One-stop planning, guidance, and
As an integral part of Dexus workflow environment,
AW workstation, is a powerful tool to help you plan, guide, and assess the
success of interventional procedures performed on Innova* systems. As a true
multimodality workstation, the AW enhances workflow and capabilities in the
interventional room. You can perform 3D processing, multi-modality image
integration, and real-time 3D image overlay at a single workstation with
control right at the tableside. During procedures, you can:
- Get high-contrast, high-resolution 3D, and
cross-sectional views in any anatomy.
- Synchronize the gantry with 3D models
from rotational angiography, CT or MR datasets and control 3D reformatted
images at tableside with the InRoom 3D mouse.
- Register 3D volumes from multiple modalities
to increase the information available in real time.
- Fuse real-time 2D X-ray images and 3D
models to enhance guidance.
Software evaluates the global ejection fraction and wall motion of the left ventricle and analyzes the shape of the ventricle in systolic and diastolic phases.
Tools evaluate lesion severity by analyzing the shape and length of compromised areas of the vessel, then supply qualitative measurements for use in revascularization planning.
guidance supports needle interventions such as biopsy, vertebroplasty, and thermal
ablation. It lets you visualize needle advancement in real time based on X-ray images
fused with predefined 3D trajectories and anatomy.
analysis tool of 3D angiographic data provides display, measurement, filming,
and archival features to study selected vessels. The multimodality application
supports analysis of X-ray subtracted 3D studies and CTA studies.
Software works on DSA images from anywhere in the body
and produces colorcoded parametric images representing time to peak, maximum
pixel opacification, and combinations of these parameters.1
1: This application may not
be available in all countries. Please contact your GE Healthcare representative
for its availability in certain countries.