using intraoperative 3D imaging and computer-assisted navigation. It tracks surgical instruments in real-time and overlays their virtual positions on patient images, enhancing surgical accuracy and safety in procedures like pedicle screw placement and iliosacral screw placement.

ApolloHipX is a software system designed to aid surgeons during Total Hip Replacement by precisely measuring the position and alignment of hip replacement components using radiological images. It integrates pre-operative 3D patient data with intra-operative 2D X-ray images to provide near-real-time assistive measurements, helping ensure the implants are correctly positioned relative to the patient's bone structures.

The TMINI Miniature Robotic System is a robotic-assisted surgical device designed to help surgeons accurately plan and execute total knee replacement surgeries. It uses preoperative CT scans to create 3D bone models, allowing precise implant positioning through software planning and robotic guidance. The system enhances surgical accuracy and efficiency by using AI-enhanced image segmentation, intraoperative tracking, and spatial boundary definition during surgery.

Clarify DL is a software solution that uses deep learning integrated with iterative image reconstruction techniques to reduce noise and improve image quality in Nuclear Medicine bone SPECT images. It helps clinicians by enhancing image clarity which potentially improves diagnostic confidence and patient outcomes.

Ortho AI is a medical software device that helps orthopedic surgeons by using AI to semi-automatically measure lengths, angles, and implant positions on radiographic images. It assists in preoperative and intraoperative planning for hip, knee, and lumbar spine surgeries through digital annotations and measurements, improving surgical planning accuracy and efficiency.

SpineAR SNAP is a software device that helps surgeons plan and perform spinal implant surgeries more accurately by transforming traditional 2D medical images into interactive 3D visualizations. It supports pre-operative planning on screens and virtual reality, as well as intra-operative guidance using augmented reality headsets like HoloLens2 and Magic Leap 1. This technology provides enhanced visualization and guidance, improving surgical precision while allowing the surgeon to maintain focus on the surgical field.

The aprevo® Digital Planning software is a semi-automated surgical planning tool used by trained medical personnel. It processes 3D spine models in conjunction with clinician inputs to produce 3D models of spinal corrections and anatomical measurements, which assist surgeons in pre-operative planning for spine surgeries.

The OrthoNext Platform System is a web-based software that helps healthcare professionals plan orthopedic surgeries and treatments by overlaying product templates on X-ray images and providing measurement and simulation tools. It assists in both preoperative and postoperative planning, enabling clinicians to make informed decisions by digitally visualizing and measuring treatment options.

MSKai is a medical software that helps clinicians by automatically identifying, measuring, and reporting features of the lumbar spine from T2 weighted MRI images. It supports radiologists and spine surgeons by providing reliable, repeatable quantitative assessments that can be reviewed and confirmed for clinical use, improving workflow efficiency.

The Remex Spine Surgery Navigation Instrument is designed to assist surgeons in precisely positioning surgical tools and spinal implants during spinal surgeries. It works by integrating fluoroscopic and CT images to guide procedures like pedicle screw placement, enhancing surgical accuracy and patient safety.