Clinical Studies
MediView is on the leading edge of the new emerging Augmented Reality Medical Imaging category, defining the new “Metaverse” for surgical navigation and the healthcare and medical categories. The articles below provide clinical insights into the viability and robustness of MediView’s technologies.
A Product Evaluation of Augmented Reality Equipment Coupled to Diagnostic Medical Sonography: A Potential Equipment and Ergonomic Innovation
Targeting accuracy determines outcomes for percutaneous needle interventions. Augmented reality (AR) in IR may improve procedural guidance and facilitate access to complex locations. This study aimed to evaluate percutaneous needle placement accuracy using a goggle-based AR system compared to an ultrasound (US)-based fusion navigation system.
Mixed Reality In Interventional Radiology: A Focus On First Clinical Use of XR90 Augmented Reality-Based Visualization and Navigation Platform
Targeting accuracy determines outcomes for percutaneous needle interventions. Augmented reality (AR) in IR may improve procedural guidance and facilitate access to complex locations. This study aimed to evaluate percutaneous needle placement accuracy using a goggle-based AR system compared to an ultrasound (US)-based fusion navigation system.
Smart Goggles Augmented Reality CT-US Fusion Compared to Conventional Fusion Navigation for Percutaneous Needle Insertion
Targeting accuracy determines outcomes for percutaneous needle interventions. Augmented reality (AR) in IR may improve procedural guidance and facilitate access to complex locations. This study aimed to evaluate percutaneous needle placement accuracy using a goggle-based AR system compared to an ultrasound (US)-based fusion navigation system.
3D Holographic Guidance and Navigation for Percutaneous Ablation of Solid Tumor
This report presents the first feasibility evaluation of 3-dimensional (3D) holographic guidance and navigation for performing percutaneous thermal ablation of solid tumors.
Evaluation of an Augmented Reality Navigational Guidance Platform for Percutaneous Procedures in a Cadaver Model
The objective of this study is to review the accuracy of an augmented reality navigational guidance system designed to facilitate improved visualization, guidance, and accuracy during percutaneous needle-based procedures including biopsies and ablations.
Early Clinical Feasibility Evaluation of an Augmented Reality Platform for Guidance and Navigation during Percutaneous Tumor Ablation
An augmented reality platform with a head-mounted display and electromagnetic tracking of instruments was developed for percutaneous procedural guidance…
Augmented and Mixed Reality: Technologies for Enhancing the Future of IR
Augmented and mixed reality are emerging interactive and display technologies. These technologies are able to merge virtual objects, in either 2 or 3 dimensions, with the real world. Image guidance is the cornerstone of interventional radiology…