Manchester Visualization Centre Bases Clinical Tool for Aneurysm Analysis on AVS/Expressehron
A new endovascular surgery planning tool has been created by the Manchester Visualization Centre (MVC) using AVS/Express data visualization software. The MVC’s custom software combines advanced visualization techniques with magnetic resonance imaging (MRI) to allow non-invasive, pre-surgical analysis of aneurysms.
The MVC’s Endovascular Surgical Planning Tool (ESP) helps clinicians determine the optimal view of a brain aneurysm and assess the shape, size and position of the aneurysm prior to surgery and without risk to the patient.
The MVC chose AVS/Express for this project because of its rapid user-interface development environment, provision of advanced visualization methods and cross-platform compatibility.
“AVS/Express allowed us to present an initial working version of the software in less than four weeks,” said James Perrin, Research Associate at MVC.
One new treatment, currently under evaluation, involves packing the aneurysm with platinum by means of a small tube or catheter run through the femoral artery and into the brain. The platinum promotes clotting and eventual healing of the aneurysm without brain surgery. But, a major difficulty of this technique is accurate assessment of the aneurysm’s shape and origin, which is crucial for specifying the packing. Current assessment procedures pose their own dangers to the patient in the form of radiation and increased pressure within the artery. ESP addresses this problem as a non-invasive, easy-to-use assessment tool.
“With AVS/Express, we were able to build a professional and intuitive application that allowed them to immediately visualize their data,” commented Perrin.
AVS/Express’ support for Linux, along with 3D hardware acceleration, means that ESP can handle heavy graphics demands specifically, the isosurfaces generated from a 512x512x100 volume on an affordable desktop machine. ESP, like AVS/Express, also runs under the Windows operating system.
Read more about James Perrin’s work here.