FDA Radiology AI Devices

CORIOGRAPH Pre-Op Planning and Modeling Services is a software tool used for preoperative planning of orthopedic surgeries such as unicondylar knee replacement, total knee arthroplasty, and primary total hip arthroplasty. It generates patient-specific bone models and surgical plans based on medical imaging scans, helping surgeons plan and optimize implant placement before surgery.

The Mako Shoulder Application (1.0) is part of the Mako System designed to assist surgeons in reverse shoulder arthroplasty procedures by providing AI-driven, software-defined spatial boundaries using patient CT imaging. It aids in pre-surgical planning, implant placement, and intraoperative navigation, improving surgical accuracy and outcomes.

The Materialise Shoulder System is a patient-specific medical device designed to assist surgeons in preoperative planning and intraoperative positioning of shoulder replacement components. It includes the SurgiCase Shoulder Planner software, which utilizes CT imaging to generate detailed 3D pre-surgical plans. Based on these plans, patient-specific guides and models are created to help precisely position implants during surgery, improving surgical accuracy and outcomes for total and reverse shoulder arthroplasty.

The ROSA Knee System is a robotic-assisted surgical device used during total knee replacement surgeries. It helps surgeons precisely place knee implants by using software to define spatial boundaries relative to anatomical landmarks and utilizing a robotic arm to guide bone resections and implant positioning. This system can integrate pre-operative imaging such as X-rays or MRI to plan surgeries more accurately and improve surgical outcomes.

The Blueprint Patient-Specific Instrumentation system by Stryker Corporation includes hardware and software components designed to assist surgeons in planning and performing shoulder replacement surgeries, specifically reversed shoulder arthroplasty. It uses CT scans to generate patient-specific surgical guides and implants, improving the precision of implant placement and potentially leading to better surgical outcomes for patients with shoulder joint conditions.

QUADSENSE is a surgical tool used during total knee replacement surgery to help surgeons measure and compare the forces in the patellofemoral joint before and after patella resurfacing. The device includes a sensor attached to the patella and displays real-time force data to support surgical decision-making, improving joint alignment and implant positioning.

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.

ARVIS® Shoulder is a computer-assisted surgical navigation system designed to help surgeons precisely position and align implants during total shoulder arthroplasty. It uses preoperative CT scans processed with AI algorithms for automatic image segmentation and anatomical landmark identification, providing real-time measurements during surgery to guide instrument placement and implant positioning, thereby enhancing surgical accuracy and outcomes.

Automatic Registration by Brainlab AG is a software tool that facilitates image-guided surgery by automatically registering intraoperatively acquired 3D CT, CBCT, or fluoroscopic images to the surgical environment. This helps surgeons precisely correlate patient images with their anatomy during surgery, improving navigation accuracy and surgical outcomes.

OTS Hip is a surgical system designed to assist orthopedic surgeons in planning and performing total hip arthroplasty (hip joint replacement) surgeries. It uses CT images of the patient's hip anatomy to create a detailed 3D model, enabling precise preoperative planning and real-time intraoperative navigation. This image-guided system improves surgical accuracy and helps position compatible hip prostheses according to the pre-planned locations, enhancing patient outcomes.